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Home My WebLink About7607_GreatOakMSWLF_PartialCOARpt_Cell1A_DIN26813_20161004Construction Documentation Report Great Oak Landfill Cell 1A Construction Certification Report Cell 1A Presented To: Waste Management of Carolinas, Inc. 3597 Old Cedar Falls Road Randleman, Randolph County, North Carolina 27317 Presented From: SCS ENGINEERS, PC 2520 Whitehall Park Drive, Suite 450 Charlotte, NC 28273 (704) 504-3107 October 4, 2016 File No. 02215305.02 Construction Documentation Report Great Oak Landfill Cell 1A Table of Contents Section Page 1.0 INTRODUCTION ..................................................................................................................................... 1 1.1 Background ................................................................................................................................... 4 1.2 Project Overview ......................................................................................................................... 4 1.3 Project Parties ............................................................................................................................... 5 2.0 SITE PREPARATION and EXCAVATION ............................................................................................. 8 3.0 STRUCTURAL FILL ................................................................................................................................. 10 3.1 Structural Fill Laboratory Testing ........................................................................................... 10 3.2 Structural Fill Construction ....................................................................................................... 11 3.2.1 Structural Fill Field Testing ................................................................................. 12 3.2.2 Subgrade Certification and Bedrock Separation ......................................... 12 4.0 HIGH DENSITY POLYETHYLENE (HDPE) GEOMEMBRANE LINERS .............................................. 13 4.1 Manufacturer’s Quality assurance Testing ........................................................................... 13 4.2 Quality Assurance Material Testing ...................................................................................... 13 4.3 HDPE Geomembrane Panel Deployment ............................................................................. 14 4.4 HDPE Geomembrane Panel Seaming and Non-Destructive Seam Testing .................... 14 4.5 Destructive Seam Testing ......................................................................................................... 15 4.6 Repairs ........................................................................................................................................ 15 5.0 GEOCOMPOSITE ................................................................................................................................. 16 5.1 Manufacturer’s Quality assurance Testing ........................................................................... 16 5.2 Quality Assurance Material Testing ...................................................................................... 17 5.3 Geocomposite Deployment ..................................................................................................... 17 6.0 GEOSYNTHETIC CLAY LINERS .......................................................................................................... 18 6.1 Manufacturer’s Quality assurance Testing ........................................................................... 18 6.2 Quality Assurance Material Testing ...................................................................................... 18 6.3 GCL Placement .......................................................................................................................... 19 7.0 LEACHATE COLLECTION SYSTEM ..................................................................................................... 20 7.1 Leachate Collection piping ...................................................................................................... 20 7.2 Sump, Pumps, and Forcemain ................................................................................................. 20 7.3 Leachate Pipe Camera Inspection ......................................................................................... 20 7.4 Leachate Storage Tank and Secondary Containment Area ............................................. 20 8.0 PROTECTIVE SOIL COVER .................................................................................................................. 21 8.1 Protective Soil Cover Laboratory Testing ............................................................................ 21 9.0 LEAK LOCATION TESTING ................................................................................................................. 22 10.0 CERTIFICATION STATEMENT .............................................................................................................. 23 Construction Documentation Report Great Oak Landfill Cell 1A List of Figures No. Page 1 Site Vicinity Map 3 2 Landfill Site Plan 9 List of Tables No. Page 1 Structural fill Laboratory Results 11 Appendices A Structural Fill A-1 Laboratory Results A-2 Field Density Testing B Subgrade Certifications C HDPE Geomembrane (Primary, Secondary, and Tertiary) C-1 MQC Certifications C-2 CQA Conformance Testing Results C-3 Destructive Seam Testing Results C-4 Records and Logs C-5 HDPE Geomembrane As-Built Record Drawings D Geocomposite Layer D-1 MQC Certifications D-2 CQA Conformance Testing Results E Geosynthetic Clay Liner E-1 MQC Certifications E-2 CQA Conformance Testing Results F Leachate Management Information F-1 LCS and LDS Pipe Information F-2 LCS and LDS Aggregate Material Laboratory Data F-3 LCS and LDS Pipe Camera Inspection F-3 Storage Tank F-4 Forcemain G Protective Soil Cover G-1 Laboratory Results H Leak Location Testing Report I Weekly Summary Field Reports J Photographs K As-Built Drawings Construction Documentation Report Great Oak Landfill Cell 1A List of Acronyms ACC Atlantic Coast Consulting ASTM American Standards for Testing Materials C/D Construction and Demolition cm/sec centimeters per second CQA Construction Quality Assurance FTB Film tear bond GOLF Great Oak Landfill HDPE High density polyethylene LCS Leachate Collection System LDS Leak Detection System LFG Landfill gas MQC Manufacturer Quality Control MSW Municipal solid waste NCDEQ North Carolina Department of Environmental Quality OMC Optimum moisture content PE Professional Engineers PG Professional Geologist QA Quality Assurance S&ME Soil & Material Engineers SCS SCS Engineers USCS Unified Soil Classification System M:\PROJECT FILES\02215305.02\Deliverables\CQA Report\GOLF CDR_v0.2.doc Construction Documentation Report Great Oak Landfill Cell 1A 1 1.0 INTRODUCTION This Construction Documentation Report, prepared by SCS Engineers, PC (SCS), summarizes the construction of an approximate 7.3-acre cell (Cell 1A) at the Waste Management Great Oak Landfill (Landfill). The Landfill is located in Randolph County outside of Asheboro, North Carolina. The Landfill is located at 3597 Old Cedar Falls Road (Figure 1). The Landfill is owned Randolph County and operated by the Waste Management of the Carolinas (WM). This report documents the construction of Cell 1A and construction quality assurance (CQA) activities conducted during the construction of Cell 1A, the leachate storage tank and secondary containment area, and the leachate force main. The Landfill was issued a Permit to Construct on January 19, 2016. The Landfill operates under Permit No. 7607-MSWLF-2015. This submittal contains material certifications, laboratory testing, field testing, as-built survey drawings, and photographs for each component of the Cell 1A Project. Individual sections of this Construction Documentation Report describe the materials and testing/inspection procedures used for: • Site Preparation and Excavation • Structural Fill • 60-mil High Density Polyethylene (HDPE) Geomembrane liners (primary, secondary, and tertiary) • Geosynthetic Clay Liners (GCL) • Geocomposite Layers (Leak Detection and Leachate Collection Layers) • Leachate Management System • Protective Cover Layer • Leachate Storage Tank and Secondary Containment Area • Leachate Forcemain The necessary monitoring, inspection and testing for the construction of Cell 1A have been completed. Monitoring, testing and inspections were performed and documented based, in part, on the following: • Permit to Construct Application (S&ME February 16, 2015, Revised October 21, 2015) • Permit to Construct (NC DEQ, January 19, 2016) • Construction Plans, Great Oak Landfill Cell 1A & 1B (S&ME, May 25, 2016) • Technical Specifications (S&ME, 2016) • Construction Quality Assurance (COA) Plan (S&ME, 2016) • Correspondences from NC DEQ Construction Documentation Report Great Oak Landfill Cell 1A 2 Twelve (12) appendices are included in the report. The appendices include laboratory reports, field testing data, daily field reports, photographs, and as-built drawings. Construction Documentation Report Great Oak Landfill Cell 1A 3 Figure 1 Construction Documentation Report Great Oak Landfill Cell 1A 4 1.1 BACKGROUND The Landfill is located in central Randolph County about 0.5 miles from Asheboro. The Landfill is a municipal solid waste (MSW) landfill permitted to accept household waste, commercial solid waste, and industrial waste as defined by 15A NCAC 13B .1602 of the Solid Waste Management Rules. The Landfill property is approximately 667 acres and approximately 200 acres are proposed for waste disposal. The Landfill consists of nine (9) Phases. Phase 1, which is approximately 56.1 acres, consists of seven (7) cells. Cell 1 is divided into two sub cells designated Cell 1A and Cell 1B. Cell 1A is approximately 7.3 acres, and Cell 1B is approximately 8.2 acres. 1.2 PROJECT OVERVIEW Construction activities at the site consisted of many components needed for a solid waste facility such as an access road, scales, a scale house, utility lines, leachate storage tanks, a borrow pit, storm water basins, and a maintenance building. Construction of Cells 1A and 1B was done simultaneously, although the completion of Cell 1A is 4 to 6 weeks before the completion of Cell 1B. This CQA Report covers the construction of Cell 1A and a subsequent CQA Report will be issued to cover Cell 1B. A Pre-construction meeting was conducted May 24th at 11:00 a.m. at the Randolph County Office Building, 725 McDowell Road, Asheboro, NC 27205. Construction began on May 25, 2016 with the installation of erosion and sediment controls. Site preparation, clearing and grubbing activities within the limits of the Cell 1A and 1B began in mid-June 2016. As stated above, this CQA Report covers Cell 1A. However, the manufacturer quality control (MQC) and construction quality assurance (CQA) data for the geosynthetic materials (geomembrane liner, geocomposite, and geosynthetic clay liner) contained herein are for both Cell 1A and 1B. Cell 1A has a composite liner system. The liner system includes a secondary leak location zone and a primary liner system on the cell floor. Within the sump area a tertiary geomembrane liner is included. The liner system consists of the following from top to bottom: • Liner System – Cell Floor o Two feet of protective cover soil o Leachate collection system geocomposite drainage layer o Primary 60-mil textured HDPE geomembrane liner o Geosynthetic clay liner (GCL) o Leak detection system (LDS) geocomposite drainage layer o Secondary 60-mil textured HDPE geomembrane liner o Subgrade soil or compacted structural fill soil • Liner System – Sump Area Construction Documentation Report Great Oak Landfill Cell 1A 5 o Two feet of protective cover soil o Leachate collection system geocomposite drainage layer o Tertiary 60-mil textured HDPE geomembrane liner o Geosynthetic clay liner (GCL) o Primary 60-mil textured HDPE geomembrane liner o Leak detection system (LDS) geocomposite drainage layer o Secondary 60-mil textured HDPE geomembrane liner o Subgrade soil or compacted structural fill soil 1.3 PROJECT PARTIES The parties involved in the construction, permitting, and construction oversight of Cell 1A at the Great Oak Landfill are summarized below. Permitee/Operator Primary Contact John Workman 1850 Parkway Place, Suite 600 Marietta, GA 30067 Phone: (704) 400-6557 Email: jworkman@wm.com General Contractor Primary Contact Superintendent Dakota Hinterer Chad Howdershelt Project Engineer Mountaineer/Preston Contractors, Inc. 15237 S Preston Highway Cell: (304) 698-1448 Kingwood, WV 26537 Email: chad.howdershelt@mciwv.com Phone: (304) 329-2129 Cell: (443) 789-0987 Email: dakota.hinterer@mciwv.com CQA Consultant CQA Officer/Certifying Engineer CQA Manager Steve Lamb, P.E. Orion Holtey, P.E. SCS Engineers SCS Engineers 2520 Whitehall Park Drive, Suite 450 Cell: (941) 527-7480 Charlotte, NC 28273 Email: oholtey@scsengineers.com Phone: (704) 504-3107 Cell: (704) 576-4731 Email: slamb@scsengineers.com Construction Documentation Report Great Oak Landfill Cell 1A 6 CQA Soils Technician ACC, Inc. Danny Rennicks Cell: (770) 687-1371 Email: DRennicks@atlcc.net CQA Geosynthetic Monitor ACC, Inc. Taylor Herbertson Cell: (770) 713-0465 Email: THerbertson@atlcc.net Design Engineering Firm Design Manager Steve Loskota, P.E. S&ME, Inc. Phone: (704) 523-4726 Email: sloskota@smeinc.com Design Engineer Sharon Korleski, P.E. S&ME, Inc. Phone: (864) 208-9371 Email: skorleski@smeinc.com Survey Firm Charlie Morgan Charlie Morgan Surveying, PLLC Phone: (336) 629-5015 Email: cmorganpls@gmail.com Randolph County Design Manager Paxton Arthurs Randolph County Phone: (336) 318-6605 Email: paxton.arthurs@randolphcountync.gov Construction Documentation Report Great Oak Landfill Cell 1A 7 NCDEQ John Murray Ming-Tai Chao DEQ-WM-SWS DEQ-WM-SWS Phone: (252) 808-2808 Phone: (919) 707-8251 Email: john.murray@ncdenr.gov Email: Ming.Chao@ncdenr.gov Christine Ritter John Patrone DEQ-NC-SWS DEQ-WM-SWS Phone: (919) 707-8254 Phone: (336) 776-9673 Email: christine.ritter@ncdenr.gov Email: john.patrone@ncdenr.gov Construction Documentation Report Great Oak Landfill Cell 1A 8 2.0 SITE PREPARATION AND EXCAVATION Cell 1A and 1B are approximately 7.3 and 8.2 acres, respectively. Cell 1A is irregular in shape as illustrated in Figure 2. Site preparation for Cell 1 began in mid-June 2016. Site preparation activities began in the northern portion of the cell. Site preparation activities consisted of the following: • Stripping of vegetation and topsoil. Large trees were cut down, and stockpiled. Controlled burns were used to reduce vegetative waste. • Excavation of overburden soil materials to meet excavation grades. • Blasting of bedrock formations to a depth of at least 4 feet below top of structural fill design elevations. Following the mass excavation and blasting activities, the grade which represented the bottom of subgrade was surveyed. This information was reviewed by SCS Engineers to verify that there was at least a 4-ft separation between exposed bedrock and the top of structural fill design elevations. Following this review, the cell floor was proof-rolled to verify suitable foundation for the placement of structural fill. Construction Documentation Report Great Oak Landfill Cell 1A 9 Figure 2 Construction Documentation Report Great Oak Landfill Cell 1A 10 3.0 STRUCTURAL FILL Section 3 describes the inspection, monitoring and testing activities for subgrade approval and structural fill placement along with associated testing results. 3.1 STRUCTURAL FILL LABORATORY TESTING Structural fill (designated as “Type S1” in the Technical Specifications) material was stockpiled on site during the site preparation and subgrade construction activities. Prior to placement, quality assurance soil samples were obtained by SCS’s subcontracted geotechnical testing firm Soil Consultants, Inc. Ten bulk samples of structural fill material were collected (SF-1 through SF-10) from on site. The bulk samples were transported to the geotechnical laboratory at Timely Engineering Soil Tests, LLC (TEST) located in Atlanta, NC. The following tests were performed: • Natural Moisture Content (ASTM D 2216) • Atterberg Limits (ASTM D 4318) • Standard Proctor (ASTM D 698) • Particle size analysis (ASTM D 6913)(D422 old version) The samples collected were classified according to USCS as CH, CL, MH, or ML with maximum dry density (MDD) ranging from 83.3 to 104.5 pounds per cubic foot (pcf) and optimum moisture content ranging from 19.1 to 31.2 percent. The results of the standard Proctor test, Atterberg Limits, and natural moisture content tests are summarized in Table 1. The complete laboratory test results are provided in Appendix A-1. Testing was performed in accordance with the CQA Plan and Technical Specifications at a frequency of one test per 10,000 CY. Over the 7.3 acre cell footprint, the depth of structural fill ranged from 2 to 8 feet, averaging an estimated 5 feet. Therefore, we estimate approximately 60,000 cubic yards of structural fill was placed and compacted to construct the subgrade. Based on this volume, a minimum of six (6) bulk structural fill samples are needed to satisfy the sampling frequencies in the CQA Plan and Technical Specifications. As stated above, ten (10) bulk soil samples were collected. Construction Documentation Report Great Oak Landfill Cell 1A 11 Table 1. S tructural Fill Laboratory Results Sample No. Standard Proctor Natural Moisture Content (%) Atterberg Limits Maximum Dry Density (MDD), pcf Optimum Moisture Content (OMC) Liquid Limit Plastic Limit Plastic Index SF-1 99.7 23.7% 23.93 54 29 25 SF-2 102.0 20.4% 24.43 43 25 18 SF-3 104.3 20.4% 23.77 44 27 17 SF-4 83.3 31.2% 43.37 61 40 21 SF-5 103.3 19.5% 21.76 37 23 14 SF-6 101.1 19.1% 23.69 45 24 14 SF-7 94.5 23.3% 34.12 49 34 15 SF-8 102.2 19.1% 23.42 38 28 10 SF-9 99.2 21.5% 33.22 39 29 10 SF-10 95.8 22.7% 28.03 49 32 17 3.2 STRUCTURAL FILL CONSTRUCTION The structural fill layer was constructed by Preston beginning on August 25, 2016 and substantially completed on October 4, 2016. The structural fill layer was constructed in several lifts ranging from 6-inch thick to 10-inch thick (loose measure). Placement and compaction of the structural fill layer was achieved using the following equipment: • -Cat D6N (GPS) Dozer • -Cat D6T • -Cat D8T • -Cat 390 Excavator • -Cat 349 • -Cat 323 • -3x Hitachi 1100 trucks Construction Documentation Report Great Oak Landfill Cell 1A 12 • -3x Volvo A40F artic trucks • -Cat CS56 sheepsfoot roller • -Cat CS56 smooth drum roller • -Cat 420 rubber tire backhoe 3.2.1 Structural Fill Field Testing Structural fill materials within the footprint of Cell 1A were compacted to a density of at least 95 percent of the standard Proctor density (ASTM D 698). The placement of structural fill material was monitored and tested in accordance with the Technical Specifications and CQA Plan. Field density testing was performed at a minimum frequency of 1 test per 1,500 cubic yards for placement of structural fill in accordance with the CQA Plan. Testing was performed by SCS’s subcontracted geotechnical testing firm Atlantic Coast Consulting, Inc. (ACC). The testing equipment was a nuclear density gage and testing was conducted in accordance with ASTM D 2922. A total of 100 density tests were conducted using a nuclear gage. Results of the field density testing for the structural fill material are provided in Appendix A-2. Based on these results, all structural fill materials were placed in accordance with the Technical Specifications and CQA Plan. An as-built survey drawing of the Top of Structural Fill was produced by Morgan Surveying. This survey shows that the subgrade and structural fill elevations reached prior to installation of the leak detection zone (secondary geomembrane liner and geocomposite). The drawing is located in Appendix J. 3.2.2 Subgrade Certification and Bedrock Separation In accordance with the Landfill’s Permit to Construct, No. 7607-MSWLF-2015, Part I, Condition 7, the subgrade was inspected by a licensed geologist prior to any placement of structural fill. Based on these inspections and review of survey data it was concluded that the 4-ft separation from bedrock achieved. Two reports were prepared and submitted to NCDEQ for Cell 1A. The initial report, dated September 9, 2016, covered approximately 5.2 acres of the site. A second report covering the remainder of Cell 1A was dated October 4, 2016. Copies of these reports are provided in Appendix B. Construction Documentation Report Great Oak Landfill Cell 1A 13 4.0 HIGH DENSITY POLYET HYLENE (HDPE) GEOMEMBRANE LINERS SCS Engineers and its subcontracted consultant (ACC, Inc.) provided full-time monitoring and testing for the installation of the 60-mil HDPE geomembrane liners for the Cell 1A project. As previously stated there are three layers of geomembrane liners on this project – secondary, primary, and tertiary. The 60-mil HDPE geomembrane (Super GripNet) was supplied by Agru- America, Inc. One hundred and twelve (112) rolls of liner were supplied for Cell 1A and 1B for the installation of the three geomembrane liners. Installation of the HDPE geomembrane liner was performed by Environmental Services, Inc. (ESI). The combined Cell 1A and 1B project will include approximately 14,000,000 square feet of geomembrane liner. 4.1 MANUFACTURER’S QUALITY ASSURANCE TESTING In accordance with Table 1 in the CQA Plan, the following manufacturer’s quality control (MQC) testing was performed on the HDPE geomembrane liner: • Thickness (ASTM D 5994) • Asperity Height (ASTM D 7466) • Density (ASTM D 792) • Tensile Properties (ASTM D 6693) • Tear Resistance (ASTM D 1004) • Puncture Resistance (ASTM D 4833) • Stress Crack Resistance (ASTM D 5397) • Carbon Black Content (ASTM D 4218) • Carbon Black Dispersion (ASTM D 5596) • Oxidative Induction Time (ASTM D 3895) The testing frequency for thickness was one per every roll. The manufacturer provided a certification letter for stress crack resistance and oxidative induction time. All other tests were performed as a frequency of one test per 50,000 square feet. The MQC test results were reviewed by SCS and based on our review; the HDPE geomembrane liner met or exceeded the project requirements. A copy of the manufacturer’s quality control (MQC) certifications and resin testing is included in Appendix C-1. 4.2 QUALITY ASSURANCE MATERIAL TESTING Following review and approval of the HDPE geomembrane liner MQC test results, material samples were shipped from Agru to Waste Management’s third party geosynthetics testing laboratory, TRI, for quality assurance (QA) testing. QA conformance sampling and testing for the HDPE geomembrane liner was conducted in accordance with the CQA Plan. Testing was conducted at a frequency of one test per 100,000 sf Construction Documentation Report Great Oak Landfill Cell 1A 14 of liner. A total of 14 QA samples were obtained and tested for the combined Cell 1A and 1B project. The following tests were performed: • Thickness (ASTM D 5994) • Asperity Height (ASTM D 7466) • Density (ASTM D 792) • Tensile Properties (ASTM D 6693) • Puncture Resistance (ASTM D 4833) • Carbon Black Content (ASTM D 4218) • Carbon Black Dispersion (ASTM D 5596) A copy of the QA conformance testing results from TRI is included in Appendix C-2. These results indicate the 60-mil HDPE geomembrane meet or exceed the requirements of the project specifications and CQA Plan. 4.3 HDPE GEOMEMBRANE PANEL DEPLOYMENT HDPE geomembrane panels were deployed using a boom and spear mounted on a front end loader; pulling the sheet off of the roll using an ATV four-wheeler and manpower. The secondary liner geomembrane panels were deployed directly on top of the structural fill. The subgrade was inspected by CQA personnel and ESI personnel and approved for liner acceptance by ESI prior to deployment. Each panel was inspected by CQA personnel during deployment, assigned a sequential panel number and measured for dimensions. Deployment of HDPE geomembrane panels started September 9, 2016 and were completed on October __, 2016. 4.4 HDPE GEOMEMBRANE PANEL SEAMING AND NON- DESTRUCTIVE SEAM TESTING At the beginning of each work day during HDPE geomembrane installation, trial seams were performed (fusion and/or extrusion) to test the integrity of the welding machine and welding technician. Following completion of the trial seams, four destructive testing specimens were cut from the trial seams and tested using the Installer’s tensiometer. Two specimens were tested for peel adhesion and two for shear strength. In order to accept a trial seam, the failure mode for both peel adhesion and bonded shear strength must be Film Tear Bond (FTB). Subsequent trial seams were performed throughout the day for approximately every 4 hours of seaming or if a new welder or technician was used. A copy of the Trial Weld Log is included in Appendix C-4. CQA personnel provided full-time monitoring during seaming of HDPE geomembrane panels. The majority of field seaming was accomplished using double hot wedge fusion welding equipment and techniques. Each seam was assigned a sequential number in accordance with the project specifications. A copy of the geomembrane seaming log is included in Appendix C-4. SCS provided full-time monitoring for non-destructive testing of field seams; air pressure testing for double hot wedge fusion welds and vacuum box testing for extrusion welds. The Non- Construction Documentation Report Great Oak Landfill Cell 1A 15 Destructive Test Logs documenting non-destructive seam testing results are provided in Appendix C-4. 4.5 DESTRUCTIVE SEAM TESTING Destructive testing of the field seams was performed on each panel seam at approximately 500- foot interval for each welding machine. Field destructive samples were obtained in accordance with the specifications at locations selected by SCS. Laboratory testing of the destructive test samples was conducted by Geotechnics. The locations of the destructive samples were determined by SCS personnel and are shown on the Geomembrane Repair and Destructive Seam Location Plan in Appendix C-5. Four 1-inch wide specimens were taken from each destructive test sample (two from each end) in the field and tested using the Installer’s tensiometer for Peel and Shear Strength, using Film Tear Bond and passing criteria. A total of 26 destructive samples were tested for the secondary liner; XX for the primary liner, and XX for the tertiary liner. All the destructive test samples passed. A copy of the laboratory destructive testing results is included in Appendix C-3. 4.6 REPAIRS Over 300 repairs were performed during the HDPE geomembrane installation. The majority of the repairs were performed at panel corner intersections and at destructive testing sample locations. Documentation of the repair size, repair type (patch, cap strip) and non-destructive testing results is included on the Repair Testing Logs provided in Appendix C-4. All repairs were monitored and tested in accordance with the project specifications. A record drawing showing the locations of all HDPE geomembrane panels, including seams, destructive test, and repairs is included in Appendix C-5. Construction Documentation Report Great Oak Landfill Cell 1A 16 5.0 GEOCOMPOSITE SCS CQA monitoring personnel provided full time monitoring and inspection for the geocomposite materials and installation. The geocomposite material (TN 330-2-8) was manufactured and supplied by Skaps Industries. The geocomposite is comprised of a 250-mil HDPE geonet in between two layers of 8-ounce geotextile. Installation was performed by ESI. Approximately 1,350,500 square feet of geocomposite (leak detection layer and leachate collection layer) is needed for the combined Cell 1A and 1B project. 5.1 MANUFACTURER’S QUALITY ASSURANCE TESTING In accordance with the CQA Plan, the following manufacturer’s quality control (MQC) tests were performed by the manufacturer: Geonet • Thickness (ASTM D 5199) • Carbon Black Content (ASTM D 4218) • Density (ASTM D 1505) In addition to these, the manufacturer also performed Tensile Strength (ASTM D 7179) and Melt Flow (ASTM D 1238) which were not requested in the CQA Plan. Composite • Ply Adhesion (ASTM D 7005) • Transmissivity (ASTM D 4716) Geotextile • Mass per unit area (ASTM D 5261) • Grab Strength (ASTM D 4632) • Puncture resistance (ASTM D 4833) • AOS (ASTM D 4751) • UV Resistance (ASTM D 4355) • Permittivity (ASTM D 4491) The testing frequency for the above tests is 1 test per 100,000 square feet, except for transmissivity, which is one test per project. Thirty-five (35) tests were run for ply adhesion, density, thickness, carbon black and tensile strength. Four (4) transmissivity tests were run, and eighteen (18) tests were performed on the geotextile. The MQC test results were reviewed by SCS and based on our review; the geocomposite met or exceeded the project requirements. A copy of the manufacturer’s quality control (MQC) certifications and resin testing is included in Appendix D-1. Construction Documentation Report Great Oak Landfill Cell 1A 17 5.2 QUALITY ASSURANCE MATERIAL TESTING Quality assurance (QA) conformance sampling and testing for the geocomposite was performed by TRI in accordance with the CQA Plan. Testing was generally conducted at a frequency of one sample per 100,000 sf. The test frequency for transmissivity was one test per project; for UV resistnace was one per resin; and for permittivity was one per 540,000 sf. For the combined Cell 1A and 1B, seventeen (17) QA samples were obtained and tested. The following tests were performed: Geonet • Thickness (ASTM D 5199) • Carbon Black Content (ASTM D 4218) • Tensile Properties (ASTM D 5035) • Density (ASTM D 1505) Composite • Ply Adhesion (ASTM D 7005) • Transmissivity (ASTM D 4716) Geotextile • Mass per unit area (ASTM D 5261) • Grab Strength (ASTM D 4632) • Puncture resistance (ASTM D 4833) • AOS (ASTM D 4751) • UV Resistance (ASTM D 4355) • Permittivity (ASTM D 4491) A copy of the QA conformance testing results from TRI is included in Appendix D-2. These results indicate the geocomposite materials meet or exceed the requirements of the project specifications and CQA Plan. 5.3 GEOCOMPOSITE DEPLOYMENT Rolls of geocomposite were deployed using manpower and appropriately overlapped along the panel sides and ends. The panels of geocomposite were joined using plastic “zip ties” and then sewn together using a polyester thread in accordance with the specifications. Construction Documentation Report Great Oak Landfill Cell 1A 18 6.0 GEOSYNTHETIC CLAY LINERS SCS CQA monitoring personnel provided full-time monitoring and testing for the installation of the geosynthetic clay liner (GCL). The GCL was supplied by CETCO. The Product Type is Bentomat DN-SFT. The GCL is a needlepunched reinforced composite geosynthetic clay liner comprised of a uniform layer of granular sodium bentonite encapsulated between a nonwoven and a scrim-nonwoven geotextile. One hundred and sixteen (116) rolls of GCL were purchased for Cell 1A and Cell 1B. Installation of the GCL was performed by ESI. 6.1 MANUFACTURER’S QUALITY ASSURANCE TESTING In accordance with the Technical Specifications and the CQA Plan, the following manufacturer’s quality control (MQC) testing was performed on the GCL product: • Tensile Strength (ASTM D 6768) • Peel Strength (ASTM D 6496) • Clay Content (ASTM D 5993) • Free Swell (ASTM D 5890) • Moisture Content (ASTM D 2216) • Fluid Loss (ASTM D 5891) • Index Flux (hydraulic conductivity) (ASTM D 5887) The following MQC tests were performed on the nonwoven geotextile: • Mass per Unit Area (ASTM D 5261) • Grab Strength (ASTM D 4632) • Grab Elongation (ASTM D 4632) The MQC test results were reviewed by SCS and based on our review; the GCL met or exceeded the project requirements. A copy of the MQC certifications is included in Appendix E-1. 6.2 QUALITY ASSURANCE MATERIAL TESTING Quality assurance (QA) conformance sampling and testing for the geocomposite was performed by TRI in accordance with the CQA Plan. Testing was conducted at a frequency of one sample per 100,000 sf. The following tests were performed: • Bentonite Mass/Unit Area (ASTM D 5993) • Permeability (ASTM D 5887) • Peel Strength (ASTM D 6496) A copy of the QA conformance testing results from TRI is included in Appendix E-2. These results indicate the GCL materials meet or exceed the requirements of the project specifications and CQA Plan. Construction Documentation Report Great Oak Landfill Cell 1A 19 6.3 GCL PLACEMENT The placement of the GCL rolls began in the north portion of the cell. Placement began on September ___, 2016 and was essentially completed on September ___, 2016. Panels of GCL were overlapped at least 12 inched on the sides and 24 inches on the ends. Powdered bentonite was spread on the GCL at all overlaps. Construction Documentation Report Great Oak Landfill Cell 1A 20 7.0 LEACHATE COLLECTION SYSTEM SCS personnel provided full time monitoring and inspection for the installation of leachate collection and removal components. The leachate collection and removal system included the following components: • Perforated collection piping (6-inch and 8-inch) within the cell. • . 7.1 LEACHATE COLLECTION PIPING A perforated 8-inch diameter HDPE leachate collection pipe traverses Cell 1A from south to north located in the topographically low area within the cell. The collection pipe rests on the geocomposite above the liner system and is surrounded by a column of #57 washed stone. The stone column is surrounded by a 10-ounce non-woven needle punched geotextile to separate the protective cover soils from the stone column. Six-inch diameter perforated HDPE pipes are also located within the cell to collect and transmit leachate. All perforated pipes convey leachate to the leachate sump. 7.2 SUMP, PUMPS, AND FORCEMAIN 7.3 LEACHATE PIPE CAMERA INSPECTION 7.4 LEACHATE STORAGE TANK AND SECONDARY CONTAINMENT AREA Construction Documentation Report Great Oak Landfill Cell 1A 21 8.0 PROTECTIVE SOIL COVER SCS Engineers provided full-time monitoring and inspection for the placement of protective soil cover above the liner section. The Protective soil cover was installed between October __, 2016 and October ___, 2016. In summary, a 2-foot minimum thick layer of soils were placed across the entire Cell 1A footprint. Placement of the operational cover began at the upgradient northwest corner of the cell and progressed to the south end. SCS CQA personnel monitored the underlying liner system for any possible damage during operational cover installation. Following placement of the operational cover, the surface was surveyed in order to certify that a minimum of 2 feet had been placed. A copy of the surveyed certification drawing is included in Appendix J. 8.1 PROTECTIVE SOIL COVER LABORATORY TESTING Four bulk samples of protective soil cover material were collected (SF-11 through SF-14) from the an onsite stockpile for laboratory testing. The bulk samples were transported to SCS’s subcontracted geotechnical laboratory, TIME, located in Atlanta, Georgia. Construction Documentation Report Great Oak Landfill Cell 1A 22 9.0 LEAK LOCATION TESTING Construction Documentation Report Great Oak Landfill Cell 1A 23 10.0 CERTIFICATION STATEMENT (stamp & dated) Steven C. Lamb, PE NC PE No. 28684 Appendices Appendix A Structural Fill Appendix A-1 Laboratory Results TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Fax: 770-923-8973 SOIL Cell: 678-612-6534 TESTS, LLC Web: www.test-llc.com DRAFT Project Name: Carbonate Moisture Opt.Max.Dry.Initial Init.Dry Hydraulic USCS Content,Content %Finer %Finer % Finer L.L.P.L.P.I.M.C. Density M.C.DensityConduct. %(%)3" Sieve #4 Sieve #200 Sieve %%%%pcf %pcf cm/sec CH --92.5 81.6 64.1 54 29 25 23.7 99.7 --- CL --100.0 88.6 73.0 43 25 18 20.4 102.0 --- ML --100.0 90.7 66.7 44 27 17 20.4 104.3 --- MH --100.0 98.8 79.8 61 40 21 31.2 83.3 --- CL --100.0 95.0 81.0 37 23 14 19.5 103.3 --- CL --100.0 97.8 92.6 45 24 21 19.1 101.1 --- ML --100.0 94.3 76.1 49 34 15 23.3 94.5 --- ML --100.0 98.0 95.6 38 28 10 19.1 102.2 --- ML --100.0 97.4 78.8 39 29 10 21.5 99.2 --- ML --100.0 97.1 93.4 49 32 17 22.7 95.8 --- Hydraulic Conductivity 21814 Great Oaks Landfill Cells 1A & 1B 21815 21817 21816 SF-2 SF-3 ProctorGrain Size 1608-05-1 Summary of Soil Testing Project Number: 1608-05 SF-6 21899 T.E.S.T. Atterberg Limits SF-5 22169 DistributionClient SF-7 SF-9 Sample SF-8 Sample Number SF-4 1608-05-2 21900 Number 22168 22170 SF-1 22171 SF-10 Page 1 of 2 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By NK SOIL Fax: 770-923-8973 Date 05/27/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 32 23 18 Mass of Wet Sample & Tare, g 43.96 46.63 44.41 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 37.81 40.27 37.42 Balance ID #139/563 Mass of Tare, g 26.11 28.54 24.85 Liquid Limit Device ID #451/569 Moisture Content, %52.56 54.22 55.61 PLASTIC LIMIT Mass of Wet Sample & Tare, g 34.57 35.19 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 32.26 32.91 Mass of Tare, g 24.31 25.04 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %29.06 28.97 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 620.10 LIQUID LIMIT (LL)54 Mass of Dry Sample & Tare, g 518.70 PLASTIC LIMIT (PL)29 Mass of Tare, g 94.90 PLASTICITY INDEX (PI)25 Moisture Content, %23.93 LIQUIDITY INDEX (LI)-0.20 DESCRIPTION USCS (ASTM D2487; D2488)CH AASHTO (M 145)NA Red Gravelly Fat Clay with Sand 21814/SF-1 - -- -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk 51 52 53 54 55 56 57 58 59 10 100 NUMBER OF BLOWS M O IS TU R E C ON T E N T % 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 620.1 Mass of Wet Sample & Tare, g 442.20 Mass of Dry Sample & Tare, g 518.7 Mass of Dry Sample & Tare, g 378.30 Mass of Tare, g 94.9 Mass of Tare, g 93.90 Moisture Content, %23.9 Moisture Content, %22.5 TOTAL Mass of wet sample 15650.0 Mass of Wet Fine Material & Tare, g 203.80 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 12628.5 Mass of Dry Fine Material, g 166.41 % of Total Sample Passing Split Sieve 85.1 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 6"COBBLES 0.0 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"945.6 7.5 92.5 #4 COARSE SAND 6.78 81.6 2.5"COARSE 945.6 7.5 92.5 #10 MEDIUM 14.67 77.6 2"GRAVEL 945.6 7.5 92.5 #20 SAND 19.49 75.1 1.5"1116.2 8.8 91.2 #40 22.36 73.7 1"1241.9 9.8 90.2 #60 FINE SAND 26.41 71.6 .75"1395.9 11.1 88.9 #100 31.94 68.8 .5"FINE GRAVEL 1676.8 13.3 86.7 #200 FINES 41.01 64.1 .375"1880.6 14.9 85.1 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 7.5 % MEDIUM Sand 3.9 Balance ID# 139/142/700 % COARSE Gravel 3.6 % FINE Sand 9.5 Sieve Shaker ID # 555 % FINE Gravel 7.3 % FINES 64.1 % COARSE Sand 4.0 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 7.5 % COARSE Sand 3.9 % COARSE Gravel (Stone)2.3 % FINE Sand 9.5 % MEDIUM Gravel (Stone)5.1 % FINES (Silt-Clay)64.1 % FINE Gravel (Stone)7.5 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)CH AASHTO (M 145)NA Page 1 of 2 MOISTURE CONTENT of FINE MATERIAL 21814/SF-1 - Red Gravelly Fat Clay with Sand FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - EB ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 05/27/16 -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 05/27/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA Project's Specific % Passing Project's Specific Particle Size, mm -1608-05-1 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 - Great Oaks Landfill Cells 1A & 1B Bulk 21814/SF-1 - 12 " 6"3"2.5 " 2"1.5 " 1" .7 5 " .5 " .3 7 5 " .2 5 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000Grain size in millimeters % P A S S I N G TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 15650.0 12628.5 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 620.1 1880.6 Mass of Mat. Retained on 3/8" sieve, g 1880.6 1880.6 518.7 1880.6 Mass of Mat. Retained on 3/4" sieve, g 94.9 0.0 23.9 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %14.9 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)14.9 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 6010.0 6057.0 6058.0 6020.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 501.6 526.7 517.7 518.0 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 435.7 453.5 440.6 434.3 Hammer ID Number 318 Mass of Tare, g 139.6 139.3 138.6 140.6 Number of Blows per layer 25 Moisture Content, %22.3 23.3 25.5 28.5 Number of Layers 3 Wet Density, pcf 119.6 122.7 122.7 120.2 Dry Density, pcf 97.8 99.5 97.8 93.6 REMARKS DESCRIPTION CH NA Maximum Dry Density, pcf 99.7 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %23.7 Corrected Optimum Moisture Content, %NA - Mass of Tare, g Moisture Content, % ASTM D 698 Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - 21814/SF-1 -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk RI 05/27/16 - TEST DATA Red Gravelly Fat Clay with Sand Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) Moisture vs. Dry Density 93.0 95.0 97.0 99.0 101.0 103.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 28.0 29.0 30.0 31.0 Moisture Content, % Dr y D e n s it y , p cf 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By NK SOIL Fax: 770-923-8973 Date 05/27/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 35 25 17 Mass of Wet Sample & Tare, g 44.57 48.28 46.15 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 38.84 42.54 39.57 Balance ID #139/563 Mass of Tare, g 24.86 29.33 25.37 Liquid Limit Device ID #451/569 Moisture Content, %40.99 43.45 46.34 PLASTIC LIMIT Mass of Wet Sample & Tare, g 33.06 36.80 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 31.04 34.72 Mass of Tare, g 23.04 26.48 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %25.25 25.24 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 574.60 LIQUID LIMIT (LL)43 Mass of Dry Sample & Tare, g 481.10 PLASTIC LIMIT (PL)25 Mass of Tare, g 98.40 PLASTICITY INDEX (PI)18 Moisture Content, %24.43 LIQUIDITY INDEX (LI)-0.03 DESCRIPTION USCS (ASTM D2487; D2488)CL AASHTO (M 145)NA -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk Yellowish Red Lean Clay with Sand 21815/SF-2 - -- 39 40 41 42 43 44 45 46 47 48 49 10 100 NUMBER OF BLOWS M O IS TU R E C ON T E N T % 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 574.6 Mass of Wet Sample & Tare, g 490.40 Mass of Dry Sample & Tare, g 481.1 Mass of Dry Sample & Tare, g 420.50 Mass of Tare, g 98.4 Mass of Tare, g 98.70 Moisture Content, %24.4 Moisture Content, %21.7 TOTAL Mass of wet sample 20500.0 Mass of Wet Fine Material & Tare, g 202.90 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 16474.9 Mass of Dry Fine Material, g 166.69 % of Total Sample Passing Split Sieve 90.8 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 4.06 88.6 2.5"COARSE 0.0 0.0 100.0 #10 MEDIUM 12.95 83.8 2"GRAVEL 675.6 4.1 95.9 #20 SAND 16.70 81.7 1.5"915.1 5.6 94.4 #40 18.16 81.0 1"977.5 5.9 94.1 #60 FINE SAND 20.36 79.8 .75"1138.6 6.9 93.1 #100 24.30 77.6 .5"FINE GRAVEL 1408.5 8.5 91.5 #200 FINES 32.70 73.0 .375"1507.5 9.2 90.8 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 2.8 Balance ID# 139/142/700 % COARSE Gravel 6.9 % FINE Sand 7.9 Sieve Shaker ID # 555 % FINE Gravel 4.5 % FINES 73.0 % COARSE Sand 4.8 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 2.8 % COARSE Gravel (Stone)5.9 % FINE Sand 7.9 % MEDIUM Gravel (Stone)3.2 % FINES (Silt-Clay)73.0 % FINE Gravel (Stone)7.1 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)CL AASHTO (M 145)NA Page 1 of 2 EB ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 05/27/16 -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk MOISTURE CONTENT of FINE MATERIAL 21815/SF-2 - Yellowish Red Lean Clay with Sand FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 05/27/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA - Great Oaks Landfill Cells 1A & 1B Bulk 21815/SF-2 - -1608-05-1 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 Project's Specific % Passing Project's Specific Particle Size, mm 12 " 6"3"2.5 " 2"1.5 " 1".7 5 " .5 " .3 7 5 " .2 5 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000Grain size in millimeters % P A S S I N G TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 20500.0 16474.9 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 574.6 1507.5 Mass of Mat. Retained on 3/8" sieve, g 1507.5 1507.5 481.1 1507.5 Mass of Mat. Retained on 3/4" sieve, g 98.4 0.0 24.4 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %9.2 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)9.2 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 5987.0 6038.0 6064.0 6050.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 507.3 517.5 517.5 522.6 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 450.2 456.0 452.1 449.5 Hammer ID Number 318 Mass of Tare, g 140.4 140.3 139.3 140.9 Number of Blows per layer 25 Moisture Content, %18.4 19.5 20.9 23.7 Number of Layers 3 Wet Density, pcf 118.0 121.4 123.1 122.2 Dry Density, pcf 99.7 101.6 101.8 98.8 REMARKS DESCRIPTION CL NA Maximum Dry Density, pcf 102.0 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %20.4 Corrected Optimum Moisture Content, %NA TEST DATA Yellowish Red Lean Clay with Sand Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) RI 05/27/16 -21815/SF-2 -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk - Mass of Tare, g Moisture Content, % ASTM D 698 Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - Moisture vs. Dry Density 97.0 99.0 101.0 103.0 105.0 107.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 Moisture Content, % Dr y D e n s it y , p cf 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By NK SOIL Fax: 770-923-8973 Date 05/27/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 35 23 18 Mass of Wet Sample & Tare, g 42.70 43.63 42.28 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 37.46 37.74 36.28 Balance ID #139/563 Mass of Tare, g 25.04 24.37 23.00 Liquid Limit Device ID #451/569 Moisture Content, %42.19 44.05 45.18 PLASTIC LIMIT Mass of Wet Sample & Tare, g 34.66 37.52 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 32.25 35.56 Mass of Tare, g 23.32 28.21 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %26.99 26.67 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 619.30 LIQUID LIMIT (LL)44 Mass of Dry Sample & Tare, g 517.50 PLASTIC LIMIT (PL)27 Mass of Tare, g 89.20 PLASTICITY INDEX (PI)17 Moisture Content, %23.77 LIQUIDITY INDEX (LI)-0.19 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Yellowish Red Sandy Silt 21816/SF-3 - -- -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk 41 42 43 44 45 46 47 48 49 10 100 NUMBER OF BLOWS M O IS TU R E C ON T E N T % 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 619.3 Mass of Wet Sample & Tare, g 434.70 Mass of Dry Sample & Tare, g 517.5 Mass of Dry Sample & Tare, g 379.90 Mass of Tare, g 89.2 Mass of Tare, g 101.50 Moisture Content, %23.8 Moisture Content, %19.7 TOTAL Mass of wet sample 18100.0 Mass of Wet Fine Material & Tare, g 205.00 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 14624.1 Mass of Dry Fine Material, g 171.28 % of Total Sample Passing Split Sieve 95.9 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 9.30 90.7 2.5"COARSE 0.0 100.0 #10 MEDIUM 19.49 85.0 2"GRAVEL 0.0 100.0 #20 SAND 27.41 80.6 1.5"0.0 0.0 100.0 #40 30.86 78.6 1"99.4 0.7 99.3 #60 FINE SAND 35.64 76.0 .75"257.8 1.8 98.2 #100 41.49 72.7 .5"FINE GRAVEL 479.1 3.3 96.7 #200 FINES 52.21 66.7 .375"598.0 4.1 95.9 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 6.4 Balance ID# 139/142/700 % COARSE Gravel 1.8 % FINE Sand 12.0 Sieve Shaker ID # 555 % FINE Gravel 7.5 % FINES 66.7 % COARSE Sand 5.7 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 6.4 % COARSE Gravel (Stone)0.7 % FINE Sand 12.0 % MEDIUM Gravel (Stone)3.4 % FINES (Silt-Clay)66.7 % FINE Gravel (Stone)10.9 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Page 1 of 2 EB ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 05/27/16 -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk MOISTURE CONTENT of FINE MATERIAL 21816/SF-3 - Yellowish Red Sandy Silt FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 05/27/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA - Great Oaks Landfill Cells 1A & 1B Bulk 21816/SF-3 - -1608-05-1 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 Project's Specific % Passing Project's Specific Particle Size, mm 12 " 6"3"2.5 " 2"1.5 " 1".7 5 " .5 " .3 7 5 " .2 5 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000Grain size in millimeters % P A S S I N G TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 18100.0 14624.1 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 619.3 598.0 Mass of Mat. Retained on 3/8" sieve, g 598.0 598.0 517.5 598.0 Mass of Mat. Retained on 3/4" sieve, g 89.2 0.0 23.8 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %4.1 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)4.1 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 6023.0 6082.0 6100.0 6074.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 541.7 531.3 547.7 555.6 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 478.1 466.8 475.6 475.5 Hammer ID Number 318 Mass of Tare, g 139.5 139.2 138.4 139.3 Number of Blows per layer 25 Moisture Content, %18.8 19.7 21.4 23.8 Number of Layers 3 Wet Density, pcf 120.4 124.3 125.5 123.8 Dry Density, pcf 101.4 103.9 103.4 100.0 REMARKS DESCRIPTION ML NA Maximum Dry Density, pcf 104.3 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %20.4 Corrected Optimum Moisture Content, %NA TEST DATA Yellowish Red Sandy Silt Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) 21816/SF-3 -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk RI 05/27/16 - - Mass of Tare, g Moisture Content, % ASTM D 698 Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - Moisture vs. Dry Density 98.0 100.0 102.0 104.0 106.0 108.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 Moisture Content, % Dr y D e n s it y , p cf 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By NK SOIL Fax: 770-923-8973 Date 05/27/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 35 24 18 Mass of Wet Sample & Tare, g 37.62 37.97 43.53 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 31.40 32.52 36.54 Balance ID #139/563 Mass of Tare, g 20.75 23.60 25.44 Liquid Limit Device ID #451/569 Moisture Content, %58.40 61.10 62.97 PLASTIC LIMIT Mass of Wet Sample & Tare, g 34.53 34.69 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 31.62 31.95 Mass of Tare, g 24.39 25.17 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %40.25 40.41 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 594.50 LIQUID LIMIT (LL)61 Mass of Dry Sample & Tare, g 445.40 PLASTIC LIMIT (PL)40 Mass of Tare, g 101.60 PLASTICITY INDEX (PI)21 Moisture Content, %43.37 LIQUIDITY INDEX (LI)0.16 DESCRIPTION USCS (ASTM D2487; D2488)MH AASHTO (M 145)NA -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk Red Elastic Silt with Sand 21817/SF-4 - -- 57 58 59 60 61 62 63 64 65 10 100 NUMBER OF BLOWS M O IS TU R E C ON T E N T % 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 594.5 Mass of Wet Sample & Tare, g 460.40 Mass of Dry Sample & Tare, g 445.4 Mass of Dry Sample & Tare, g 363.10 Mass of Tare, g 101.6 Mass of Tare, g 99.60 Moisture Content, %43.4 Moisture Content, %36.9 TOTAL Mass of wet sample 16100.0 Mass of Wet Fine Material & Tare, g 203.80 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 11229.8 Mass of Dry Fine Material, g 148.84 % of Total Sample Passing Split Sieve 99.4 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 0.96 98.8 2.5"COARSE 0.0 100.0 #10 MEDIUM 3.92 96.8 2"GRAVEL 0.0 100.0 #20 SAND 8.48 93.8 1.5"0.0 100.0 #40 11.66 91.6 1"0.0 0.0 100.0 #60 FINE SAND 15.69 89.0 .75"24.2 0.2 99.8 #100 21.13 85.3 .5"FINE GRAVEL 43.0 0.4 99.6 #200 FINES 29.32 79.8 .375"63.4 0.6 99.4 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 5.2 Balance ID# 139/142/700 % COARSE Gravel 0.2 % FINE Sand 11.8 Sieve Shaker ID # 555 % FINE Gravel 1.0 % FINES 79.8 % COARSE Sand 2.0 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 5.2 % COARSE Gravel (Stone)0.0 % FINE Sand 11.8 % MEDIUM Gravel (Stone)0.6 % FINES (Silt-Clay)79.8 % FINE Gravel (Stone)2.6 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)MH AASHTO (M 145)NA Page 1 of 2 EB ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 05/27/16 -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk MOISTURE CONTENT of FINE MATERIAL 21817/SF-4 - Red Elastic Silt with Sand FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 05/27/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA - Great Oaks Landfill Cells 1A & 1B Bulk 21817/SF-4 - -1608-05-1 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 Project's Specific % Passing Project's Specific Particle Size, mm 12 " 6"3"2.5 " 2"1.5 " 1".7 5 " .5 " .3 7 5 " .2 5 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000Grain size in millimeters % P A S S I N G TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 16100.0 11229.8 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 594.5 63.4 Mass of Mat. Retained on 3/8" sieve, g 63.4 63.4 445.4 63.4 Mass of Mat. Retained on 3/4" sieve, g 101.6 0.0 43.4 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %0.6 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)0.6 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 5797.0 5850.0 5846.0 5834.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 510.1 523.6 517.0 511.4 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 425.0 432.8 423.9 414.1 Hammer ID Number 318 Mass of Tare, g 138.5 140.2 139.8 139.3 Number of Blows per layer 25 Moisture Content, %29.7 31.0 32.8 35.4 Number of Layers 3 Wet Density, pcf 105.5 109.0 108.7 107.9 Dry Density, pcf 81.3 83.2 81.9 79.7 REMARKS DESCRIPTION MH NA Maximum Dry Density, pcf 83.3 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %31.2 Corrected Optimum Moisture Content, %NA TEST DATA Red Elastic Silt with Sand Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) RI 05/27/16 -21817/SF-4 -1608-05-1 Great Oaks Landfill Cells 1A & 1B Bulk - Mass of Tare, g Moisture Content, % ASTM D 698 Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - Moisture vs. Dry Density 77.0 79.0 81.0 83.0 85.0 87.0 28.0 29.0 30.0 31.0 32.0 33.0 34.0 35.0 36.0 37.0 38.0 Moisture Content, % Dr y D e n s it y , p cf 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 06/14/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 35 25 15 Mass of Wet Sample & Tare, g 46.30 49.43 49.07 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 40.69 42.82 42.34 Balance ID #139/563 Mass of Tare, g 25.11 24.91 24.82 Liquid Limit Device ID #451/569 Moisture Content, %36.01 36.91 38.41 PLASTIC LIMIT Mass of Wet Sample & Tare, g 37.63 31.16 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 35.48 29.63 Mass of Tare, g 26.16 23.02 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %23.07 23.15 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 550.00 LIQUID LIMIT (LL)37 Mass of Dry Sample & Tare, g 467.70 PLASTIC LIMIT (PL)23 Mass of Tare, g 89.50 PLASTICITY INDEX (PI)14 Moisture Content, %21.76 LIQUIDITY INDEX (LI)-0.09 DESCRIPTION USCS (ASTM D2487; D2488)CL AASHTO (M 145)NA -1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk Brownish Yellow Lean Clay with Sand 21899/SF-5 - -- 35 36 37 38 39 40 41 10 100 NUMBER OF BLOWS M O IS TU R E C ON T E N T % 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 550.0 Mass of Wet Sample & Tare, g 431.40 Mass of Dry Sample & Tare, g 467.7 Mass of Dry Sample & Tare, g 373.40 Mass of Tare, g 89.5 Mass of Tare, g 105.90 Moisture Content, %21.8 Moisture Content, %21.7 TOTAL Mass of wet sample 26500.0 Mass of Wet Fine Material & Tare, g 201.10 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 21764.0 Mass of Dry Fine Material, g 165.27 % of Total Sample Passing Split Sieve 96.8 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 3.04 95.0 2.5"COARSE 0.0 100.0 #10 MEDIUM 6.78 92.8 2"GRAVEL 0.0 100.0 #20 SAND 9.66 91.1 1.5"0.0 0.0 100.0 #40 11.96 89.8 1"528.3 2.4 97.6 #60 FINE SAND 14.96 88.0 .75"557.0 2.6 97.4 #100 19.51 85.4 .5"FINE GRAVEL 636.5 2.9 97.1 #200 FINES 26.95 81.0 .375"697.0 3.2 96.8 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 3.0 Balance ID# 139/142/700 % COARSE Gravel 2.6 % FINE Sand 8.8 Sieve Shaker ID # 555 % FINE Gravel 2.4 % FINES 81.0 % COARSE Sand 2.2 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 3.0 % COARSE Gravel (Stone)2.4 % FINE Sand 8.8 % MEDIUM Gravel (Stone)0.8 % FINES (Silt-Clay)81.0 % FINE Gravel (Stone)4.0 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)CL AASHTO (M 145)NA Page 1 of 2 RI ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 06/13/16 -1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk . MOISTURE CONTENT of FINE MATERIAL 21899/SF-5 - Brownish Yellow Lean Clay with Sand FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By RI SOIL Fax: 770-923-8973 Date 06/13/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA - Great Oaks Landfill Cells 1A & 1B Bulk 21899/SF-5 - -1608-05-2 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 Project's Specific % Passing Project's Specific Particle Size, mm 12 " 6"3"2.5 " 2"1.5 " 1".7 5 " .5 " .3 7 5 " .2 5 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000Grain size in millimeters % P A S S I N G TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 26500.0 21764.0 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 550.0 697.0 Mass of Mat. Retained on 3/8" sieve, g 697.0 697.0 467.7 697.0 Mass of Mat. Retained on 3/4" sieve, g 89.5 0.0 21.8 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %3.2 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)3.2 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 6039.0 6062.0 6076.0 6070.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 538.5 537.0 532.6 532.6 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 474.8 470.7 462.3 455.6 Hammer ID Number 318 Mass of Tare, g 125.2 125.4 125.5 127.8 Number of Blows per layer 25 Moisture Content, %18.2 19.2 20.9 23.5 Number of Layers 3 Wet Density, pcf 121.5 123.0 123.9 123.5 Dry Density, pcf 102.8 103.2 102.5 100.0 REMARKS DESCRIPTION CL NA Maximum Dry Density, pcf 103.3 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %19.5 Corrected Optimum Moisture Content, %NA TEST DATA Brownish Yellow Lean Clay with Sand Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) MK 06/13/16 -21899/SF-5 -1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk - Mass of Tare, g Moisture Content, % ASTM D 698 Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - Moisture vs. Dry Density 98.0 100.0 102.0 104.0 106.0 108.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 Moisture Content, % Dr y D e n s it y , p cf 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 06/14/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 35 27 15 Mass of Wet Sample & Tare, g 48.26 48.57 46.71 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 41.60 41.49 39.94 Balance ID #139/563 Mass of Tare, g 25.89 25.42 25.75 Liquid Limit Device ID #451/569 Moisture Content, %42.39 44.06 47.71 PLASTIC LIMIT Mass of Wet Sample & Tare, g 38.49 32.09 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 36.56 30.68 Mass of Tare, g 28.57 24.86 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %24.16 24.23 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 555.30 LIQUID LIMIT (LL)45 Mass of Dry Sample & Tare, g 467.10 PLASTIC LIMIT (PL)24 Mass of Tare, g 94.80 PLASTICITY INDEX (PI)21 Moisture Content, %23.69 LIQUIDITY INDEX (LI)-0.01 DESCRIPTION USCS (ASTM D2487; D2488)CL AASHTO (M 145)NA Yellowish Brown Lean Clay 21900/SF-6 - -- -1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk 41 42 43 44 45 46 47 48 49 10 100 NUMBER OF BLOWS M O IS TU R E C ON T E N T % 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 555.3 Mass of Wet Sample & Tare, g 450.80 Mass of Dry Sample & Tare, g 467.1 Mass of Dry Sample & Tare, g 383.10 Mass of Tare, g 94.8 Mass of Tare, g 101.70 Moisture Content, %23.7 Moisture Content, %24.1 TOTAL Mass of wet sample 24300.0 Mass of Wet Fine Material & Tare, g 200.50 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 19645.8 Mass of Dry Fine Material, g 161.62 % of Total Sample Passing Split Sieve 99.1 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 2.10 97.8 2.5"COARSE 0.0 100.0 #10 MEDIUM 4.86 96.1 2"GRAVEL 0.0 100.0 #20 SAND 6.16 95.3 1.5"0.0 100.0 #40 6.66 95.0 1"0.0 0.0 100.0 #60 FINE SAND 7.26 94.6 .75"29.6 0.2 99.8 #100 8.20 94.1 .5"FINE GRAVEL 127.7 0.7 99.3 #200 FINES 10.55 92.6 .375"181.2 0.9 99.1 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 1.1 Balance ID# 139/142/700 % COARSE Gravel 0.2 % FINE Sand 2.4 Sieve Shaker ID # 555 % FINE Gravel 2.1 % FINES 92.6 % COARSE Sand 1.7 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 1.1 % COARSE Gravel (Stone)0.0 % FINE Sand 2.4 % MEDIUM Gravel (Stone)0.9 % FINES (Silt-Clay)92.6 % FINE Gravel (Stone)3.0 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)CL AASHTO (M 145)NA Page 1 of 2 MOISTURE CONTENT of FINE MATERIAL 21900/SF-6 - Yellowish Brown Lean Clay FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - RI ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 06/13/16 -1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By RI SOIL Fax: 770-923-8973 Date 06/13/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA Project's Specific % Passing Project's Specific Particle Size, mm -1608-05-2 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 - Great Oaks Landfill Cells 1A & 1B Bulk 21900/SF-6 - 12 " 6"3"2.5 " 2"1.5 " 1".7 5 " .5 " .3 7 5 " .2 5 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000Grain size in millimeters % P A S S I N G TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 24300.0 19645.8 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 555.3 181.2 Mass of Mat. Retained on 3/8" sieve, g 181.2 181.2 467.1 181.2 Mass of Mat. Retained on 3/4" sieve, g 94.8 0.0 23.7 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %0.9 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)0.9 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 5951.0 6010.0 6043.0 6060.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 588.0 579.0 537.2 589.0 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 532.6 516.6 465.8 511.4 Hammer ID Number 318 Mass of Tare, g 183.3 176.3 125.2 183.3 Number of Blows per layer 25 Moisture Content, %15.9 18.3 21.0 23.7 Number of Layers 3 Wet Density, pcf 115.7 119.6 121.7 122.9 Dry Density, pcf 99.8 101.0 100.6 99.4 REMARKS DESCRIPTION CL NA Maximum Dry Density, pcf 101.1 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %19.1 Corrected Optimum Moisture Content, %NA - Mass of Tare, g Moisture Content, % ASTM D 698 Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - 21900/SF-6 -1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk MK 06/13/16 - TEST DATA Yellowish Brown Lean Clay Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) Moisture vs. Dry Density 95.0 97.0 99.0 101.0 103.0 105.0 15.0 16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 Moisture Content, % Dr y D e n s it y , p cf 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 08/05/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 35 27 15 Mass of Wet Sample & Tare, g 45.99 42.98 47.55 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 39.66 37.08 40.16 Balance ID #139/563 Mass of Tare, g 26.12 24.83 25.81 Liquid Limit Device ID #451/569 Moisture Content, %46.75 48.16 51.50 PLASTIC LIMIT Mass of Wet Sample & Tare, g 31.37 35.80 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 29.72 33.10 Mass of Tare, g 24.82 25.13 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %33.67 33.88 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 976.80 LIQUID LIMIT (LL)49 Mass of Dry Sample & Tare, g 769.60 PLASTIC LIMIT (PL)34 Mass of Tare, g 162.30 PLASTICITY INDEX (PI)15 Moisture Content, %34.12 LIQUIDITY INDEX (LI)0.01 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Red Silt with Sand 22168/SF-7 - -- A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk 46 47 48 49 50 51 52 53 54 10 100 NUMBER OF BLOWS M O IS TU R E C ON T E N T % 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 976.8 Mass of Wet Sample & Tare, g 406.30 Mass of Dry Sample & Tare, g 769.6 Mass of Dry Sample & Tare, g 323.00 Mass of Tare, g 162.3 Mass of Tare, g 91.10 Moisture Content, %34.1 Moisture Content, %35.9 TOTAL Mass of wet sample 23600.0 Mass of Wet Fine Material & Tare, g 207.60 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 17596.4 Mass of Dry Fine Material, g 152.74 % of Total Sample Passing Split Sieve 95.7 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 2.36 94.3 2.5"COARSE 0.0 100.0 #10 MEDIUM 5.30 92.4 2"GRAVEL 0.0 0.0 100.0 #20 SAND 7.69 90.9 1.5"138.8 0.8 99.2 #40 9.60 89.7 1"368.4 2.1 97.9 #60 FINE SAND 13.97 87.0 .75"463.2 2.6 97.4 #100 20.58 82.8 .5"FINE GRAVEL 673.7 3.8 96.2 #200 FINES 31.41 76.1 .375"748.4 4.3 95.7 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 2.7 Balance ID# 139/142/700 % COARSE Gravel 2.6 % FINE Sand 13.7 Sieve Shaker ID # 555 % FINE Gravel 3.1 % FINES 76.1 % COARSE Sand 1.8 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 2.7 % COARSE Gravel (Stone)2.1 % FINE Sand 13.7 % MEDIUM Gravel (Stone)2.2 % FINES (Silt-Clay)76.1 % FINE Gravel (Stone)3.3 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Page 1 of 2 MOISTURE CONTENT of FINE MATERIAL 22168/SF-7 - Red Silt with Sand FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - RI ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 08/04/16 A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By RI SOIL Fax: 770-923-8973 Date 08/04/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA Project's Specific % Passing Project's Specific Particle Size, mm A018-176 1608-05-2 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 - Great Oaks Landfill Cells 1A & 1B Bulk 22168/SF-7 - 12 " 6"3"2.5 " 2"1.5 " 1" .7 5 " .5 " .3 7 5 " .2 5 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000Grain size in millimeters % P A S S I N G TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 23600.0 17596.4 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 976.8 748.4 Mass of Mat. Retained on 3/8" sieve, g 748.4 748.4 769.6 748.4 Mass of Mat. Retained on 3/4" sieve, g 162.3 0.0 34.1 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %4.3 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)4.3 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 5905.0 5968.0 5984.0 5983.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 601.7 539.1 546.6 553.2 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 530.4 460.0 459.3 456.0 Hammer ID Number 318 Mass of Tare, g 182.1 125.2 124.5 125.6 Number of Blows per layer 25 Moisture Content, %20.5 23.6 26.1 29.4 Number of Layers 3 Wet Density, pcf 112.6 116.8 117.8 117.8 Dry Density, pcf 93.5 94.5 93.5 91.0 REMARKS DESCRIPTION ML NA Maximum Dry Density, pcf 94.5 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %23.3 Corrected Optimum Moisture Content, %NA - Mass of Tare, g Moisture Content, % ASTM D 698 Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - 22168/SF-7 A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk RI 08/04/16 - TEST DATA Red Silt with Sand Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) Moisture vs. Dry Density 89.0 91.0 93.0 95.0 97.0 99.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 28.0 29.0 30.0 Moisture Content, % Dr y D e n s it y , p cf 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 08/05/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 32 26 17 Mass of Wet Sample & Tare, g 45.45 44.17 43.39 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 40.10 38.70 38.28 Balance ID #139/563 Mass of Tare, g 25.84 24.41 25.46 Liquid Limit Device ID #451/569 Moisture Content, %37.52 38.28 39.86 PLASTIC LIMIT Mass of Wet Sample & Tare, g 34.62 35.28 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 32.89 33.34 Mass of Tare, g 26.79 26.49 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %28.36 28.32 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 1196.20 LIQUID LIMIT (LL)38 Mass of Dry Sample & Tare, g 1001.80 PLASTIC LIMIT (PL)28 Mass of Tare, g 171.80 PLASTICITY INDEX (PI)10 Moisture Content, %23.42 LIQUIDITY INDEX (LI)-0.46 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Yellowish Red Silt 22169/SF-8 - -- A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk 36 37 38 39 40 41 42 10 100 M O I S T UR E C O N T E N T % NUMBER OF BLOWS 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 1196.2 Mass of Wet Sample & Tare, g 350.70 Mass of Dry Sample & Tare, g 1001.8 Mass of Dry Sample & Tare, g 302.70 Mass of Tare, g 171.8 Mass of Tare, g 95.60 Moisture Content, %23.4 Moisture Content, %23.2 TOTAL Mass of wet sample 16300.0 Mass of Wet Fine Material & Tare, g 212.30 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 13206.8 Mass of Dry Fine Material, g 172.35 % of Total Sample Passing Split Sieve 98.2 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 0.46 98.0 2.5"COARSE 0.0 100.0 #10 MEDIUM 0.90 97.7 2"GRAVEL 0.0 100.0 #20 SAND 1.45 97.4 1.5"0.0 0.0 100.0 #40 1.77 97.2 1"93.6 0.7 99.3 #60 FINE SAND 2.29 96.9 .75"160.2 1.2 98.8 #100 3.07 96.5 .5"FINE GRAVEL 213.5 1.6 98.4 #200 FINES 4.54 95.6 .375"235.6 1.8 98.2 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 0.5 Balance ID# 139/142/700 % COARSE Gravel 1.2 % FINE Sand 1.6 Sieve Shaker ID # 555 % FINE Gravel 0.8 % FINES 95.6 % COARSE Sand 0.3 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 0.5 % COARSE Gravel (Stone)0.7 % FINE Sand 1.6 % MEDIUM Gravel (Stone)1.1 % FINES (Silt-Clay)95.6 % FINE Gravel (Stone)0.5 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Page 1 of 2 RI ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 08/04/16 A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk MOISTURE CONTENT of FINE MATERIAL 22169/SF-8 - Yellowish Red Silt FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By RI SOIL Fax: 770-923-8973 Date 08/04/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA - Great Oaks Landfill Cells 1A & 1B Bulk 22169/SF-8 - A018-176 1608-05-2 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 Project's Specific % Passing Project's Specific Particle Size, mm 12 " 6"3" 2 .5" 2" 1 .5" 1" .75 " .5" .3 75 " .25 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000 % P A S S I N G Grain size in millimeters TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 16300.0 13206.8 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 1196.2 235.6 Mass of Mat. Retained on 3/8" sieve, g 235.6 235.6 1001.8 235.6 Mass of Mat. Retained on 3/4" sieve, g 171.8 0.0 23.4 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %1.8 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)1.8 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 6002.0 6030.0 6051.0 6044.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 611.0 557.8 544.1 561.8 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 547.3 490.8 475.6 482.3 Hammer ID Number 318 Mass of Tare, g 178.2 126.3 130.0 130.1 Number of Blows per layer 25 Moisture Content, %17.3 18.4 19.8 22.6 Number of Layers 3 Wet Density, pcf 119.0 120.9 122.3 121.8 Dry Density, pcf 101.5 102.1 102.1 99.4 REMARKS DESCRIPTION ML NA Maximum Dry Density, pcf 102.2 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %19.1 Corrected Optimum Moisture Content, %NA TEST DATA Yellowish Red Silt Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) 22169/SF-8 A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk RI 08/04/16 - - Mass of Tare, g Moisture Content, % ASTM D 698Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - 98.0 100.0 102.0 104.0 106.0 108.0 16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 D r y D en s it y , pc f Moisture Content, % Moisture vs. Dry Density 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 08/05/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 35 27 15 Mass of Wet Sample & Tare, g 45.68 47.93 48.08 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 40.75 42.31 41.37 Balance ID #139/563 Mass of Tare, g 27.57 27.70 24.89 Liquid Limit Device ID #451/569 Moisture Content, %37.41 38.47 40.72 PLASTIC LIMIT Mass of Wet Sample & Tare, g 31.05 32.53 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 28.85 30.61 Mass of Tare, g 21.28 24.06 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %29.06 29.31 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 1055.50 LIQUID LIMIT (LL)39 Mass of Dry Sample & Tare, g 831.80 PLASTIC LIMIT (PL)29 Mass of Tare, g 158.40 PLASTICITY INDEX (PI)10 Moisture Content, %33.22 LIQUIDITY INDEX (LI)0.42 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk Brown Silt with Sand 22170/SF-9 - -- 36 37 38 39 40 41 42 10 100 NUMBER OF BLOWS M O IS TU R E C ON T E N T % 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 1055.5 Mass of Wet Sample & Tare, g 425.30 Mass of Dry Sample & Tare, g 831.8 Mass of Dry Sample & Tare, g 343.20 Mass of Tare, g 158.4 Mass of Tare, g 97.00 Moisture Content, %33.2 Moisture Content, %33.3 TOTAL Mass of wet sample 19500.0 Mass of Wet Fine Material & Tare, g 211.10 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 14637.5 Mass of Dry Fine Material, g 158.31 % of Total Sample Passing Split Sieve 97.8 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 0.58 97.4 2.5"COARSE 0.0 100.0 #10 MEDIUM 4.01 95.3 2"GRAVEL 0.0 100.0 #20 SAND 7.49 93.2 1.5"0.0 0.0 100.0 #40 11.02 91.0 1"160.8 1.1 98.9 #60 FINE SAND 15.94 87.9 .75"160.8 1.1 98.9 #100 21.70 84.4 .5"FINE GRAVEL 252.3 1.7 98.3 #200 FINES 30.69 78.8 .375"324.0 2.2 97.8 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 4.3 Balance ID# 139/142/700 % COARSE Gravel 1.1 % FINE Sand 12.2 Sieve Shaker ID # 555 % FINE Gravel 1.5 % FINES 78.8 % COARSE Sand 2.1 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 4.3 % COARSE Gravel (Stone)1.1 % FINE Sand 12.2 % MEDIUM Gravel (Stone)1.1 % FINES (Silt-Clay)78.8 % FINE Gravel (Stone)2.5 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Page 1 of 2 RI ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 08/04/16 A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk MOISTURE CONTENT of FINE MATERIAL 22170/SF-9 - Brown Silt with Sand FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By RI SOIL Fax: 770-923-8973 Date 08/04/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA - Great Oaks Landfill Cells 1A & 1B Bulk 22170/SF-9 - A018-176 1608-05-2 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 Project's Specific % Passing Project's Specific Particle Size, mm 12 " 6"3"2.5 " 2"1.5 " 1".7 5 " .5 " .3 7 5 " .2 5 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000Grain size in millimeters % P A S S I N G TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 19500.0 14637.5 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 1055.5 324.0 Mass of Mat. Retained on 3/8" sieve, g 324.0 324.0 831.8 324.0 Mass of Mat. Retained on 3/4" sieve, g 158.4 0.0 33.2 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %2.2 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)2.2 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 5960.0 6022.0 6046.0 6035.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 605.7 630.4 602.3 618.5 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 541.1 550.9 520.0 525.7 Hammer ID Number 318 Mass of Tare, g 183.0 178.8 176.5 183.2 Number of Blows per layer 25 Moisture Content, %18.0 21.4 24.0 27.1 Number of Layers 3 Wet Density, pcf 116.3 120.4 121.9 121.2 Dry Density, pcf 98.5 99.2 98.4 95.4 REMARKS DESCRIPTION ML NA Maximum Dry Density, pcf 99.2 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %21.5 Corrected Optimum Moisture Content, %NA TEST DATA Brown Silt with Sand Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) RI 08/04/16 -22170/SF-9 A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk - Mass of Tare, g Moisture Content, % ASTM D 698 Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - Moisture vs. Dry Density 94.0 96.0 98.0 100.0 102.0 104.0 16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 28.0 Moisture Content, % Dr y D e n s it y , p cf 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By EB SOIL Fax: 770-923-8973 Date 08/05/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info ASTM D 4318/AASHTO T 88, T 89 Standard Test Method for Liquid Limit, Plastic Limit, and Plasticity Index of Soils (Atterberg Limits) LIQUID LIMIT Number of Blows 35 27 17 Mass of Wet Sample & Tare, g 46.18 41.49 44.29 Oven ID #15/496/610 Mass of Dry Sample & Tare, g 40.21 36.05 37.82 Balance ID #139/563 Mass of Tare, g 27.41 24.86 25.42 Liquid Limit Device ID #451/569 Moisture Content, %46.64 48.61 52.18 PLASTIC LIMIT Mass of Wet Sample & Tare, g 31.87 29.55 PREPARATION PROCEDURE DRY Mass of Dry Sample & Tare, g 30.18 28.37 Mass of Tare, g 24.92 24.67 NOTE: MATERIAL PASSING NO. 40 SIEVE Moisture Content, %32.13 31.89 WAS USED FOR TEST NATURAL MOISTURE Mass of Wet Sample & Tare, g 988.00 LIQUID LIMIT (LL)49 Mass of Dry Sample & Tare, g 805.10 PLASTIC LIMIT (PL)32 Mass of Tare, g 152.70 PLASTICITY INDEX (PI)17 Moisture Content, %28.03 LIQUIDITY INDEX (LI)-0.23 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Red Silt 22171/SF-10 - -- A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk 45 46 47 48 49 50 51 52 53 54 10 100 M O I S T UR E C O N T E N T % NUMBER OF BLOWS 20 25 30 40 TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Mass of Wet Sample & Tare, g 988.0 Mass of Wet Sample & Tare, g 419.50 Mass of Dry Sample & Tare, g 805.1 Mass of Dry Sample & Tare, g 348.60 Mass of Tare, g 152.7 Mass of Tare, g 94.90 Moisture Content, %28.0 Moisture Content, %27.9 TOTAL Mass of wet sample 16700.0 Mass of Wet Fine Material & Tare, g 200.50 before splitting & tare, g Mass of Tare, g 0.0 Mass of Tare, g 0.00 TOTAL Mass of dry sample, g 13043.3 Mass of Dry Fine Material, g 156.71 % of Total Sample Passing Split Sieve 97.6 Mass of Tare, g 0.0 Mass of Tare, g 0.00 Sieve Size Sample & Tare, g % RETAINED % PASSING Cumulative % PASSING 12"COBBLES 0.0 100.0 Sieve Size Mass retained, g (of Total) 3"0.0 100.0 #4 COARSE SAND 0.75 97.1 2.5"COARSE 0.0 100.0 #10 MEDIUM 2.26 96.1 2"GRAVEL 0.0 100.0 #20 SAND 3.02 95.7 1.5"0.0 0.0 100.0 #40 3.57 95.3 1"60.5 0.5 99.5 #60 FINE SAND 4.26 94.9 .75"127.6 1.0 99.0 #100 5.12 94.4 .5"FINE GRAVEL 263.7 2.0 98.0 #200 FINES 6.67 93.4 .375"319.5 2.4 97.6 * - ASTM Definitions of Classification ** - AASHTO Definitions of Classification NOTE:3/8"(9.5 mm)Sieve used for splitting sample on fine and coarse material PARTICLE-SIZE ANALYSIS* Oven ID # 15/496/610 % COBBLES 0.0 % MEDIUM Sand 0.8 Balance ID# 139/142/700 % COARSE Gravel 1.0 % FINE Sand 1.9 Sieve Shaker ID # 555 % FINE Gravel 1.9 % FINES 93.4 % COARSE Sand 0.9 % TOTAL SAMPLE 100.0 REMARKS PARTICLE-SIZE ANALYSIS** % COBBLES 0.0 % COARSE Sand 0.8 % COARSE Gravel (Stone)0.5 % FINE Sand 1.9 % MEDIUM Gravel (Stone)2.0 % FINES (Silt-Clay)93.4 % FINE Gravel (Stone)1.4 % TOTAL SAMPLE 100.0 DESCRIPTION USCS (ASTM D2487; D2488)ML AASHTO (M 145)NA Page 1 of 2 RI ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311; Particle Size Analysis (Split Sieve) - 08/04/16 A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk MOISTURE CONTENT of FINE MATERIAL 22171/SF-10 - Red Silt FINE MATERIALCOARSE MATERIAL SIEVE ANALYSIS* MOISTURE CONTENT of TOTAL SAMPLE - TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By RI SOIL Fax: 770-923-8973 Date 08/04/16 TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info Particle-Size Analysis Coarse Fine Coarse Medium Fine Silt or Clay Boulders Cobbles Gravel Sand Fines D10 NA mm D30 NA mm D60 NA mm Cu NA Cc NA NA Page 2 of 2 NA - Great Oaks Landfill Cells 1A & 1B Bulk 22171/SF-10 - A018-176 1608-05-2 - Standard Test Method for Particle-Size Analysis of Soils and Aggregates (Split Sieve) ASTM D 6913 (D 422 old version), D 1140, C 136, C 117 / AASHTO T 88, T 27, T 11, T 311 Project's Specific % Passing Project's Specific Particle Size, mm 12 " 6"3" 2 .5" 2" 1 .5" 1" .75 " .5" .3 75 " .25 " #4 #8 #1 0 #1 6 #2 0 #3 0 #4 0 #5 0 #6 0 #1 0 0 #1 4 0 #2 0 0 0 10 20 30 40 50 60 70 80 90 100 0.0010.010.11101001000 % P A S S I N G Grain size in millimeters TIMELY 1874 Forge Street Tucker, GA 30084 ENGINEERING Phone: 770-938-8233 Tested By SOIL Fax: 770-923-8973 Date TESTS, LLC Web: www.test-llc.com Checked By Client Pr. #Lab. PR. # Pr. Name S. Type Sample ID Depth/Elev. Location Add. Info wet dry MOISTURE CONTENT Mass of Soil before sieving, g 16700.0 13043.3 Coarse + Fine Fraction Coarse Fraction Mass of Mat. Retained on No. 4 sieve, g 988.0 319.5 Mass of Mat. Retained on 3/8" sieve, g 319.5 319.5 805.1 319.5 Mass of Mat. Retained on 3/4" sieve, g 152.7 0.0 28.0 0.0 Material Retained on No. 4 Sieve, % Material Retained on 3/8" Sieve, %2.4 Material Retained on 3/4" Sieve, %Procedure B Total, %(oversized)2.4 Points 1 2 3 4 5 Mold ID Number 314 Mass of Mold and Soil, g 5915.0 5968.0 5998.0 5993.0 Mass of Mold, g 4204.0 Mass of Wet Sample & Tare, g 557.6 528.4 524.5 524.3 Volume of Mold, ft3 0.0333 Mass of Dry Sample & Tare, g 486.6 456.4 443.9 438.1 Hammer ID Number 318 Mass of Tare, g 124.7 128.6 116.6 127.7 Number of Blows per layer 25 Moisture Content, %19.6 22.0 24.6 27.8 Number of Layers 3 Wet Density, pcf 113.3 116.8 118.8 118.4 Dry Density, pcf 94.7 95.8 95.3 92.7 REMARKS DESCRIPTION ML NA Maximum Dry Density, pcf 95.8 Corrected Maximum Dry Density, pcf NA Optimum Moisture Content, %22.7 Corrected Optimum Moisture Content, %NA TEST DATA Red Silt Method A: Material retained on No. 4 Sieve< 25% Method B: Material retained on 3/8" Sieve < 25% Method C: Material retained on 3/4" Sieve < 30% AASHTO M145 USCS (ASTM D2487; D2488) 22171/SF-10 A018-176 1608-05-2 Great Oaks Landfill Cells 1A & 1B Bulk RI 08/04/16 - - Mass of Tare, g Moisture Content, % ASTM D 698Standard Test Method for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3 (600kN-m/m3)) DETERMINATION OF TEST PROCEDURE Mass of Wet Sample & Tare, g Mass of Dry Sample & Tare, g - 90.0 92.0 94.0 96.0 98.0 100.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 28.0 D r y D en s it y , pc f Moisture Content, % Moisture vs. Dry Density 100% Saturation Curves: (Gs=2.6); (Gs=2.7); (Gs=2.8) Appendix A-2 Field Density Testing Appendix B Subgrade Certifications SCS Engineers, P.C. Environmental Consultants 2520 Whitehall Park Drive 704 504-3107 and Contractors Suite 450 FAX 704 504-3174 Charlotte, NC 28273-3557 www.scsengineers.com Offices Nationwide File No. 02215305.02 September 9, 2016 Ms. Christine Ritter North Carolina Department of Environmental Quality Division of Waste Management 1646 Mail Service Center Raleigh, NC 27699-1601 Re: Report of Subgrade Inspection and Vertical Separation Certification Phase I, Cell 1A, Southwest and Southeast Slopes Great Oak Landfill Randleman, North Carolina Dear Ms. Ritter: SCS Engineers, PC (SCS), on behalf of Waste Management, Inc., is pleased to present the following findings of the subgrade inspection performed at the Great Oak Landfill (Landfill) on July 26, August 16, and September 8, 2016. Mr. Michael Cobb, a licensed geologist, performed the inspections in accordance with the Landfill’s Permit to Construct, No. 7607-MSWLF-2015, Part I, Condition 7. The following document, prepared by S&ME, Inc., of Charlotte, NC, and dated February 2015, was reviewed by SCS: Design Hydrogeologic Study, Great Oak Landfill – Phase 1. This document contains information on the geology and hydrogeology of the Facility. This Report of Subgrade Inspection and Vertical Separation Certification is limited to the 5.8 acres of the western portion of Cell 1A, as depicted in the attached Figure 1. Forthcoming reports will cover the remainder of Cell 1A and the entirety of Cell 1B. Subgrade Inspection The following is a summary of the geologic field observations from the July 26, 2016 site inspection:  Contractor excavation has revealed rock formations along southwestern slope of Cell 1A.  Contractor has completed some blasting in this area.  Cambrian Age slate (meta-mudstone) was observed to overlay quartzite.  Large quartz veins were observed near the top of the slope, and remnant pieces of quartz, varying in size from pebbles an inch in length to boulders several feet in length, were visible in areas in which blasting has occurred.  Material observed in areas in which no blasting had occurred included residuum and saprolite consistent with the Uwharrie Formation of the Carolina Slate Belt.  Groundwater was not observed in the subject cell. Ms. Christine Ritter September 9, 2016 Page 2 The geology of the area of the cell inspected on July 26, 2016, appears to be consistent with the observations and geologic evaluations documented in the S&ME report cited above. During the August 16, 2016, site inspection blasting had been completed on the 5.8 acres covered by this report. The only material observed in the subject area was residuum of the slate and quartzite formations overlying quartzite formations. The contractor was in the process of clearing the residuum in preparation of placing structural fill. During the September 8, 2016, site inspection, the structural fill was largely in place, with the contractor conducting fine grading the toe of the slope. Minor amounts of residuum of the quartzite formation and quartz veins were observed; such material was flagged for the contractor to remove prior to liner being placed. No rock outcrops jutting above the existing grade established by the contractor were visible during the August 16 or September 8 site inspections. It is SCS’s opinion that the remaining geologic features in this portion of Cell 1A (that is, the bedrock remaining after blasting conducted by the contractor), will have no impact on the construction or operation of the Facility beyond the vertical separation requirements discussed below. Vertical Separation Certification Per 15A NCAC 13B.1624(b)(4), for municipal solid waste landfills, the bottom elevation of the base liner system must have a minimum vertical separation of four (4) feet above bedrock. Upon completion of blasting and clearing by the contractor, SCS coordinated with Charlie Morgan Surveying, PLLC (Morgan), to survey points along the exposed bedrock in the 5.8 acres of Cell 1A covered by this report. The data provided by Morgan was used to develop an exposed bedrock map, attached as Figure 1. This map shows that exposed bedrock was present in approximately 1.44 acres of the portion of Cell 1A covered by this report. Upon completion of structural fill placement, Morgan surveyed this same set of points to establish the base grade of this portion of Cell 1A. The elevations from the surveying were used to prepare Table 1, which shows the amount of separation at each surveyed point. Ms. Christine Ritter September 9, 2016 Page 3 Table 1 – Vertical Separation Point Northing Easting Subgrade Elevation Top of Rock Elevation Separation PT2008 727077.2252 1775900.948 658.982 654.841 4.141 PT2009 727079.5828 1775857.983 665.037 660.412 4.625 PT2010 727127.8895 1775869.856 668.039 663.401 4.638 PT2011 727170.5857 1775842.072 677.196 672.467 4.729 PT2028 727428.2088 1776070.87 683.509 679.406 4.103 PT2029 727391.0842 1776036.852 682.9 678.842 4.058 PT2030 727352.6718 1776007.858 680.93 676.949 4.131 PT2031 727313.2466 1775976.539 678.675 674.521 4.154 PT2032 727291.4425 1775958.177 677.992 675.239 4.921 PT2033 727265.4457 1775936.488 676.977 672.8 4.177 PT2034 727235.7463 1775911.052 676.124 671.17 4.954 PT2035 727208.3209 1775890.53 674.571 669.03 5.541 PT2036 727180.0545 1775870.547 673.097 669 4.097 PT2037 727151.7807 1775900.642 666.027 661.795 4.232 PT2038 727175.8715 1775922.926 665.339 658.81 6.529 PT2039 727198.9901 1775945.295 664.624 660.2 4.424 PT2040 727221.9835 1775966.871 664.918 660.881 4.037 PT2041 727246.4484 1775991.847 664.581 660.375 4.206 PT2042 727280.3011 1776021.445 663.363 658.849 4.514 PT2043 727317.5493 1776052.295 661.935 658.07 4.319 PT2044 727352.5359 1776084.226 662.588 657.641 4.947 PT2050 727189.5857 1776025.882 654.008 649.937 4.071 PT2053 727104.9392 1775902.023 661.888 657.875 4.013 PT2439 727062.9534 1775786.558 677.904 673.34 4.564 As shown above, the points of exposed bedrock within the 5.8 acres of Cell 1A covered by this report show a minimum vertical separation of four (4) feet. Due to changes in the proposed base grade in the northwest corner of Cell 1A necessitated by the presence of a guy wire support belonging to Duke Energy in this area, an additional four (4) to eight (8) feet of structural fill was added. As such, the minimum vertical separation requirement of four (4) feet is satisfied in this area. L O D L O D L O D L O D L O D LO D LOD LOD LOD LOD LOD LO D LO D L O D L O D LOD LOD LOD LOD LOD LOD LOD L O D LOD LOD L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D LOD LOD L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D L O D LOD LOD LOD LODLODLODLODLODLODLODLOD LODLODLODLODLODLODLODLODLODLODLODLODLODLODLOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LOD LO D LOD LOD LOD LOD LO D L O D L O D L O D LOD L O D L O D 6 1 0 6 2 0 63 0 64 0 65 0 66 0 670 680 690 6 3 0 6 4 0 700 6 5 0 6 6 0 6 7 0 6 8 0 6 2 0 6 3 0 6 4 0 6 5 0 660 670 20082009 2010 2011 2 0 2 8 2 0 2 9 2 0 3 0 2 0 3 1 2 0 3 2 2033203420352036203720382039 2 0 4 0 2 0 4 1 2 0 4 2 2 0 4 3 2 0 4 4 2 0 5 0 20532439 C E L L 1 A C E L L 1 B SCS ENGINEERS, PC 2520 WHITEHALL PARK DRIVE, SUITE 450 CHARLOTTE, NORTH CAROLINA 28273 PHONE: (704) 504-3107 FAX: (704) 504-3174 1 1 SUBGRADE/BASEGRADE POINT IDENTIFICATION PLAN GREAT OAK LANDFILL WASTE MANAGEMENT OF CAROLINAS, INC.CELL 1A & 1B P O I N T I D E N T I F I E R L I M I T S O F C E L L 1 A L I M I T S O F C E L L 1 B L I M I T S O F D I S T U R B A N C E E R O S I O N C O N T R O L S T R U C T U R E S A P P R O X I M A T E L I M I T S O F B E D R O C K L I M I T S O F C E R T I F I E D B A S E G R A D E 4 0 S C A L E I N F E E T 2 0 0 4 0 L O D L O D L O D 2 0 4 1 Appendix C HDPE Geomembrane (Primary, Secondary, and Tertiary) Appendix C-1 MQC Certifications Cust:Waste Management-South Doc#: 33059 PO#: 1000032943 Great Oak LF Dest: Randleman, NC 112 rolls 60HD micro roll # width length area check weld rod qty (if ordered)wgt resin lot # ft. ft. ft².lbs. G16D002328 23 540 12,420 60HD micro 112tot 1 3958 sqs+ 2ft fric 16G1129 G16D002329 23 540 12,420 60HD micro 112tot 2 3940 16G1129 G16D002330 23 540 12,420 60HD micro 112tot 3 3946 16G1129 G16D002331 23 540 12,420 60HD micro 112tot 4 3970 16G1129 G16D002332 23 540 12,420 60HD micro 112tot 5 3974 16G1129 G16D002333 23 540 12,420 60HD micro 112tot 6 3984 16G1129 G16D002334 23 540 12,420 60HD micro 112tot 7 3986 16G1129 G16D002335 23 540 12,420 60HD micro 112tot 8 3976 HGG710580 G16D002336 23 540 12,420 60HD micro 112tot 9 3972 sqs HGG710580 G16D002337 23 540 12,420 60HD micro 112tot 10 3970 HGG710580 G16D002338 23 540 12,420 60HD micro 112tot 11 3988 HGG710580 G16D002339 23 540 12,420 60HD micro 112tot 12 3990 HGG710580 G16D002340 23 540 12,420 60HD micro 112tot 13 3988 HGG710580 G16D002341 23 540 12,420 60HD micro 112tot 14 3986 HGG710580 G16D002342 23 540 12,420 60HD micro 112tot 15 3990 HGG710580 G16D002343 23 540 12,420 60HD micro 112tot 16 3988 HGF820370 G16D002344 23 540 12,420 60HD micro 112tot 17 3986 sqs HGF820370 G16D002345 23 540 12,420 60HD micro 112tot 18 3990 HGF820370 G16D002346 23 540 12,420 60HD micro 112tot 19 3980 HGF820370 G16D002347 23 540 12,420 60HD micro 112tot 20 3976 HGF820370 G16D002348 23 540 12,420 60HD micro 112tot 21 3974 HGF820370 G16D002349 23 540 12,420 60HD micro 112tot 22 3979 HGF820370 G16D002350 23 540 12,420 60HD micro 112tot 23 3973 HGF820370 G16D002351 23 540 12,420 60HD micro 112tot 24 3976 HGF820370 G16D002352 23 540 12,420 60HD micro 112tot 25 3984 sqs HGF820370 G16D002353 23 540 12,420 60HD micro 112tot 26 3988 HGF820370 G16D002354 23 540 12,420 60HD micro 112tot 27 3986 HGF820370 G16D002355 23 540 12,420 60HD micro 112tot 28 3988 HGF820370 G16D002356 23 540 12,420 60HD micro 112tot 29 3986 HGF820370 G16D002357 23 540 12,420 60HD micro 112tot 30 3988 HGF820370 English cut 1ft from end of rolls 1 ( +2ft fric ), 9, 17, 25, 33, 41, 49, 57, 65, 73, 81, 89, 97, 105 100k/lot sqs + ONE 2ft fric TRITX U2 WM Great Oak LF, Randleman, NC doc 33059 list (112m).xls Page 1 60 HD MICROSPIKE16G1129G16D002328ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 196 .946 .22 2.5 10 in Category 1 136 ONGOING 135 19534 24 Asperity ASTM D7466 Top 24 mil Grade:DF3721A 2987 2253 3654 3258 18 17 425 587 66 64282.7 604.9 Smooth Edge ASTM D1004 Average Tear lbs.60 8/5/2016 psi psi TD ppiN/mm 179 ppi 31 MD N/mm 21938 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N293.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.61 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:61 AVE:59 1.43 1.56 1.50 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.81 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 34 milmm.86 60 HD MICROSPIKE16G1129G16D002329ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 196 .946 .22 2.6 10 in Category 1 138 ONGOING 144 20035 25 Asperity ASTM D7466 Top 25 mil Grade:DF3721A 2460 2402 3712 3338 18 16 523 611 70 69305.4 615.6 Smooth Edge ASTM D1004 Average Tear lbs.56 8/5/2016 psi psi TD ppiN/mm 148 ppi 26 MD N/mm 22339 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N310.3 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:63 AVE:59 1.39 1.59 1.49 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.81 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 35 milmm.89 60 HD MICROSPIKE16G1129G16D002330ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 196 .946 .22 2.6 10 in Category 1 138 ONGOING 144 20035 25 Asperity ASTM D7466 Top 25 mil Grade:DF3721A 2460 2402 3712 3338 18 16 523 611 70 69305.4 615.6 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 148 ppi 26 MD N/mm 22339 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N310.3 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:61 AVE:59 1.41 1.56 1.49 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.81 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 34 milmm.86 60 HD MICROSPIKE16G1129G16D002331ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 196 .946 .22 2.6 10 in Category 1 138 ONGOING 144 20035 25 Asperity ASTM D7466 Top 25 mil Grade:DF3721A 2460 2402 3712 3338 18 16 523 611 70 69305.4 615.6 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 148 ppi 26 MD N/mm 22339 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N310.3 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:63 AVE:59 1.38 1.61 1.51 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.81 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 33 milmm.84 60 HD MICROSPIKE16G1129G16D002332ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 196 .946 .22 2.6 10 in Category 1 138 ONGOING 144 20035 25 Asperity ASTM D7466 Top 24 mil Grade:DF3721A 2460 2402 3712 3338 18 16 523 611 70 69305.4 615.6 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 148 ppi 26 MD N/mm 22339 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N310.3 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.61 OA#:33059 Quality Control Department Maria Coffey MIN:53 MAX:64 AVE:59 1.34 1.63 1.51 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.81 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 34 milmm.86 60 HD MICROSPIKE16G1129G16D002333ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 196 .945 .22 2.6 10 in Category 1 137 ONGOING 156 20335 27 Asperity ASTM D7466 Top 31 mil Grade:DF3721A 2784 2602 3375 3375 14 13 486 584 69 69307.2 608.7 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 167 ppi 29 MD N/mm 20335 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N307.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:53 MAX:63 AVE:58 1.35 1.60 1.48 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.81 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 33 milmm.84 60 HD MICROSPIKE16G1129G16D002334ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 196 .945 .22 2.6 10 in Category 1 137 ONGOING 156 20335 27 Asperity ASTM D7466 Top 25 mil Grade:DF3721A 2784 2602 3375 3375 14 13 486 584 69 69307.2 608.7 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 167 ppi 29 MD N/mm 20335 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N307.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:64 AVE:59 1.37 1.63 1.49 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.81 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 33 milmm.84 60 HD MICROSPIKEHGG710580G16D002335ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .945 .28 2.6 10 in Category 1 137 ONGOING 156 20335 27 Asperity ASTM D7466 Top 26 mil Grade:K307 2784 2602 3375 3375 14 13 486 584 69 69307.2 608.7 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 167 ppi 29 MD N/mm 20335 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N307.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.66 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:63 AVE:58 1.37 1.60 1.48 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.62 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 32 milmm.81 60 HD MICROSPIKEHGG710580G16D002336ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .945 .28 2.6 10 in Category 1 137 ONGOING 156 20335 27 Asperity ASTM D7466 Top 28 mil Grade:K307 2784 2602 3375 3375 14 13 486 584 69 69307.2 608.7 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 167 ppi 29 MD N/mm 20335 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N307.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:65 AVE:59 1.37 1.65 1.50 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.62 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 33 milmm.84 60 HD MICROSPIKEHGG710580G16D002337ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .28 2.4 10 in Category 1 129 ONGOING 155 16228 27 Asperity ASTM D7466 Top 25 mil Grade:K307 2939 2582 3365 2703 17 15 431 501 56 49218.0 574.9 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 176 ppi 31 MD N/mm 20235 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:53 MAX:63 AVE:59 1.35 1.60 1.49 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.62 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 32 milmm.81 60 HD MICROSPIKEHGG710580G16D002338ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .28 2.4 10 in Category 1 129 ONGOING 155 16228 27 Asperity ASTM D7466 Top 25 mil Grade:K307 2939 2582 3365 2703 17 15 431 501 56 49218.0 574.9 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 176 ppi 31 MD N/mm 20235 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:51 MAX:63 AVE:58 1.30 1.60 1.48 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.62 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 32 milmm.81 60 HD MICROSPIKEHGG710580G16D002339ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .28 2.4 10 in Category 1 129 ONGOING 155 16228 27 Asperity ASTM D7466 Top 25 mil Grade:K307 2939 2582 3365 2703 17 15 431 501 56 49218.0 574.9 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 176 ppi 31 MD N/mm 20235 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:63 AVE:59 1.40 1.60 1.49 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.62 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 37 milmm.94 60 HD MICROSPIKEHGG710580G16D002340ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .28 2.4 10 in Category 1 129 ONGOING 155 16228 27 Asperity ASTM D7466 Top 25 mil Grade:K307 2939 2582 3365 2703 17 15 431 501 56 49218.0 574.9 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 176 ppi 31 MD N/mm 20235 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:63 AVE:60 1.42 1.59 1.51 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.62 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 36 milmm.91 60 HD MICROSPIKEHGG710580G16D002341ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .28 2.6 10 in Category 1 135 ONGOING 150 20035 26 Asperity ASTM D7466 Top 25 mil Grade:K307 2602 2495 3712 3332 20 15 509 596 68 65288.4 601.7 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 156 ppi 27 MD N/mm 22339 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N302.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:63 AVE:59 1.41 1.60 1.50 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.62 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 35 milmm.89 60 HD MICROSPIKEHGG710580G16D002342ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .28 2.6 10 in Category 1 135 ONGOING 150 20035 26 Asperity ASTM D7466 Top 25 mil Grade:K307 2602 2495 3712 3332 20 15 509 596 68 65288.4 601.7 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 156 ppi 27 MD N/mm 22339 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N302.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:57 MAX:63 AVE:60 1.46 1.60 1.52 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.62 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 36 milmm.91 60 HD MICROSPIKEHGF821370G16D002343ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.6 10 in Category 1 135 ONGOING 150 20035 26 Asperity ASTM D7466 Top 27 mil Grade:K307 2602 2495 3712 3332 20 15 509 596 68 65288.4 601.7 Smooth Edge ASTM D1004 Average Tear lbs.56 8/6/2016 psi psi TD ppiN/mm 156 ppi 27 MD N/mm 22339 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N302.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:57 MAX:63 AVE:59 1.44 1.59 1.50 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 38 milmm.97 60 HD MICROSPIKEHGF821370G16D002344ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.6 10 in Category 1 135 ONGOING 150 20035 26 Asperity ASTM D7466 Top 26 mil Grade:K307 2602 2495 3712 3332 20 15 509 596 68 65288.4 601.7 Smooth Edge ASTM D1004 Average Tear lbs.56 8/7/2016 psi psi TD ppiN/mm 156 ppi 27 MD N/mm 22339 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N302.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.66 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:64 AVE:60 1.43 1.62 1.52 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 35 milmm.89 60 HD MICROSPIKEHGF821370G16D002345ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .946 .20 2.6 10 in Category 1 129 ONGOING 141 21037 25 Asperity ASTM D7466 Top 24 mil Grade:K307 2578 2358 3646 3507 19 16 503 618 72 68300.6 574.9 Smooth Edge ASTM D1004 Average Tear lbs.79 8/7/2016 psi psi TD ppiN/mm 155 ppi 27 MD N/mm 21938 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N321.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.61 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:63 AVE:59 1.39 1.60 1.49 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 37 milmm.94 60 HD MICROSPIKEHGF821370G16D002346ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .946 .20 2.6 10 in Category 1 129 ONGOING 141 21037 25 Asperity ASTM D7466 Top 24 mil Grade:K307 2578 2358 3646 3507 19 16 503 618 72 68300.6 574.9 Smooth Edge ASTM D1004 Average Tear lbs.79 8/7/2016 psi psi TD ppiN/mm 155 ppi 27 MD N/mm 21938 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N321.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.61 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:62 AVE:58 1.40 1.57 1.48 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 36 milmm.91 60 HD MICROSPIKEHGF821370G16D002347ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .946 .20 2.6 10 in Category 1 129 ONGOING 141 21037 25 Asperity ASTM D7466 Top 25 mil Grade:K307 2578 2358 3646 3507 19 16 503 618 72 68300.6 574.9 Smooth Edge ASTM D1004 Average Tear lbs.79 8/7/2016 psi psi TD ppiN/mm 155 ppi 27 MD N/mm 21938 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N321.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:59 MAX:64 AVE:62 1.49 1.62 1.57 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 32 milmm.81 60 HD MICROSPIKEHGF821370G16D002348ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .946 .20 2.6 10 in Category 1 129 ONGOING 141 21037 25 Asperity ASTM D7466 Top 27 mil Grade:K307 2578 2358 3646 3507 19 16 503 618 72 68300.6 574.9 Smooth Edge ASTM D1004 Average Tear lbs.79 8/7/2016 psi psi TD ppiN/mm 155 ppi 27 MD N/mm 21938 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N321.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:67 AVE:61 1.41 1.70 1.54 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 32 milmm.81 60 HD MICROSPIKEHGF821370G16D002349ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.4 10 in Category 1 135 ONGOING 145 20436 25 Asperity ASTM D7466 Top 26 mil Grade:K307 2628 2413 3358 3403 16 14 478 628 51 54240.2 601.8 Smooth Edge ASTM D1004 Average Tear lbs.51 8/7/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 20135 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N226.8 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.66 OA#:33059 Quality Control Department Maria Coffey MIN:58 MAX:64 AVE:61 1.47 1.64 1.54 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 34 milmm.86 60 HD MICROSPIKEHGF821370G16D002350ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.4 10 in Category 1 135 ONGOING 145 20436 25 Asperity ASTM D7466 Top 25 mil Grade:K307 2628 2413 3358 3403 16 14 478 628 51 54240.2 601.8 Smooth Edge ASTM D1004 Average Tear lbs.51 8/7/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 20135 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N226.8 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:67 AVE:60 1.39 1.70 1.52 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 32 milmm.81 60 HD MICROSPIKEHGF821370G16D002351ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.4 10 in Category 1 135 ONGOING 145 20436 25 Asperity ASTM D7466 Top 25 mil Grade:K307 2628 2413 3358 3403 16 14 478 628 51 54240.2 601.8 Smooth Edge ASTM D1004 Average Tear lbs.51 8/7/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 20135 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N226.8 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:57 MAX:65 AVE:60 1.44 1.64 1.52 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 33 milmm.84 60 HD MICROSPIKEHGF821370G16D002352ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.4 10 in Category 1 135 ONGOING 145 20436 25 Asperity ASTM D7466 Top 26 mil Grade:K307 2628 2413 3358 3403 16 14 478 628 51 54240.2 601.8 Smooth Edge ASTM D1004 Average Tear lbs.51 8/7/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 20135 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N226.8 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.66 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:67 AVE:60 1.43 1.69 1.53 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 32 milmm.81 60 HD MICROSPIKEHGF821370G16D002353ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.4 10 in Category 1 134 ONGOING 140 17030 24 Asperity ASTM D7466 Top 24 mil Grade:K307 2489 2326 3305 2841 15 15 488 546 70 62274.9 595.9 Smooth Edge ASTM D1004 Average Tear lbs.58 8/7/2016 psi psi TD ppiN/mm 149 ppi 26 MD N/mm 19835 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.61 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:61 AVE:58 1.41 1.56 1.48 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 32 milmm.81 60 HD MICROSPIKEHGF821370G16D002354ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.4 10 in Category 1 134 ONGOING 140 17030 24 Asperity ASTM D7466 Top 25 mil Grade:K307 2489 2326 3305 2841 15 15 488 546 70 62274.9 595.9 Smooth Edge ASTM D1004 Average Tear lbs.58 8/7/2016 psi psi TD ppiN/mm 149 ppi 26 MD N/mm 19835 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:67 AVE:61 1.43 1.69 1.55 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 34 milmm.86 60 HD MICROSPIKEHGF821370G16D002355ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.4 10 in Category 1 134 ONGOING 140 17030 24 Asperity ASTM D7466 Top 23 mil Grade:K307 2489 2326 3305 2841 15 15 488 546 70 62274.9 595.9 Smooth Edge ASTM D1004 Average Tear lbs.58 8/7/2016 psi psi TD ppiN/mm 149 ppi 26 MD N/mm 19835 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.58 OA#:33059 Quality Control Department Maria Coffey MIN:58 MAX:67 AVE:62 1.46 1.71 1.56 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 34 milmm.86 60 HD MICROSPIKEHGF821370G16D002356ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.4 10 in Category 1 134 ONGOING 140 17030 24 Asperity ASTM D7466 Top 25 mil Grade:K307 2489 2326 3305 2841 15 15 488 546 70 62274.9 595.9 Smooth Edge ASTM D1004 Average Tear lbs.58 8/7/2016 psi psi TD ppiN/mm 149 ppi 26 MD N/mm 19835 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:58 MAX:67 AVE:62 1.47 1.70 1.56 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 36 milmm.91 60 HD MICROSPIKEHGF821370G16D002357ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 134 ONGOING 159 21437 28 Asperity ASTM D7466 Top 33 mil Grade:K307 2840 2647 3600 3566 15 14 482 611 70 62274.9 595.9 Smooth Edge ASTM D1004 Average Tear lbs.58 8/7/2016 psi psi TD ppiN/mm 170 ppi 30 MD N/mm 21638 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.84 OA#:33059 Quality Control Department Maria Coffey MIN:57 MAX:69 AVE:61 1.44 1.75 1.55 mm mm mm Dimensional Stability ASTM D1204 (Modified)Average Dimensional Change %-0.56 ESCR ASTM D1693 Minimum Hrs w/o Failures 1500 Hrs.CERTIFIED Bottom 24 milmm.61 Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710580 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.28 g/10mi HLMI Flow Rate ASTM D1238 23 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 26 pel/g Production Date 07/17/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 07/19/2016 Delivery #: 89296474 Page 1 of 1 PO #: 010540 Weight: 186000 LB Ship Date: 07/19/2016 Package: BULK Mode: Hopper Car Car #: PSPX002352 Seal No: 50381 Shipped To: Certificate of Analysis June 17, 2015 Grant Palmer Agru America 500 Garrison Road Georgetown, SC 29440 Dear Grant: This letter is to report the final results of oven-aging and UV-aging tests (according to GRI-GM13 and GRI-GM17) on Agru America black sheet samples that you provided to us recently. These tests were performed by CPChem’s Materials Evaluation Laboratory in Bartlesville, OK. The tests were completed June 2015. The GRI-GM13 (HDPE) and GRI-GM17 (LLDPE) durability tests were done according to the following procedures. Test Exposure Method HP-OIT 150 °C, 500 psi oxygen D5885 Oven Aging 90 days, 85 °C D5721 UV Aging 1600 UV hrs (Conditions were 20 hours UVA-340 at 75 °C followed by 4 hrs dark with condensation at 60 °C. Irradiance was 0.72 W/m2 at 340 nm.) D7238 Oven-Aging Results Sample Initial HP- OIT (min) HP-OIT Value after Oven Aging 90 Days (min) % HP-OIT Retained after Oven Aging 90 Days GRI-GM13 and GRI-GM17% Retained Requirement (Oven Aging 90 Days) 60 mil HDPE Roll # G14F514045 from Marlex® K307 Polyethylene Lot # H71-4-1337 1066 883 83 80 40 mil LLDPE Roll # G14C243027 from Marlex® 7104 Polyethylene Lot # CEC810320 512 422 82 60 Yingying Lu, Ph.D., Geomembrane Technical Service & Applications Development Highways 60 & 123, Bartlesville Research and Technology Center, Room 149 PTC Bartlesville, OK 74003 918-977-6894 luyy@cpchem.com Fax: 918-977-7599  www.cpchem.com YL 06/17/15 Page 2 UV-Aging Results Sample Initial HP- OIT (min) HP-OIT Value after UV Aging (min) % HP-OIT Retained GRI-GM13 and GRI- GM17 % Retained Requirement 60 mil HDPE Roll # G14F514045 from Marlex® K307 Polyethylene Lot # H71-4-1337 1066 930 87 50 40 mil LLDPE Roll # G14C243027 from Marlex® 7104 Polyethylene Lot # CEC810320 512 351 69 35 According to these test results, the durability requirements are met. If you have any questions, please call me at 918-977-6894. Sincerely, Yingying Lu, Ph. D. Polyethylene Technical Service and Applications Development Any technical advice, recommendations, results, or analysis ("Information") contained herein, including, without limitation, Information as it may relate to the selection of a specific product ("Product") for your use and application, is given without warranty or guarantee and is accepted at your sole risk. It is imperative that you test the Information (and Product, if applicable) to determine to your own satisfaction whether the Information (and Product, if applicable) are suitable for your intended use and application. You expressly assume, and release Chevron Phillips Chemical Company, from all risk and liability, whether based in contract, tort or otherwise, in connection with the use of, or results obtained from, such Information (and Product, if applicable). _________________________________________________________________________________________________________________ 1140 Route 22 East, Suite 109 Bridgewater, NJ 08807 908.725.3133 908.725.9677 Fax June 29, 2016 Mr. Grant Palmer Agru America, Inc. 500 Garrison Rd Georgetown, SC 29440 ORDER CONFIRMATION Customer P.O. Number 010553 Product Type MDPE Railcar Number CHVX 890193 Lot Number HGF820370 Ship Date 6/28/2016 Product Weight 174,100 lbs PROPERTY RESULTS ASTM TEST METHOD HLMI (190/21.6) 20 g/10 min D – 1238 Density 0.938 g/cm3 D – 1505 Sincerely, Stephen Dazzo TRI / Environmental, Inc. A Texas Research International Company GEOMEMBRANE TEST RESULTS TRI Client: Agru America Project: Geomembrane Testing Material:Agru 60 mil Smooth HDPE Geomembrane Sample Identification: Formosa - HDPE , Resin DF3721A TRI Log #: E2339-36-07 April 19, 2010 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 UV Resistance (GRI GM 13) The resistance to degradation due to exposure to ultraviolet light and moisture was determined in accordance with GRI-GM11, Accelerated Weathering of Geomembranes Using a Fluorescent UVA Device. This standard covers the basic principles for using the QUV apparatus to accelerate the weathering of geomembranes using UVA bulbs and condensation. To comply with Specification GRI GM13, the sample was exposed to 1600 hours of UV exposure composed of 80 cycles of UA at 75 C for 20 hours followed by condensation at 60 C for 4 hours. The High Pressure Oxidative Induction Time (HPOIT) was evaluated before and after the exposure and results were as follows. PERCENT RETAINED HPOIT (minutes) - Baseline 1201 1201 HPOIT (minutes) - After QUV Aging 1010 1010 84 Note: No surface cracking was observed. Oven Aging (ASTM D 5721) The geomembrane was exposed to 90 days of elevated temperature exposure in an air oven maintained at 85°C ± 0.5°C in accordance with ASTM D 5721-95, Standard Practice for Air-Oven Aging of Polyolefin Geomembranes. Oxidative Induction Time (OIT) was tested for after exposure and compared to values generated for unexposed material. The results are provided below. PERCENT HPOIT (minutes) - Baseline 1201 1201 HPOIT (minutes) - After QUV Aging 1114 1114 93 Note: No surface cracking was observed. MD Machine Direction TD Transverse Direction NA Not Available The testing is based upon accepted industry practice as well as the test method listed. Test results reported herein do not apply to samples other than those tested. TRI neither accepts responsibility for nor makes claim as to the final use and purpose of the material. TRI observes and maintains client confidentiality. TRI limits reproduction of this report, except in full, without prior approval of TRI. page 3 of 5 GeosyntheticTesting.com 9063 Bee Caves Road / Austin, TX 78733 / 512 263 2101 / fax: 512 263 2558 Cust:Waste Management-South Doc#: 33059 PO#: 1000032943 Great Oak LF Dest: Randleman, NC 112 rolls 60HD micro roll # width length area check weld rod qty (if ordered) wgt resin lot # ft. ft. ft². lbs. English cut 1ft from end of rolls 1 ( +2ft fric ), 9, 17, 25, 33, 41, 49, 57, 65, 73, 81, 89, 97, 105 100k/lot sqs + ONE 2ft fric TRITX U2 G16B003025 23 540 12,420 60HD micro 112tot 31 3800 16G1122 G16B003028 23 540 12,420 60HD micro 112tot 32 3784 16G1122 G16B003029 23 540 12,420 60HD micro 112tot 33 3786 sqs 16G1122 G16B003030 23 540 12,420 60HD micro 112tot 34 3782 16G1121 G16B003031 23 540 12,420 60HD micro 112tot 35 3790 16G1121 G16B003032 23 540 12,420 60HD micro 112tot 36 3782 16G1121 G16B003033 23 540 12,420 60HD micro 112tot 37 3782 16G1121 G16B003034 23 540 12,420 60HD micro 112tot 38 3784 16G1121 G16B003035 23 540 12,420 60HD micro 112tot 39 3782 16G1121 G16B003036 23 540 12,420 60HD micro 112tot 40 3777 16G1121 G16B003037 23 540 12,420 60HD micro 112tot 41 3778 sqs 16G1121 G16B003038 23 540 12,420 60HD micro 112tot 42 3779 16G1121 G16B003039 23 540 12,420 60HD micro 112tot 43 3787 16G1121 G16B003040 23 540 12,420 60HD micro 112tot 44 3782 16G1121 G16B003041 23 540 12,420 60HD micro 112tot 45 3728 16G1121 G16B003045 23 540 12,420 60HD micro 112tot 46 3843 HGF821370 G16B003046 23 540 12,420 60HD micro 112tot 47 3835 HGF821370 G16B003047 23 540 12,420 60HD micro 112tot 48 3833 HGF821370 G16B003048 23 540 12,420 60HD micro 112tot 49 3835 sqs HGF821370 G16B003049 23 540 12,420 60HD micro 112tot 50 3829 HGF821370 G16B003050 23 540 12,420 60HD micro 112tot 51 3820 HGF821370 G16B003051 23 540 12,420 60HD micro 112tot 52 3820 HGF821370 G16B003052 23 540 12,420 60HD micro 112tot 53 3830 HGF821370 G16B003053 23 540 12,420 60HD micro 112tot 54 3829 HGF821370 G16B003054 23 540 12,420 60HD micro 112tot 55 3822 HGF821370 G16B003055 23 540 12,420 60HD micro 112tot 56 3828 HGG710680 G16B003056 23 540 12,420 60HD micro 112tot 57 3822 sqs HGG710680 G16B003057 23 540 12,420 60HD micro 112tot 58 3824 HGG710680 G16B003058 23 540 12,420 60HD micro 112tot 59 3829 HGG710680 G16B003059 23 540 12,420 60HD micro 112tot 60 3830 HGG710680 G16B003131 23 540 12,420 60HD micro 112tot 61 3825 HGG710770 G16B003132 23 540 12,420 60HD micro 112tot 62 3827 HGG710770 G16B003133 23 540 12,420 60HD micro 112tot 63 3827 HGG710770 G16B003134 23 540 12,420 60HD micro 112tot 64 3824 HGG710770 G16B003135 23 540 12,420 60HD micro 112tot 65 3824 sqs HGG710770 G16B003136 23 540 12,420 60HD micro 112tot 66 3833 HGG710770 G16B003137 23 540 12,420 60HD micro 112tot 67 3830 HGG710770 G16B003138 23 540 12,420 60HD micro 112tot 68 3829 HGG710770 G16B003139 23 540 12,420 60HD micro 112tot 69 3828 HGG710770 G16B003140 23 540 12,420 60HD micro 112tot 70 3830 HGG710770 G16B003141 23 540 12,420 60HD micro 112tot 71 3836 HGG710770 G16B003142 23 540 12,420 60HD micro 112tot 72 3836 HGG710770 G16B003143 23 540 12,420 60HD micro 112tot 73 3839 sqs HGG710770 G16B003144 23 540 12,420 60HD micro 112tot 74 3838 HGG710770 G16B003145 23 540 12,420 60HD micro 112tot 75 3815 HGG710770 G16B003146 23 540 12,420 60HD micro 112tot 76 3826 HGG710770 G16B003147 23 540 12,420 60HD micro 112tot 77 3825 HGG710770 G16B003148 23 540 12,420 60HD micro 112tot 78 3829 HGG710770 G16B003149 23 540 12,420 60HD micro 112tot 79 3829 HGG710770 G16B003150 23 540 12,420 60HD micro 112tot 80 3829 HGG710770 G16B003151 23 540 12,420 60HD micro 112tot 81 3824 sqs HGG710770 G16B003152 23 540 12,420 60HD micro 112tot 82 3834 HGG710890 G16B003153 23 540 12,420 60HD micro 112tot 83 3826 HGG710890 G16B003154 23 540 12,420 60HD micro 112tot 84 3831 HGG710890 G16B003155 23 540 12,420 60HD micro 112tot 85 3833 HGG710890 G16B003156 23 540 12,420 60HD micro 112tot 86 3822 HGG710890 G16B003157 23 540 12,420 60HD micro 112tot 87 3832 HGG710890 G16B003158 23 540 12,420 60HD micro 112tot 88 3837 HGG710890 G16B003159 23 540 12,420 60HD micro 112tot 89 3830 sqs HGG710890 G16B003160 23 540 12,420 60HD micro 112tot 90 3841 HGG710890 G16B003161 23 540 12,420 60HD micro 112tot 91 3833 HGG710890 G16B003162 23 540 12,420 60HD micro 112tot 92 3831 HGG710890 G16B003163 23 540 12,420 60HD micro 112tot 93 3830 HGG710890 G16B003164 23 540 12,420 60HD micro 112tot 94 3828 HGG710890 G16B003165 23 540 12,420 60HD micro 112tot 95 3823 HGG710890 G16B003166 23 540 12,420 60HD micro 112tot 96 3827 HGG710890 WM Great Oak LF, Randleman, NC doc 33059 list (112m).xls Page 1 Cust:Waste Management-South Doc#: 33059 PO#: 1000032943 Great Oak LF Dest: Randleman, NC 112 rolls 60HD micro roll # width length area check weld rod qty (if ordered) wgt resin lot # ft. ft. ft². lbs. English cut 1ft from end of rolls 1 ( +2ft fric ), 9, 17, 25, 33, 41, 49, 57, 65, 73, 81, 89, 97, 105 100k/lot sqs + ONE 2ft fric TRITX U2 G16B003167 23 540 12,420 60HD micro 112tot 97 3823 sqs HGG710890 G16B003168 23 540 12,420 60HD micro 112tot 98 3830 HGG710890 G16B003169 23 540 12,420 60HD micro 112tot 99 3833 HGG710890 G16B003170 23 540 12,420 60HD micro 112tot 100 3836 HGG710890 G16B003171 23 540 12,420 60HD micro 112tot 101 3832 HGG710890 G16B003172 23 540 12,420 60HD micro 112tot 102 3838 HGG710890 G16B003173 23 540 12,420 60HD micro 112tot 103 3835 HGG710890 G16B003174 23 540 12,420 60HD micro 112tot 104 3832 HGG710890 G16B003175 23 540 12,420 60HD micro 112tot 105 3829 sqs HGG710890 G16B003176 23 540 12,420 60HD micro 112tot 106 3835 HGG710890 G16B003177 23 540 12,420 60HD micro 112tot 107 3832 HGG710930 G16B003178 23 540 12,420 60HD micro 112tot 108 3833 HGG710930 G16B003179 23 540 12,420 60HD micro 112tot 109 3836 HGG710930 G16B003180 23 540 12,420 60HD micro 112tot 110 3836 HGG710930 G16B003181 23 540 12,420 60HD micro 112tot 111 3833 HGG710930 G16B003182 23 540 12,420 60HD micro 112tot 112 3845 HGG710930 WM Great Oak LF, Randleman, NC doc 33059 list (112m).xls Page 2 60 HD MICROSPIKE16G1122G16B003025ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .947 .23 2.6 10 in Category 1 139 ONGOING 144 16629 25 Asperity ASTM D7466 Top 32 mil Grade:DF3721A 2765 2403 3102 2764 21 14 447 522 67 65289.1 618.3 Smooth Edge ASTM D1004 Average Tear lbs.57 8/8/2016 psi psi TD ppiN/mm 166 ppi 29 MD N/mm 18633 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N298.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:70 AVE:60 1.38 1.77 1.52 mm mm mm Bottom 33 milmm.84 60 HD MICROSPIKE16G1122G16B003028ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .947 .23 2.6 10 in Category 1 139 ONGOING 144 16629 25 Asperity ASTM D7466 Top 29 mil Grade:DF3721A 2765 2403 3102 2764 21 14 447 522 67 65289.1 618.3 Smooth Edge ASTM D1004 Average Tear lbs.57 8/9/2016 psi psi TD ppiN/mm 166 ppi 29 MD N/mm 18633 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N298.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:60 1.40 1.65 1.52 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKE16G1122G16B003029ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.5 10 in Category 1 135 ONGOING 154 17831 27 Asperity ASTM D7466 Top 32 mil Grade:DF3721A 2724 2567 2706 2969 16 14 386 564 70 66293.6 600.5 Smooth Edge ASTM D1004 Average Tear lbs.55 8/9/2016 psi psi TD ppiN/mm 163 ppi 29 MD N/mm 16228 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:66 AVE:59 1.40 1.69 1.51 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKE16G1121G16B003030ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.5 10 in Category 1 135 ONGOING 154 17831 27 Asperity ASTM D7466 Top 31 mil Grade:DF3721A 2724 2567 2706 2969 16 14 386 564 70 66293.6 600.5 Smooth Edge ASTM D1004 Average Tear lbs.55 8/9/2016 psi psi TD ppiN/mm 163 ppi 29 MD N/mm 16228 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:64 AVE:59 1.37 1.63 1.49 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKE16G1121G16B003031ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.5 10 in Category 1 135 ONGOING 154 17831 27 Asperity ASTM D7466 Top 27 mil Grade:DF3721A 2724 2567 2706 2969 16 14 386 564 70 66293.6 600.5 Smooth Edge ASTM D1004 Average Tear lbs.55 8/9/2016 psi psi TD ppiN/mm 163 ppi 29 MD N/mm 16228 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:60 1.39 1.66 1.53 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKE16G1121G16B003032ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.5 10 in Category 1 135 ONGOING 154 17831 27 Asperity ASTM D7466 Top 27 mil Grade:DF3721A 2724 2567 2706 2969 16 14 386 564 70 66293.6 600.5 Smooth Edge ASTM D1004 Average Tear lbs.55 8/9/2016 psi psi TD ppiN/mm 163 ppi 29 MD N/mm 16228 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N311.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:68 AVE:59 1.39 1.74 1.49 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKE16G1121G16B003033ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.6 10 in Category 1 131 ONGOING 162 18332 28 Asperity ASTM D7466 Top 27 mil Grade:DF3721A 2877 2706 2972 3046 15 14 446 547 69 64284.7 582.7 Smooth Edge ASTM D1004 Average Tear lbs.52 8/9/2016 psi psi TD ppiN/mm 173 ppi 30 MD N/mm 17831 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:66 AVE:59 1.42 1.68 1.50 mm mm mm Bottom 31 milmm.79 60 HD MICROSPIKE16G1121G16B003034ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.6 10 in Category 1 131 ONGOING 162 18332 28 Asperity ASTM D7466 Top 27 mil Grade:DF3721A 2877 2706 2972 3046 15 14 446 547 69 64284.7 582.7 Smooth Edge ASTM D1004 Average Tear lbs.52 8/9/2016 psi psi TD ppiN/mm 173 ppi 30 MD N/mm 17831 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:62 AVE:57 1.37 1.57 1.46 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKE16G1121G16B003035ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.6 10 in Category 1 131 ONGOING 162 18332 28 Asperity ASTM D7466 Top 28 mil Grade:DF3721A 2877 2706 2972 3046 15 14 446 547 69 64284.7 582.7 Smooth Edge ASTM D1004 Average Tear lbs.52 8/9/2016 psi psi TD ppiN/mm 173 ppi 30 MD N/mm 17831 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:64 AVE:58 1.37 1.63 1.47 mm mm mm Bottom 33 milmm.84 60 HD MICROSPIKE16G1121G16B003036ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.6 10 in Category 1 131 ONGOING 162 18332 28 Asperity ASTM D7466 Top 27 mil Grade:DF3721A 2877 2706 2972 3046 15 14 446 547 69 64284.7 582.7 Smooth Edge ASTM D1004 Average Tear lbs.52 8/9/2016 psi psi TD ppiN/mm 173 ppi 30 MD N/mm 17831 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:64 AVE:59 1.39 1.61 1.50 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKE16G1121G16B003037ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.6 10 in Category 1 133 ONGOING 149 17330 26 Asperity ASTM D7466 Top 26 mil Grade:DF3721A 2847 2490 3163 2886 15 15 441 501 69 63280.2 591.6 Smooth Edge ASTM D1004 Average Tear lbs.51 8/9/2016 psi psi TD ppiN/mm 171 ppi 30 MD N/mm 19033 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.66 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:62 AVE:58 1.37 1.58 1.47 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKE16G1121G16B003038ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.6 10 in Category 1 133 ONGOING 149 17330 26 Asperity ASTM D7466 Top 27 mil Grade:DF3721A 2847 2490 3163 2886 15 15 441 501 69 63280.2 591.6 Smooth Edge ASTM D1004 Average Tear lbs.51 8/9/2016 psi psi TD ppiN/mm 171 ppi 30 MD N/mm 19033 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:58 1.41 1.66 1.46 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKE16G1121G16B003039ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.6 10 in Category 1 133 ONGOING 149 17330 26 Asperity ASTM D7466 Top 32 mil Grade:DF3721A 2847 2490 3163 2886 15 15 441 501 69 63280.2 591.6 Smooth Edge ASTM D1004 Average Tear lbs.51 8/9/2016 psi psi TD ppiN/mm 171 ppi 30 MD N/mm 19033 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:53 MAX:64 AVE:59 1.34 1.63 1.49 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKE16G1121G16B003040ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.6 10 in Category 1 133 ONGOING 149 17330 26 Asperity ASTM D7466 Top 29 mil Grade:DF3721A 2847 2490 3163 2886 15 15 441 501 69 63280.2 591.6 Smooth Edge ASTM D1004 Average Tear lbs.51 8/9/2016 psi psi TD ppiN/mm 171 ppi 30 MD N/mm 19033 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:69 AVE:60 1.41 1.74 1.53 mm mm mm Bottom 31 milmm.79 60 HD MICROSPIKE16G1121G16B003041ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 210 .946 .23 2.5 10 in Category 1 139 ONGOING 153 18132 27 Asperity ASTM D7466 Top 30 mil Grade:DF3721A 2818 2547 3182 3018 16 15 408 567 56 52231.3 618.3 Smooth Edge ASTM D1004 Average Tear lbs.52 8/9/2016 psi psi TD ppiN/mm 169 ppi 30 MD N/mm 19133 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.76 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:64 AVE:58 1.37 1.62 1.47 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKEHGF821370G16B003045ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 139 ONGOING 163 19234 28 Asperity ASTM D7466 Top 32 mil Grade:K307 3124 2711 3255 3197 16 16 481 601 55 51226.8 618.3 Smooth Edge ASTM D1004 Average Tear lbs.50 8/9/2016 psi psi TD ppiN/mm 187 ppi 33 MD N/mm 19534 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N244.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:70 AVE:61 1.38 1.79 1.55 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKEHGF821370G16B003046ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 139 ONGOING 158 18633 28 Asperity ASTM D7466 Top 29 mil Grade:K307 2893 2641 3310 3097 15 14 407 572 55 51226.8 618.3 Smooth Edge ASTM D1004 Average Tear lbs.50 8/9/2016 psi psi TD ppiN/mm 174 ppi 30 MD N/mm 19935 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N244.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:62 AVE:58 1.39 1.57 1.47 mm mm mm Bottom 33 milmm.84 60 HD MICROSPIKEHGF821370G16B003047ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 139 ONGOING 158 18633 28 Asperity ASTM D7466 Top 22 mil Grade:K307 2893 2641 3310 3097 15 14 407 572 55 51226.8 618.3 Smooth Edge ASTM D1004 Average Tear lbs.50 8/9/2016 psi psi TD ppiN/mm 174 ppi 30 MD N/mm 19935 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N244.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.56 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:62 AVE:58 1.39 1.57 1.47 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGF821370G16B003048ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 139 ONGOING 158 18633 28 Asperity ASTM D7466 Top 27 mil Grade:K307 2893 2641 3310 3097 15 14 407 572 55 51226.8 618.3 Smooth Edge ASTM D1004 Average Tear lbs.50 8/10/2016 psi psi TD ppiN/mm 174 ppi 30 MD N/mm 19935 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N244.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:66 AVE:59 1.39 1.67 1.50 mm mm mm Bottom 33 milmm.84 60 HD MICROSPIKEHGF821370G16B003049ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 139 ONGOING 158 18633 28 Asperity ASTM D7466 Top 29 mil Grade:K307 2893 2641 3310 3097 15 14 407 572 55 51226.8 618.3 Smooth Edge ASTM D1004 Average Tear lbs.50 8/10/2016 psi psi TD ppiN/mm 174 ppi 30 MD N/mm 19935 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N244.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:65 AVE:60 1.43 1.66 1.52 mm mm mm Bottom 25 milmm.64 60 HD MICROSPIKEHGF821370G16B003050ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 137 ONGOING 151 20335 26 Asperity ASTM D7466 Top 28 mil Grade:K307 2842 2521 3100 3378 14 15 466 571 53 66293.8 610.3 Smooth Edge ASTM D1004 Average Tear lbs.53 8/10/2016 psi psi TD ppiN/mm 171 ppi 30 MD N/mm 18633 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N237.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:66 AVE:60 1.42 1.68 1.51 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGF821370G16B003051ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 137 ONGOING 151 20335 26 Asperity ASTM D7466 Top 29 mil Grade:K307 2842 2521 3100 3378 14 15 466 571 53 66293.8 610.3 Smooth Edge ASTM D1004 Average Tear lbs.53 8/10/2016 psi psi TD ppiN/mm 171 ppi 30 MD N/mm 18633 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N237.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:60 1.39 1.64 1.52 mm mm mm Bottom 26 milmm.66 60 HD MICROSPIKEHGF821370G16B003052ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 137 ONGOING 151 20335 26 Asperity ASTM D7466 Top 28 mil Grade:K307 2842 2521 3100 3378 14 15 466 571 53 66293.8 610.3 Smooth Edge ASTM D1004 Average Tear lbs.53 8/10/2016 psi psi TD ppiN/mm 171 ppi 30 MD N/mm 18633 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N237.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:63 AVE:57 1.38 1.59 1.46 mm mm mm Bottom 26 milmm.66 60 HD MICROSPIKEHGF821370G16B003053ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .945 .20 2.5 10 in Category 1 137 ONGOING 151 20335 26 Asperity ASTM D7466 Top 32 mil Grade:K307 2842 2521 3100 3378 14 15 466 571 53 66293.8 610.3 Smooth Edge ASTM D1004 Average Tear lbs.53 8/10/2016 psi psi TD ppiN/mm 171 ppi 30 MD N/mm 18633 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N237.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:62 AVE:57 1.37 1.56 1.45 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGF821370G16B003054ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 200 .948 .20 2.5 10 in Category 1 133 ONGOING 157 20336 28 Asperity ASTM D7466 Top 34 mil Grade:K307 2821 2622 2964 3390 17 17 411 587 64 72322.0 591.7 Smooth Edge ASTM D1004 Average Tear lbs.58 8/10/2016 psi psi TD ppiN/mm 169 ppi 30 MD N/mm 17831 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N284.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.86 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:65 AVE:58 1.38 1.65 1.46 mm mm mm Bottom 23 milmm.58 60 HD MICROSPIKEHGG710680G16B003055ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 195 .948 .19 2.5 10 in Category 1 133 ONGOING 157 20336 28 Asperity ASTM D7466 Top 28 mil Grade:K307 2821 2622 2964 3390 17 17 411 587 64 72322.0 591.7 Smooth Edge ASTM D1004 Average Tear lbs.58 8/10/2016 psi psi TD ppiN/mm 169 ppi 30 MD N/mm 17831 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N284.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:52 MAX:68 AVE:59 1.31 1.71 1.49 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710680G16B003056ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 195 .948 .19 2.5 10 in Category 1 133 ONGOING 157 20336 28 Asperity ASTM D7466 Top 28 mil Grade:K307 2821 2622 2964 3390 17 17 411 587 64 72322.0 591.7 Smooth Edge ASTM D1004 Average Tear lbs.58 8/10/2016 psi psi TD ppiN/mm 169 ppi 30 MD N/mm 17831 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N284.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:57 MAX:68 AVE:61 1.45 1.72 1.54 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710680G16B003057ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 195 .948 .19 2.5 10 in Category 1 133 ONGOING 157 20336 28 Asperity ASTM D7466 Top 29 mil Grade:K307 2821 2622 2964 3390 17 17 411 587 64 72322.0 591.7 Smooth Edge ASTM D1004 Average Tear lbs.58 8/10/2016 psi psi TD ppiN/mm 169 ppi 30 MD N/mm 17831 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N284.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:70 AVE:61 1.39 1.77 1.55 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKEHGG710680G16B003058ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 195 .945 .19 2.7 10 in Category 1 136 ONGOING 153 19734 27 Asperity ASTM D7466 Top 29 mil Grade:K307 2735 2555 3092 3277 16 16 423 576 74 70312.0 605.1 Smooth Edge ASTM D1004 Average Tear lbs.56 8/10/2016 psi psi TD ppiN/mm 164 ppi 29 MD N/mm 18632 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N329.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:67 AVE:61 1.43 1.69 1.54 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710680G16B003059ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 195 .945 .19 2.7 10 in Category 1 136 ONGOING 153 19734 27 Asperity ASTM D7466 Top 25 mil Grade:K307 2735 2555 3092 3277 16 16 423 576 74 70312.0 605.1 Smooth Edge ASTM D1004 Average Tear lbs.56 8/10/2016 psi psi TD ppiN/mm 164 ppi 29 MD N/mm 18632 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N329.0 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.64 OA#:33059 Quality Control Department Maria Coffey MIN:57 MAX:67 AVE:61 1.45 1.70 1.55 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710770G16B003131ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .941 .20 2.3 10 in Category 1 134 ONGOING 146 16930 26 Asperity ASTM D7466 Top 27 mil Grade:K307 2558 2436 3205 2822 15 15 470 538 69 64285.2 596.5 Smooth Edge ASTM D1004 Average Tear lbs.45 8/15/2016 psi psi TD ppiN/mm 153 ppi 27 MD N/mm 19234 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.69 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:66 AVE:60 1.43 1.66 1.53 mm mm mm Bottom 34 milmm.86 60 HD MICROSPIKEHGG710770G16B003132ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .941 .20 2.3 10 in Category 1 134 ONGOING 146 16930 26 Asperity ASTM D7466 Top 28 mil Grade:K307 2558 2436 3205 2822 15 15 470 538 69 64285.2 596.5 Smooth Edge ASTM D1004 Average Tear lbs.45 8/15/2016 psi psi TD ppiN/mm 153 ppi 27 MD N/mm 19234 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N306.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:58 MAX:64 AVE:61 1.47 1.63 1.54 mm mm mm Bottom 25 milmm.64 60 HD MICROSPIKEHGG710770G16B003133ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .942 .20 2.4 10 in Category 1 132 ONGOING 153 18933 27 Asperity ASTM D7466 Top 29 mil Grade:K307 2682 2542 2858 3142 18 15 429 581 57 53234.6 586.7 Smooth Edge ASTM D1004 Average Tear lbs.53 8/15/2016 psi psi TD ppiN/mm 161 ppi 28 MD N/mm 17130 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N253.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:63 AVE:60 1.41 1.59 1.52 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKEHGG710770G16B003134ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .942 .20 2.4 10 in Category 1 132 ONGOING 153 18933 27 Asperity ASTM D7466 Top 31 mil Grade:K307 2682 2542 2858 3142 18 15 429 581 57 53234.6 586.7 Smooth Edge ASTM D1004 Average Tear lbs.53 8/15/2016 psi psi TD ppiN/mm 161 ppi 28 MD N/mm 17130 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N253.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:68 AVE:60 1.41 1.72 1.51 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710770G16B003135ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .942 .20 2.4 10 in Category 1 132 ONGOING 153 18933 27 Asperity ASTM D7466 Top 32 mil Grade:K307 2682 2542 2858 3142 18 15 429 581 57 53234.6 586.7 Smooth Edge ASTM D1004 Average Tear lbs.53 8/15/2016 psi psi TD ppiN/mm 161 ppi 28 MD N/mm 17130 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N253.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:68 AVE:60 1.41 1.74 1.52 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710770G16B003136ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .942 .20 2.4 10 in Category 1 132 ONGOING 153 18933 27 Asperity ASTM D7466 Top 30 mil Grade:K307 2682 2542 2858 3142 18 15 429 581 57 53234.6 586.7 Smooth Edge ASTM D1004 Average Tear lbs.53 8/15/2016 psi psi TD ppiN/mm 161 ppi 28 MD N/mm 17130 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N253.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.76 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:60 1.40 1.64 1.52 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKEHGG710770G16B003137ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .943 .20 2.5 10 in Category 1 127 ONGOING 211 25144 37 Asperity ASTM D7466 Top 31 mil Grade:K307 3778 3510 4110 4183 23 19 433 549 70 69309.1 565.9 Smooth Edge ASTM D1004 Average Tear lbs.66 8/15/2016 psi psi TD ppiN/mm 227 ppi 40 MD N/mm 24743 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N312.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:66 AVE:59 1.40 1.66 1.50 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKEHGG710770G16B003138ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .943 .20 2.5 10 in Category 1 127 ONGOING 211 25144 37 Asperity ASTM D7466 Top 34 mil Grade:K307 3778 3510 4110 4183 23 19 433 549 70 69309.1 565.9 Smooth Edge ASTM D1004 Average Tear lbs.66 8/15/2016 psi psi TD ppiN/mm 227 ppi 40 MD N/mm 24743 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N312.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.86 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:65 AVE:59 1.37 1.65 1.50 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710770G16B003139ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .943 .20 2.5 10 in Category 1 127 ONGOING 211 25144 37 Asperity ASTM D7466 Top 29 mil Grade:K307 3778 3510 4110 4183 23 19 433 549 70 69309.1 565.9 Smooth Edge ASTM D1004 Average Tear lbs.66 8/15/2016 psi psi TD ppiN/mm 227 ppi 40 MD N/mm 24743 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N312.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:62 AVE:58 1.39 1.58 1.48 mm mm mm Bottom 31 milmm.79 60 HD MICROSPIKEHGG710770G16B003140ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .943 .20 2.5 10 in Category 1 127 ONGOING 211 25144 37 Asperity ASTM D7466 Top 32 mil Grade:K307 3778 3510 4110 4183 23 19 433 549 70 69309.1 565.9 Smooth Edge ASTM D1004 Average Tear lbs.66 8/16/2016 psi psi TD ppiN/mm 227 ppi 40 MD N/mm 24743 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N312.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:64 AVE:59 1.42 1.61 1.50 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710770G16B003141ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .20 2.4 10 in Category 1 125 ONGOING 230 23842 40 Asperity ASTM D7466 Top 30 mil Grade:K307 3700 3828 4422 3962 21 19 487 514 68 81360.0 556.8 Smooth Edge ASTM D1004 Average Tear lbs.75 8/16/2016 psi psi TD ppiN/mm 222 ppi 39 MD N/mm 26546 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N301.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.76 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:64 AVE:58 1.39 1.62 1.48 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKEHGG710770G16B003142ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .20 2.4 10 in Category 1 125 ONGOING 230 23842 40 Asperity ASTM D7466 Top 29 mil Grade:K307 3700 3828 4422 3962 21 19 487 514 68 81360.0 556.8 Smooth Edge ASTM D1004 Average Tear lbs.75 8/16/2016 psi psi TD ppiN/mm 222 ppi 39 MD N/mm 26546 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N301.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:66 AVE:59 1.39 1.67 1.50 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710770G16B003143ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .20 2.4 10 in Category 1 125 ONGOING 230 23842 40 Asperity ASTM D7466 Top 30 mil Grade:K307 3700 3828 4422 3962 21 19 487 514 68 81360.0 556.8 Smooth Edge ASTM D1004 Average Tear lbs.75 8/16/2016 psi psi TD ppiN/mm 222 ppi 39 MD N/mm 26546 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N301.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.76 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:63 AVE:60 1.41 1.61 1.52 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710770G16B003144ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .20 2.4 10 in Category 1 125 ONGOING 230 23842 40 Asperity ASTM D7466 Top 30 mil Grade:K307 3700 3828 4422 3962 21 19 487 514 68 81360.0 556.8 Smooth Edge ASTM D1004 Average Tear lbs.75 8/16/2016 psi psi TD ppiN/mm 222 ppi 39 MD N/mm 26546 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N301.6 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.76 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:67 AVE:59 1.41 1.69 1.50 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710770G16B003145ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .20 2.5 10 in Category 1 138 ONGOING 185 20937 32 Asperity ASTM D7466 Top 29 mil Grade:K307 3219 3085 3370 3485 19 16 429 542 57 63280.3 614.1 Smooth Edge ASTM D1004 Average Tear lbs.56 8/16/2016 psi psi TD ppiN/mm 193 ppi 34 MD N/mm 20235 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N254.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:65 AVE:60 1.43 1.65 1.52 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710770G16B003146ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .20 2.5 10 in Category 1 138 ONGOING 185 20937 32 Asperity ASTM D7466 Top 29 mil Grade:K307 3219 3085 3370 3485 19 16 429 542 57 63280.3 614.1 Smooth Edge ASTM D1004 Average Tear lbs.56 8/16/2016 psi psi TD ppiN/mm 193 ppi 34 MD N/mm 20235 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N254.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:65 AVE:60 1.43 1.65 1.53 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710770G16B003147ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .20 2.5 10 in Category 1 138 ONGOING 185 20937 32 Asperity ASTM D7466 Top 29 mil Grade:K307 3219 3085 3370 3485 19 16 429 542 57 63280.3 614.1 Smooth Edge ASTM D1004 Average Tear lbs.56 8/16/2016 psi psi TD ppiN/mm 193 ppi 34 MD N/mm 20235 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N254.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:62 AVE:58 1.36 1.58 1.46 mm mm mm Bottom 31 milmm.79 60 HD MICROSPIKEHGG710770G16B003148ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .946 .20 2.5 10 in Category 1 138 ONGOING 185 20937 32 Asperity ASTM D7466 Top 28 mil Grade:K307 3219 3085 3370 3485 19 16 429 542 57 63280.3 614.1 Smooth Edge ASTM D1004 Average Tear lbs.56 8/16/2016 psi psi TD ppiN/mm 193 ppi 34 MD N/mm 20235 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N254.7 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:63 AVE:57 1.37 1.59 1.45 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710770G16B003149ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .945 .20 2.4 10 in Category 1 138 ONGOING 158 19133 28 Asperity ASTM D7466 Top 28 mil Grade:K307 2784 2626 3041 3185 19 15 447 557 56 53233.6 614.1 Smooth Edge ASTM D1004 Average Tear lbs.55 8/16/2016 psi psi TD ppiN/mm 167 ppi 29 MD N/mm 18232 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N247.8 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:60 1.39 1.65 1.51 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710770G16B003150ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .945 .20 2.4 10 in Category 1 138 ONGOING 158 19133 28 Asperity ASTM D7466 Top 29 mil Grade:K307 2784 2626 3041 3185 19 15 447 557 56 53233.6 614.1 Smooth Edge ASTM D1004 Average Tear lbs.55 8/16/2016 psi psi TD ppiN/mm 167 ppi 29 MD N/mm 18232 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N247.8 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:65 AVE:60 1.41 1.64 1.52 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKEHGG710770G16B003151ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 197 .945 .20 2.4 10 in Category 1 138 ONGOING 158 19133 28 Asperity ASTM D7466 Top 34 mil Grade:K307 2784 2626 3041 3185 19 15 447 557 56 53233.6 614.1 Smooth Edge ASTM D1004 Average Tear lbs.55 8/16/2016 psi psi TD ppiN/mm 167 ppi 29 MD N/mm 18232 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N247.8 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.86 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:63 AVE:59 1.38 1.59 1.49 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710890G16B003152ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.4 10 in Category 1 138 ONGOING 158 19133 28 Asperity ASTM D7466 Top 33 mil Grade:K307 2784 2626 3041 3185 19 15 447 557 56 53233.6 614.1 Smooth Edge ASTM D1004 Average Tear lbs.55 8/16/2016 psi psi TD ppiN/mm 167 ppi 29 MD N/mm 18232 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N247.8 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.84 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:65 AVE:59 1.43 1.65 1.50 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710890G16B003153ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.6 10 in Category 1 134 ONGOING 138 20436 24 Asperity ASTM D7466 Top 31 mil Grade:K307 2522 2293 3291 3406 18 14 482 561 71 69308.5 596.0 Smooth Edge ASTM D1004 Average Tear lbs.66 8/16/2016 psi psi TD ppiN/mm 151 ppi 27 MD N/mm 19735 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N314.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:63 AVE:59 1.40 1.61 1.50 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710890G16B003154ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.6 10 in Category 1 134 ONGOING 138 20436 24 Asperity ASTM D7466 Top 33 mil Grade:K307 2522 2293 3291 3406 18 14 482 561 71 69308.5 596.0 Smooth Edge ASTM D1004 Average Tear lbs.66 8/16/2016 psi psi TD ppiN/mm 151 ppi 27 MD N/mm 19735 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N314.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.84 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:66 AVE:59 1.38 1.67 1.51 mm mm mm Bottom 26 milmm.66 60 HD MICROSPIKEHGG710890G16B003155ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.6 10 in Category 1 134 ONGOING 138 20436 24 Asperity ASTM D7466 Top 32 mil Grade:K307 2522 2293 3291 3406 18 14 482 561 71 69308.5 596.0 Smooth Edge ASTM D1004 Average Tear lbs.66 8/16/2016 psi psi TD ppiN/mm 151 ppi 27 MD N/mm 19735 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N314.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:64 AVE:59 1.38 1.63 1.50 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710890G16B003156ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.6 10 in Category 1 134 ONGOING 138 20436 24 Asperity ASTM D7466 Top 33 mil Grade:K307 2522 2293 3291 3406 18 14 482 561 71 69308.5 596.0 Smooth Edge ASTM D1004 Average Tear lbs.66 8/17/2016 psi psi TD ppiN/mm 151 ppi 27 MD N/mm 19735 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N314.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.84 OA#:33059 Quality Control Department Maria Coffey MIN:57 MAX:64 AVE:60 1.45 1.62 1.52 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710890G16B003157ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 132 ONGOING 148 19033 26 Asperity ASTM D7466 Top 31 mil Grade:K307 2638 2464 3268 3163 17 15 440 524 57 54240.2 587.1 Smooth Edge ASTM D1004 Average Tear lbs.51 8/17/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 19634 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N253.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:64 AVE:58 1.38 1.64 1.47 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKEHGG710890G16B003158ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 132 ONGOING 148 19033 26 Asperity ASTM D7466 Top 31 mil Grade:K307 2638 2464 3268 3163 17 15 440 524 57 54240.2 587.1 Smooth Edge ASTM D1004 Average Tear lbs.51 8/17/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 19634 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N253.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:63 AVE:58 1.39 1.60 1.48 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710890G16B003159ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 132 ONGOING 148 19033 26 Asperity ASTM D7466 Top 29 mil Grade:K307 2638 2464 3268 3163 17 15 440 524 57 54240.2 587.1 Smooth Edge ASTM D1004 Average Tear lbs.51 8/17/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 19634 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N253.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:63 AVE:57 1.37 1.60 1.45 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710890G16B003160ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 132 ONGOING 148 19033 26 Asperity ASTM D7466 Top 31 mil Grade:K307 2638 2464 3268 3163 17 15 440 524 57 54240.2 587.1 Smooth Edge ASTM D1004 Average Tear lbs.51 8/17/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 19634 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N253.5 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:64 AVE:60 1.38 1.63 1.52 mm mm mm Bottom 31 milmm.79 60 HD MICROSPIKEHGG710890G16B003161ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 141 ONGOING 147 17731 26 Asperity ASTM D7466 Top 31 mil Grade:K307 2637 2456 3085 2951 15 15 431 558 56 58258.0 626.5 Smooth Edge ASTM D1004 Average Tear lbs.56 8/17/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 18532 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:60 1.40 1.65 1.53 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKEHGG710890G16B003162ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 141 ONGOING 147 17731 26 Asperity ASTM D7466 Top 30 mil Grade:K307 2637 2456 3085 2951 15 15 431 558 56 58258.0 626.5 Smooth Edge ASTM D1004 Average Tear lbs.56 8/17/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 18532 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.76 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:66 AVE:61 1.43 1.67 1.54 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKEHGG710890G16B003163ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 141 ONGOING 147 17731 26 Asperity ASTM D7466 Top 32 mil Grade:K307 2637 2456 3085 2951 15 15 431 558 56 58258.0 626.5 Smooth Edge ASTM D1004 Average Tear lbs.56 8/17/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 18532 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:64 AVE:60 1.37 1.61 1.51 mm mm mm Bottom 33 milmm.84 60 HD MICROSPIKEHGG710890G16B003164ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 141 ONGOING 147 17731 26 Asperity ASTM D7466 Top 31 mil Grade:K307 2637 2456 3085 2951 15 15 431 558 56 58258.0 626.5 Smooth Edge ASTM D1004 Average Tear lbs.56 8/17/2016 psi psi TD ppiN/mm 158 ppi 28 MD N/mm 18532 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N249.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:66 AVE:61 1.41 1.67 1.54 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710890G16B003165ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 136 ONGOING 159 23241 28 Asperity ASTM D7466 Top 32 mil Grade:K307 3591 2642 3091 3870 15 22 506 474 68 67296.5 606.1 Smooth Edge ASTM D1004 Average Tear lbs.66 8/17/2016 psi psi TD ppiN/mm 215 ppi 38 MD N/mm 18532 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N301.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:53 MAX:64 AVE:59 1.34 1.61 1.49 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKEHGG710890G16B003166ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 136 ONGOING 159 23241 28 Asperity ASTM D7466 Top 32 mil Grade:K307 3591 2642 3091 3870 15 22 506 474 68 67296.5 606.1 Smooth Edge ASTM D1004 Average Tear lbs.66 8/17/2016 psi psi TD ppiN/mm 215 ppi 38 MD N/mm 18532 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N301.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:65 AVE:58 1.37 1.64 1.47 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710890G16B003167ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 136 ONGOING 159 23241 28 Asperity ASTM D7466 Top 34 mil Grade:K307 3591 2642 3091 3870 15 22 506 474 68 67296.5 606.1 Smooth Edge ASTM D1004 Average Tear lbs.66 8/17/2016 psi psi TD ppiN/mm 215 ppi 38 MD N/mm 18532 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N301.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.86 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:63 AVE:59 1.43 1.60 1.50 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710890G16B003168ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 136 ONGOING 159 23241 28 Asperity ASTM D7466 Top 35 mil Grade:K307 3591 2642 3091 3870 15 22 506 474 68 67296.5 606.1 Smooth Edge ASTM D1004 Average Tear lbs.66 8/17/2016 psi psi TD ppiN/mm 215 ppi 38 MD N/mm 18532 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N301.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.89 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:62 AVE:57 1.38 1.58 1.45 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710890G16B003169ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.6 10 in Category 1 134 ONGOING 149 18833 26 Asperity ASTM D7466 Top 30 mil Grade:K307 2507 2484 3048 3133 15 16 451 521 68 65289.0 598.1 Smooth Edge ASTM D1004 Average Tear lbs.65 8/17/2016 psi psi TD ppiN/mm 150 ppi 26 MD N/mm 18332 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N302.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.76 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:65 AVE:59 1.37 1.64 1.49 mm mm mm Bottom 28 milmm.71 60 HD MICROSPIKEHGG710890G16B003170ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.6 10 in Category 1 134 ONGOING 149 18833 26 Asperity ASTM D7466 Top 33 mil Grade:K307 2507 2484 3048 3133 15 16 451 521 68 65289.0 598.1 Smooth Edge ASTM D1004 Average Tear lbs.65 8/17/2016 psi psi TD ppiN/mm 150 ppi 26 MD N/mm 18332 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N302.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.84 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:65 AVE:59 1.37 1.64 1.49 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKEHGG710890G16B003171ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.6 10 in Category 1 134 ONGOING 149 18833 26 Asperity ASTM D7466 Top 32 mil Grade:K307 2507 2484 3048 3133 15 16 451 521 68 65289.0 598.1 Smooth Edge ASTM D1004 Average Tear lbs.65 8/18/2016 psi psi TD ppiN/mm 150 ppi 26 MD N/mm 18332 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N302.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.81 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:60 AVE:57 1.39 1.53 1.45 mm mm mm Bottom 26 milmm.66 60 HD MICROSPIKEHGG710890G16B003172ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .23 2.6 10 in Category 1 134 ONGOING 149 18833 26 Asperity ASTM D7466 Top 31 mil Grade:K307 2507 2484 3048 3133 15 16 451 521 68 65289.0 598.1 Smooth Edge ASTM D1004 Average Tear lbs.65 8/18/2016 psi psi TD ppiN/mm 150 ppi 26 MD N/mm 18332 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N302.2 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:64 AVE:59 1.38 1.61 1.49 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710890G16B003173ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 134 ONGOING 219 24343 38 Asperity ASTM D7466 Top 31 mil Grade:K307 3737 3652 4143 4050 22 19 440 549 68 69305.3 597.2 Smooth Edge ASTM D1004 Average Tear lbs.69 8/18/2016 psi psi TD ppiN/mm 224 ppi 39 MD N/mm 24944 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N303.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:59 1.39 1.65 1.50 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710890G16B003174ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 134 ONGOING 219 24343 38 Asperity ASTM D7466 Top 30 mil Grade:K307 3737 3652 4143 4050 22 19 440 549 68 69305.3 597.2 Smooth Edge ASTM D1004 Average Tear lbs.69 8/18/2016 psi psi TD ppiN/mm 224 ppi 39 MD N/mm 24944 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N303.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.76 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:66 AVE:60 1.38 1.68 1.51 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710890G16B003175ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 134 ONGOING 219 24343 38 Asperity ASTM D7466 Top 33 mil Grade:K307 3737 3652 4143 4050 22 19 440 549 68 69305.3 597.2 Smooth Edge ASTM D1004 Average Tear lbs.69 8/18/2016 psi psi TD ppiN/mm 224 ppi 39 MD N/mm 24944 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N303.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.84 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:66 AVE:59 1.39 1.68 1.50 mm mm mm Bottom 27 milmm.69 60 HD MICROSPIKEHGG710890G16B003176ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .23 2.4 10 in Category 1 134 ONGOING 219 24343 38 Asperity ASTM D7466 Top 28 mil Grade:K307 3737 3652 4143 4050 22 19 440 549 68 69305.3 597.2 Smooth Edge ASTM D1004 Average Tear lbs.69 8/18/2016 psi psi TD ppiN/mm 224 ppi 39 MD N/mm 24944 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N303.4 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.71 OA#:33059 Quality Control Department Maria Coffey MIN:55 MAX:65 AVE:60 1.40 1.65 1.52 mm mm mm Bottom 29 milmm.74 60 HD MICROSPIKEHGG710930G16B003177ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 214 .945 .28 2.6 10 in Category 1 128 ONGOING 207 23942 36 Asperity ASTM D7466 Top 29 mil Grade:K307 3542 3456 4154 3985 23 18 440 560 66 62274.4 568.6 Smooth Edge ASTM D1004 Average Tear lbs.62 8/18/2016 psi psi TD ppiN/mm 213 ppi 37 MD N/mm 24944 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N294.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:66 AVE:58 1.36 1.66 1.48 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710930G16B003178ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .28 2.6 10 in Category 1 128 ONGOING 207 23942 36 Asperity ASTM D7466 Top 29 mil Grade:K307 3542 3456 4154 3985 23 18 440 560 66 62274.4 568.6 Smooth Edge ASTM D1004 Average Tear lbs.62 8/18/2016 psi psi TD ppiN/mm 213 ppi 37 MD N/mm 24944 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N294.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.74 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:65 AVE:59 1.42 1.65 1.50 mm mm mm Bottom 30 milmm.76 60 HD MICROSPIKEHGG710930G16B003179ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .28 2.6 10 in Category 1 128 ONGOING 207 23942 36 Asperity ASTM D7466 Top 34 mil Grade:K307 3542 3456 4154 3985 23 18 440 560 66 62274.4 568.6 Smooth Edge ASTM D1004 Average Tear lbs.62 8/18/2016 psi psi TD ppiN/mm 213 ppi 37 MD N/mm 24944 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N294.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.86 OA#:33059 Quality Control Department Maria Coffey MIN:56 MAX:66 AVE:59 1.41 1.68 1.50 mm mm mm Bottom 31 milmm.79 60 HD MICROSPIKEHGG710930G16B003180ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .945 .28 2.6 10 in Category 1 128 ONGOING 207 23942 36 Asperity ASTM D7466 Top 31 mil Grade:K307 3542 3456 4154 3985 23 18 440 560 66 62274.4 568.6 Smooth Edge ASTM D1004 Average Tear lbs.62 8/18/2016 psi psi TD ppiN/mm 213 ppi 37 MD N/mm 24944 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N294.1 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:63 AVE:58 1.36 1.61 1.48 mm mm mm Bottom 32 milmm.81 60 HD MICROSPIKEHGG710930G16B003181ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .28 2.6 10 in Category 1 125 ONGOING 218 24242 38 Asperity ASTM D7466 Top 31 mil Grade:K307 3790 3632 4236 4036 22 17 461 551 71 70311.3 555.8 Smooth Edge ASTM D1004 Average Tear lbs.68 8/18/2016 psi psi TD ppiN/mm 227 ppi 40 MD N/mm 25445 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N315.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.79 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:62 AVE:57 1.37 1.56 1.45 mm mm mm Bottom 31 milmm.79 60 HD MICROSPIKEHGG710930G16B003182ROLL #:LOT #:LINER TYPE: Thickness Measurement ASTM D5994 (Modified) METRIC ENGLISH mm mil mm mm mil mil Thickness: Length: Width: m m feet feet Specific Gravity ASTM D792 MFI ASTM D1238 COND. E Melt Flow Index 190C/2160 g - g/10 min Carbon Black Content ASTM D4218 Range Carbon Black Dispersion ASTM D5596 Category Tensile Strength ASTM D6693 (2 inches / minute) MD TD Tensile Elongation ASTM D6693 (2 inches / minute) Lo = 1.3" Yield Lo = 2.0" Break Average Elongation @ Yield Average Elongation @Break Tear Resistance ASTM D1004 (Modified)Average Tear Resistance Puncture Resistance ASTM D4833 (Modified)Average Peak Load Notched Constant Tensile Load ASTM D5397 Pass/Fail @ 30% Customer: PO: Destination: Production Date: Signature: g/cc % % % N N 500 Hrs. ppi ppi psi psi OIT(Standard) ASTM D 3895 minutes lbs. lbs. N/mm N/mm mm mil60 164.594 7.01 1.52 540 23 211 .944 .28 2.6 10 in Category 1 125 ONGOING 218 24242 38 Asperity ASTM D7466 Top 33 mil Grade:K307 3790 3632 4236 4036 22 17 461 551 71 70311.3 555.8 Smooth Edge ASTM D1004 Average Tear lbs.68 8/18/2016 psi psi TD ppiN/mm 227 ppi 40 MD N/mm 25445 Average Strength @ Yield Average Strength @ Break MD TD % % MD TD MD TD lbs.N315.9 Waste Management-South 1000032943 Great Oak LF Randleman, NC Average METRIC ENGLISH Average Density mm.84 OA#:33059 Quality Control Department Maria Coffey MIN:54 MAX:63 AVE:57 1.37 1.59 1.45 mm mm mm Bottom 28 milmm.71 _________________________________________________________________________________________________________________ 1140 Route 22 East, Suite 109 Bridgewater, NJ 08807 908.725.3133 908.725.9677 Fax July 21, 2016 Mr. Grant Palmer Agru America, Inc. 500 Garrison Rd Georgetown, SC 29440 ORDER CONFIRMATION Customer P.O. Number 010606 Product Type MDPE Railcar Number PSPX 7009 Lot Number HGF821370 Ship Date 6/28/2016 Product Weight 171,300 lbs PROPERTY RESULTS ASTM TEST METHOD HLMI (190/21.6) 20 g/10 min D – 1238 Density 0.938 g/cm3 D – 1505 Sincerely, Stephen Dazzo Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710770 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.20 g/10mi HLMI Flow Rate ASTM D1238 21 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 25 pel/g Production Date 07/22/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 08/03/2016 Delivery #: 89304439 Page 1 of 1 PO #: 010631 Weight: 197900 LB Ship Date: 08/03/2016 Package: BULK Mode: Hopper Car Car #: CHVX890104 Seal No: 50271 Shipped To: Certificate of Analysis Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710680 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.20 g/10mi HLMI Flow Rate ASTM D1238 21 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 20 pel/g Production Date 07/20/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 07/23/2016 Delivery #: 89299209 Page 1 of 1 PO #: 010540 Weight: 203100 LB Ship Date: 07/23/2016 Package: BULK Mode: Hopper Car Car #: NAHX620143 Seal No: 67442 Shipped To: Certificate of Analysis Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710930 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.28 g/10mi HLMI Flow Rate ASTM D1238 23 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 27 pel/g Production Date 07/26/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 08/06/2016 Delivery #: 89307096 Page 1 of 1 PO #: 010631 Weight: 190300 LB Ship Date: 08/06/2016 Package: BULK Mode: Hopper Car Car #: CHVX896626 Seal No: 50619 Shipped To: Certificate of Analysis Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710890 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.23 g/10mi HLMI Flow Rate ASTM D1238 20 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 26 pel/g Production Date 07/25/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 08/05/2016 Delivery #: 89306444 Page 1 of 1 PO #: 010631 Weight: 199900 LB Ship Date: 08/05/2016 Package: BULK Mode: Hopper Car Car #: CEFX053895 Seal No: 50434 Shipped To: Certificate of Analysis June 17, 2015 Grant Palmer Agru America 500 Garrison Road Georgetown, SC 29440 Dear Grant: This letter is to report the final results of oven-aging and UV-aging tests (according to GRI-GM13 and GRI-GM17) on Agru America black sheet samples that you provided to us recently. These tests were performed by CPChem’s Materials Evaluation Laboratory in Bartlesville, OK. The tests were completed June 2015. The GRI-GM13 (HDPE) and GRI-GM17 (LLDPE) durability tests were done according to the following procedures. Test Exposure Method HP-OIT 150 °C, 500 psi oxygen D5885 Oven Aging 90 days, 85 °C D5721 UV Aging 1600 UV hrs (Conditions were 20 hours UVA-340 at 75 °C followed by 4 hrs dark with condensation at 60 °C. Irradiance was 0.72 W/m2 at 340 nm.) D7238 Oven-Aging Results Sample Initial HP- OIT (min) HP-OIT Value after Oven Aging 90 Days (min) % HP-OIT Retained after Oven Aging 90 Days GRI-GM13 and GRI-GM17% Retained Requirement (Oven Aging 90 Days) 60 mil HDPE Roll # G14F514045 from Marlex® K307 Polyethylene Lot # H71-4-1337 1066 883 83 80 40 mil LLDPE Roll # G14C243027 from Marlex® 7104 Polyethylene Lot # CEC810320 512 422 82 60 Yingying Lu, Ph.D., Geomembrane Technical Service & Applications Development Highways 60 & 123, Bartlesville Research and Technology Center, Room 149 PTC Bartlesville, OK 74003 918-977-6894 luyy@cpchem.com Fax: 918-977-7599  www.cpchem.com YL 06/17/15 Page 2 UV-Aging Results Sample Initial HP- OIT (min) HP-OIT Value after UV Aging (min) % HP-OIT Retained GRI-GM13 and GRI- GM17 % Retained Requirement 60 mil HDPE Roll # G14F514045 from Marlex® K307 Polyethylene Lot # H71-4-1337 1066 930 87 50 40 mil LLDPE Roll # G14C243027 from Marlex® 7104 Polyethylene Lot # CEC810320 512 351 69 35 According to these test results, the durability requirements are met. If you have any questions, please call me at 918-977-6894. Sincerely, Yingying Lu, Ph. D. Polyethylene Technical Service and Applications Development Any technical advice, recommendations, results, or analysis ("Information") contained herein, including, without limitation, Information as it may relate to the selection of a specific product ("Product") for your use and application, is given without warranty or guarantee and is accepted at your sole risk. It is imperative that you test the Information (and Product, if applicable) to determine to your own satisfaction whether the Information (and Product, if applicable) are suitable for your intended use and application. You expressly assume, and release Chevron Phillips Chemical Company, from all risk and liability, whether based in contract, tort or otherwise, in connection with the use of, or results obtained from, such Information (and Product, if applicable). TRI / Environmental, Inc. A Texas Research International Company GEOMEMBRANE TEST RESULTS TRI Client: Agru America Project: Geomembrane Testing Material:Agru 60 mil Smooth HDPE Geomembrane Sample Identification: Formosa - HDPE , Resin DF3721A TRI Log #: E2339-36-07 April 19, 2010 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 UV Resistance (GRI GM 13) The resistance to degradation due to exposure to ultraviolet light and moisture was determined in accordance with GRI-GM11, Accelerated Weathering of Geomembranes Using a Fluorescent UVA Device. This standard covers the basic principles for using the QUV apparatus to accelerate the weathering of geomembranes using UVA bulbs and condensation. To comply with Specification GRI GM13, the sample was exposed to 1600 hours of UV exposure composed of 80 cycles of UA at 75 C for 20 hours followed by condensation at 60 C for 4 hours. The High Pressure Oxidative Induction Time (HPOIT) was evaluated before and after the exposure and results were as follows. PERCENT RETAINED HPOIT (minutes) - Baseline 1201 1201 HPOIT (minutes) - After QUV Aging 1010 1010 84 Note: No surface cracking was observed. Oven Aging (ASTM D 5721) The geomembrane was exposed to 90 days of elevated temperature exposure in an air oven maintained at 85°C ± 0.5°C in accordance with ASTM D 5721-95, Standard Practice for Air-Oven Aging of Polyolefin Geomembranes. Oxidative Induction Time (OIT) was tested for after exposure and compared to values generated for unexposed material. The results are provided below. PERCENT HPOIT (minutes) - Baseline 1201 1201 HPOIT (minutes) - After QUV Aging 1114 1114 93 Note: No surface cracking was observed. MD Machine Direction TD Transverse Direction NA Not Available The testing is based upon accepted industry practice as well as the test method listed. Test results reported herein do not apply to samples other than those tested. TRI neither accepts responsibility for nor makes claim as to the final use and purpose of the material. TRI observes and maintains client confidentiality. TRI limits reproduction of this report, except in full, without prior approval of TRI. page 3 of 5 GeosyntheticTesting.com 9063 Bee Caves Road / Austin, TX 78733 / 512 263 2101 / fax: 512 263 2558 Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300 HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 302,630Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0600Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. 16G1121 HDPE 8/19/16 G16F002867 60 HDPE MICRO 4340 2,630 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 414 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.060 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0550 0.0550 0.0550 0.0550 0.0550 Notch Depth (in) #1 #2 #3 #4 #5 0.0070 0.0070 0.0070 0.0070 0.0070 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0550 #6 0.0070 178 microns= Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300 HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 302,668Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0800Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. 16G1122 HDPE 8/18/16 G16D002271 80 HDPE SMOOTH 4333 2,668 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 565 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.080 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0715 0.0715 0.0715 0.0715 0.0715 Notch Depth (in) #1 #2 #3 #4 #5 0.0075 0.0075 0.0075 0.0075 0.0075 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0715 #6 0.0075 190 microns= Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300 HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 302,741Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0400Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. 16G1129 HDPE 8/18/16 G16D002303 40 HDPE MICRO 4336 2,741 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 283 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.040 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0375 0.0385 0.0375 0.0385 0.0375 Notch Depth (in) #1 #2 #3 #4 #5 0.0055 0.0065 0.0055 0.0065 0.0055 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0379 #6 0.0059 150 microns= June 17, 2015 Grant Palmer Agru America 500 Garrison Road Georgetown, SC 29440 Dear Grant: This letter is to report the final results of oven-aging and UV-aging tests (according to GRI-GM13 and GRI-GM17) on Agru America black sheet samples that you provided to us recently. These tests were performed by CPChem’s Materials Evaluation Laboratory in Bartlesville, OK. The tests were completed June 2015. The GRI-GM13 (HDPE) and GRI-GM17 (LLDPE) durability tests were done according to the following procedures. Test Exposure Method HP-OIT 150 °C, 500 psi oxygen D5885 Oven Aging 90 days, 85 °C D5721 UV Aging 1600 UV hrs (Conditions were 20 hours UVA-340 at 75 °C followed by 4 hrs dark with condensation at 60 °C. Irradiance was 0.72 W/m2 at 340 nm.) D7238 Oven-Aging Results Sample Initial HP- OIT (min) HP-OIT Value after Oven Aging 90 Days (min) % HP-OIT Retained after Oven Aging 90 Days GRI-GM13 and GRI-GM17% Retained Requirement (Oven Aging 90 Days) 60 mil HDPE Roll # G14F514045 from Marlex® K307 Polyethylene Lot # H71-4-1337 1066 883 83 80 40 mil LLDPE Roll # G14C243027 from Marlex® 7104 Polyethylene Lot # CEC810320 512 422 82 60 Yingying Lu, Ph.D., Geomembrane Technical Service & Applications Development Highways 60 & 123, Bartlesville Research and Technology Center, Room 149 PTC Bartlesville, OK 74003 918-977-6894 luyy@cpchem.com Fax: 918-977-7599  www.cpchem.com YL 06/17/15 Page 2 UV-Aging Results Sample Initial HP- OIT (min) HP-OIT Value after UV Aging (min) % HP-OIT Retained GRI-GM13 and GRI- GM17 % Retained Requirement 60 mil HDPE Roll # G14F514045 from Marlex® K307 Polyethylene Lot # H71-4-1337 1066 930 87 50 40 mil LLDPE Roll # G14C243027 from Marlex® 7104 Polyethylene Lot # CEC810320 512 351 69 35 According to these test results, the durability requirements are met. If you have any questions, please call me at 918-977-6894. Sincerely, Yingying Lu, Ph. D. Polyethylene Technical Service and Applications Development Any technical advice, recommendations, results, or analysis ("Information") contained herein, including, without limitation, Information as it may relate to the selection of a specific product ("Product") for your use and application, is given without warranty or guarantee and is accepted at your sole risk. It is imperative that you test the Information (and Product, if applicable) to determine to your own satisfaction whether the Information (and Product, if applicable) are suitable for your intended use and application. You expressly assume, and release Chevron Phillips Chemical Company, from all risk and liability, whether based in contract, tort or otherwise, in connection with the use of, or results obtained from, such Information (and Product, if applicable). Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 302,358Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0600Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. HGF821370 HDPE 8/19/16 G16D002343 60 HDPE MICRO 4339 2,358 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 370 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.060 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0575 0.0560 0.0560 0.0565 0.0565 Notch Depth (in) #1 #2 #3 #4 #5 0.0095 0.0080 0.0080 0.0085 0.0085 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0565 #6 0.0085 216 microns= Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300 HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 302,259Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0600Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. HGG710580 HDPE 8/18/16 G16C001818 60 HDPE B/W MICRO 4337 2,259 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 353 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.060 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0555 0.0555 0.0555 0.0555 0.0555 Notch Depth (in) #1 #2 #3 #4 #5 0.0075 0.0075 0.0075 0.0075 0.0075 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0555 #6 0.0075 191 microns= Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300 HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 302,759Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0600Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. HGG710680 HDPE 8/19/16 G16D002373 60 HDPE SMOOTH 4341 2,759 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 435 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.060 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0500 0.0500 0.0500 0.0500 0.0500 Notch Depth (in) #1 #2 #3 #4 #5 0.0020 0.0020 0.0020 0.0020 0.0020 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0500 #6 0.0020 51 microns= Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710680 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.20 g/10mi HLMI Flow Rate ASTM D1238 21 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 20 pel/g Production Date 07/20/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 07/23/2016 Delivery #: 89299209 Page 1 of 1 PO #: 010540 Weight: 203100 LB Ship Date: 07/23/2016 Package: BULK Mode: Hopper Car Car #: NAHX620143 Seal No: 67442 Shipped To: Certificate of Analysis Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300 HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 302,495Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0500Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. HGG710770 HDPE 8/22/16 G16A002786 50 HD SUPERGRIP 4345 2,495 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 324 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.050 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0585 0.0585 0.0590 0.0590 0.0585 Notch Depth (in) #1 #2 #3 #4 #5 0.0185 0.0185 0.0190 0.0190 0.0185 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0587 #6 0.0187 475 microns= Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710770 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.20 g/10mi HLMI Flow Rate ASTM D1238 21 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 25 pel/g Production Date 07/22/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 08/03/2016 Delivery #: 89304439 Page 1 of 1 PO #: 010631 Weight: 197900 LB Ship Date: 08/03/2016 Package: BULK Mode: Hopper Car Car #: CHVX890104 Seal No: 50271 Shipped To: Certificate of Analysis Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300 HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 302,293Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0600Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. HGG710890 HDPE 8/19/16 G16B003152 60 HDPE MICRO 4349 2,293 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 359 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.060 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0550 0.0555 0.0550 0.0555 0.0550 Notch Depth (in) #1 #2 #3 #4 #5 0.0070 0.0075 0.0070 0.0075 0.0070 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0552 #6 0.0072 183 microns= Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710890 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.23 g/10mi HLMI Flow Rate ASTM D1238 20 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 26 pel/g Production Date 07/25/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 08/05/2016 Delivery #: 89306444 Page 1 of 1 PO #: 010631 Weight: 199900 LB Ship Date: 08/05/2016 Package: BULK Mode: Hopper Car Car #: CEFX053895 Seal No: 50434 Shipped To: Certificate of Analysis Test Conditions Temp: (At Notching) Humidity: Comments: ALL 5 SPECIMENS HAVE PASSED 300 HOURS WITH NO BREAKS. ONGOING TO 500 HOURS. Tested By: DF 303,765Strength @ yield for this roll : __________ psi % of yield tested : __________ % 0.0600Nominal Thickness (in): 77CF =______g 71 Station used:______ LOAD = REF # :________ SP NOTCHED CONSTANT TENSILE LOAD ASTM D 5397 APPENDIX A LOT # :______________ MATERIAL :__________________ LINER TYPE :________________ROLL # :____________ DATE :_____________ FORMULA FOR APPLIED LOAD :Load = (str@yld x %test x ( 80% of nom. thickness ) x width) - CF MAwhere : str@yld = Tensile strength @ yield (Weakest Direction) from ASTM D-6693 in psi thickness = Thickness of sample at notch point in inches width = Width of sample in inches (.125" constant) Therefore, for each sample, load = (str@yld x nom. thickness x .0300*----->([%TEST] x .8 x .125))-CF/MA LOAD = _______ x _______ x formula PASS @ _____ HRS PASS / FAIL ? Failure at LOAD = str@yld x nominal thickness x formula * This number may change due to customer specifications. Formula will be changed also. HGG710930 HDPE 8/19/16 G16D002469 60 HD SMOOTH 4351 3,765 300 PASS 300 Checked By: GP MA = Mechanical Advantage Used (1:1, 3:1, 4:1, or 5:1) CF = Correction Factor for MA Stations is 77g (weight of arm with empty holder attached to other end) 599 g 52 NCTL.FRMREV 02 2/11/10 5Mechanical Advantage Used:_________ 0.060 Specimen Thickness (in) #1 #2 #3 #4 #5 0.0530 0.0530 0.0530 0.0535 0.0535 Notch Depth (in) #1 #2 #3 #4 #5 0.0050 0.0050 0.0050 0.0055 0.0055 PASS 300 PASS 300 PASS 300 PASS 300 hours hours hours hours hours #6 0.0532 #6 0.0052 132 microns= Product: MARLEX POLYETHYLENE K307 BULK Lot Number: HGG710930 ____________________________________________________________________________ Property Test Method Value Unit____________________________________________________________________________ Melt Index ASTM D1238 0.28 g/10mi HLMI Flow Rate ASTM D1238 23 g/10mi Density D1505 or D4883 0.937 g/cm3 Pellet Count P02.08.03 27 pel/g Production Date 07/26/2016____________________________________________________________________________ The data set forth herein have been carefully compiled by Chevron Phillips Chemical Company LP (CPChem). However, there is no warranty of any kind, either expressed or implied, applicable to its use, and the user assumes all risk and liability in connection therewith. Troy Griffin Quality Systems Coordinator For CoA questions contact Customer Service Representative at +1-832-813-4806 AGRU AMERICA INC:GEORGETOWN 500 GARRISON RD GEORGETOWN SC 29440 USA Recipient: PALMER Fax: CoA Date: 08/06/2016 Delivery #: 89307096 Page 1 of 1 PO #: 010631 Weight: 190300 LB Ship Date: 08/06/2016 Package: BULK Mode: Hopper Car Car #: CHVX896626 Seal No: 50619 Shipped To: Certificate of Analysis Appendix C-2 CQA Conformance Testing Results Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.com cc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:23069 Material(s) Tested:One, Agru 60 mil MicroSpike HDPE Geomembrane Test(s) Requested:Thickness (ASTM D 5994) Asperity Height (ASTM D 7466) Density (ASTM D 1505) Carbon Black Content (ASTM D 4218)Carbon Dispersion (ASTM D 5596)Tensile Properties (ASTM D 6693) Puncture Strength (ASTM D 4833) If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh Patel Laboratory Manager Geosynthetic Services Division www.GeosyntheticTesting.com *Signature is on file August 12, 2016 Page 1 of 2 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16D002328 TRI Log #: 23069 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)63 67 64 62 62 70 61 68 64 61 64 3 61 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 29 30 32 32 21 32 35 35 32 33 31 4 Asperity Height (mils) - Side B 27 27 29 25 21 24 24 23 23 22 24 3 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.945 0.945 0.945 0.945 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.43 2.46 2.45 0.02 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)151 160 163 177 155 161 10 TD Yield Strength (ppi)183 175 165 163 158 169 10 MD Break Strength (ppi)222 223 232 252 204 227 17 TD Break Strength (ppi)212 210 200 212 200 207 6 MD Yield Elongation (%)26 22 21 22 21 22 2 TD Yield Elongation (%)17 16 16 15 15 16 1 MD Break Elongation (%)464 477 486 478 458 473 11 TD Break Elongation (%)585 607 594 643 621 610 23 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)138 138 144 136 137 139 3 MD Machine Direction TD Transverse Direction Page 2 of 2 Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.com cc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:23158 Material(s) Tested:Four, Agru 60 mil MicroSpike HDPE Geomembrane(s) Test(s) Requested:Thickness (ASTM D 5994) Asperity Height (ASTM D 7466) Density (ASTM D 1505) Carbon Black Content (ASTM D 4218)Carbon Dispersion (ASTM D 5596)Tensile Properties (ASTM D 6693) Puncture Strength (ASTM D 4833) If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh Patel Laboratory Manager Geosynthetic Services Division www.GeosyntheticTesting.com *Signature is on file August 16, 2016 Page 1 of 5 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16D002336 TRI Log #: 23158 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)70 64 70 61 64 63 67 67 61 63 65 3 61 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 35 36 33 27 30 33 30 33 23 27 31 4 Asperity Height (mils) - Side B 33 32 25 24 24 23 20 20 20 22 24 5 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.944 0.944 0.944 0.944 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.35 2.37 2.36 0.01 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)162 161 148 177 151 160 11 TD Yield Strength (ppi)143 153 181 170 171 164 15 MD Break Strength (ppi)235 211 169 272 175 212 43 TD Break Strength (ppi)169 181 174 206 205 187 17 MD Yield Elongation (%)27 23 21 25 21 23 3 TD Yield Elongation (%)21 20 18 17 19 19 2 MD Break Elongation (%)512 444 502 528 496 496 32 TD Break Elongation (%)537 552 471 603 586 550 51 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)151 149 148 142 142 146 4 MD Machine Direction TD Transverse Direction Page 2 of 5 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16D002344 TRI Log #: 23158 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)68 62 67 69 62 62 63 62 60 62 64 3 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 30 34 32 31 29 27 34 36 34 34 32 3 Asperity Height (mils) - Side B 20 21 22 21 26 23 26 26 23 25 23 2 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.945 0.945 0.945 0.945 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.39 2.40 2.40 0.01 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)152 161 151 165 174 161 10 TD Yield Strength (ppi)174 157 178 152 162 165 11 MD Break Strength (ppi)206 223 174 249 254 221 33 TD Break Strength (ppi)180 199 194 189 180 188 8 MD Yield Elongation (%)26 27 22 26 25 25 2 TD Yield Elongation (%)17 18 19 18 19 18 1 MD Break Elongation (%)486 446 464 466 534 479 34 TD Break Elongation (%)520 604 528 576 532 552 36 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)146 143 144 144 147 145 2 MD Machine Direction TD Transverse Direction Page 3 of 5 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16D002352 TRI Log #: 23158 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)68 62 62 60 65 61 68 64 61 65 63 3 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 36 32 32 29 32 30 27 29 31 35 31 3 Asperity Height (mils) - Side B 26 24 26 31 25 24 23 22 23 22 24 3 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.943 0.943 0.943 0.943 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.41 2.46 2.44 0.04 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 2 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)163 168 161 154 166 162 5 TD Yield Strength (ppi)155 160 183 159 157 163 11 MD Break Strength (ppi)208 209 219 183 260 216 28 TD Break Strength (ppi)219 203 214 192 203 206 11 MD Yield Elongation (%)21 22 22 22 29 23 3 TD Yield Elongation (%)18 18 16 16 16 17 1 MD Break Elongation (%)518 534 465 486 481 497 28 TD Break Elongation (%)648 585 598 579 599 602 27 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)147 140 141 139 140 141 3 MD Machine Direction TD Transverse Direction Page 4 of 5 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16D003029 TRI Log #: 23158 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)64 64 65 64 60 60 64 61 59 60 62 2 59 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 27 25 28 27 31 29 25 28 22 27 27 2 Asperity Height (mils) - Side B 27 29 25 27 29 28 29 28 30 29 28 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.946 0.946 0.946 0.946 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.43 2.46 2.45 0.02 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)159 147 172 155 145 156 11 TD Yield Strength (ppi)168 161 180 147 137 159 17 MD Break Strength (ppi)179 145 211 167 168 174 24 TD Break Strength (ppi)179 199 205 114 152 170 37 MD Yield Elongation (%)24 19 21 21 19 21 2 TD Yield Elongation (%)18 17 17 17 17 17 0 MD Break Elongation (%)410 415 455 444 486 442 31 TD Break Elongation (%)528 617 614 300 529 518 129 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)131 133 135 133 133 133 2 MD Machine Direction TD Transverse Direction Page 5 of 5 Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.com cc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:23228 Material(s) Tested:Three, Agru 60 mil MicroSpike HDPE Geomembrane(s) Test(s) Requested:Thickness (ASTM D 5994) Asperity Height (ASTM D 7466) Density (ASTM D 1505) Carbon Black Content (ASTM D 4218)Carbon Dispersion (ASTM D 5596)Tensile Properties (ASTM D 6693) Puncture Strength (ASTM D 4833) If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh Patel Laboratory Manager Geosynthetic Services Division www.GeosyntheticTesting.com *Signature is on file August 16, 2016 Page 1 of 4 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16D003037 TRI Log #: 23228 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)63 62 61 61 61 60 61 61 65 65 62 2 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 30 30 30 30 25 22 23 26 27 30 27 3 Asperity Height (mils) - Side B 30 30 29 29 29 30 30 29 29 28 29 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.947 0.947 0.947 0.947 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.41 2.43 2.42 0.01 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)138 153 165 150 169 155 12 TD Yield Strength (ppi)166 172 150 174 158 164 10 MD Break Strength (ppi)146 200 176 136 211 174 33 TD Break Strength (ppi)181 120 154 204 172 166 31 MD Yield Elongation (%)21 23 19 22 24 22 2 TD Yield Elongation (%)16 18 20 22 16 18 3 MD Break Elongation (%)431 495 518 354 428 445 64 TD Break Elongation (%)579 381 517 414 560 490 88 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)141 140 138 137 136 138 2 MD Machine Direction TD Transverse Direction Page 2 of 4 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16D003048 TRI Log #: 23228 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)60 60 60 62 64 60 66 64 61 61 62 2 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 24 30 31 31 32 31 26 28 28 30 29 2 Asperity Height (mils) - Side B 30 29 31 26 30 30 31 29 29 28 29 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.943 0.943 0.943 0.943 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.49 2.44 2.47 0.04 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)156 143 160 145 159 153 8 TD Yield Strength (ppi)159 171 188 163 186 173 13 MD Break Strength (ppi)183 166 193 168 215 185 20 TD Break Strength (ppi)152 198 216 122 178 173 37 MD Yield Elongation (%)21 21 22 20 24 22 2 TD Yield Elongation (%)18 18 18 16 17 17 1 MD Break Elongation (%)500 471 427 451 432 456 30 TD Break Elongation (%)457 579 609 287 494 485 127 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)135 124 131 128 129 129 4 MD Machine Direction TD Transverse Direction Page 3 of 4 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16D003056 TRI Log #: 23228 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)62 61 64 66 67 66 61 60 62 62 63 3 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 29 30 29 29 29 29 29 29 23 26 28 2 Asperity Height (mils) - Side B 30 29 29 29 29 30 29 30 29 28 29 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.944 0.944 0.944 0.944 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.45 2.39 2.42 0.04 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 2 2 2 2 1 Rating - 2nd field view 2 2 2 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)137 164 145 158 150 151 11 TD Yield Strength (ppi)167 144 148 150 171 156 12 MD Break Strength (ppi)176 205 188 233 183 197 23 TD Break Strength (ppi)185 172 176 203 192 186 12 MD Yield Elongation (%)21 22 21 23 19 21 1 TD Yield Elongation (%)17 19 17 17 16 17 1 MD Break Elongation (%)429 444 531 432 500 467 46 TD Break Elongation (%)559 552 599 626 562 580 32 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)133 128 131 134 129 131 2 MD Machine Direction TD Transverse Direction Page 4 of 4 Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.com cc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:23337 Material(s) Tested:Two, Agru 60 mil MicroSpike HDPE Geomembrane(s) Test(s) Requested:Thickness (ASTM D 5994) Asperity Height (ASTM D 7466) Density (ASTM D 1505) Carbon Black Content (ASTM D 4218)Carbon Dispersion (ASTM D 5596)Tensile Properties (ASTM D 6693) Puncture Strength (ASTM D 4833) If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh Patel Laboratory Manager Geosynthetic Services Division www.GeosyntheticTesting.com *Signature is on file August 19, 2016 Page 1 of 3 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16B003037 TRI Log #: 23337 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)64 62 62 61 67 66 60 62 69 62 63 3 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 26 27 26 27 28 26 26 25 29 30 27 1 Asperity Height (mils) - Side B 29 27 29 27 27 27 30 28 29 29 28 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.945 0.945 0.945 0.945 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.35 2.40 2.38 0.04 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)156 152 169 177 140 159 15 TD Yield Strength (ppi)193 161 164 152 201 174 21 MD Break Strength (ppi)142 172 200 224 163 180 32 TD Break Strength (ppi)162 113 179 162 162 156 25 MD Yield Elongation (%)24 21 23 23 23 23 1 TD Yield Elongation (%)18 18 20 18 18 18 1 MD Break Elongation (%)373 475 432 408 467 431 42 TD Break Elongation (%)465 152 550 539 437 429 162 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)126 130 125 128 123 127 3 MD Machine Direction TD Transverse Direction Page 2 of 3 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16B003135 TRI Log #: 23337 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)63 62 61 62 61 63 63 62 67 65 63 2 61 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 25 26 31 29 24 24 32 29 33 30 28 3 Asperity Height (mils) - Side B 30 29 29 30 29 29 29 30 31 28 29 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.942 0.942 0.942 0.942 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.42 2.35 2.39 0.05 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)149 162 145 141 146 149 8 TD Yield Strength (ppi)151 150 170 146 140 151 11 MD Break Strength (ppi)181 185 193 163 166 178 13 TD Break Strength (ppi)166 200 199 165 166 179 19 MD Yield Elongation (%)22 22 23 21 22 22 1 TD Yield Elongation (%)17 20 19 18 20 19 1 MD Break Elongation (%)512 449 474 455 430 464 31 TD Break Elongation (%)529 602 575 485 536 545 45 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)133 136 138 132 132 134 3 MD Machine Direction TD Transverse Direction Page 3 of 3 Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.com cc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:23376 Material(s) Tested:Two, Agru 60 mil MicroSpike HDPE Geomembrane(s) Test(s) Requested:Thickness (ASTM D 5994) Asperity Height (ASTM D 7466) Density (ASTM D 1505) Carbon Black Content (ASTM D 4218)Carbon Dispersion (ASTM D 5596)Tensile Properties (ASTM D 6693) Puncture Strength (ASTM D 4833) If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh Patel Laboratory Manager Geosynthetic Services Division www.GeosyntheticTesting.com *Signature is on file August 22, 2016 Page 1 of 3 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16B003143 TRI Log #: 23376 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)61 61 64 61 65 66 64 64 62 61 63 2 61 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 29 29 30 27 29 29 31 28 30 30 29 1 Asperity Height (mils) - Side B 30 29 25 30 29 28 28 30 27 30 29 2 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.943 0.943 0.943 0.943 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.42 2.43 2.43 0.01 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)155 155 153 145 166 155 7 TD Yield Strength (ppi)155 172 169 152 159 161 9 MD Break Strength (ppi)185 182 186 191 182 185 4 TD Break Strength (ppi)183 221 215 174 199 198 20 MD Yield Elongation (%)22 21 20 22 21 21 1 TD Yield Elongation (%)19 17 18 16 18 18 1 MD Break Elongation (%)471 444 491 467 411 457 31 TD Break Elongation (%)559 611 603 543 585 580 29 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)140 130 131 132 127 132 5 MD Machine Direction TD Transverse Direction Page 2 of 3 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16B003151 TRI Log #: 23376 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)66 63 64 63 60 60 60 61 61 61 62 2 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 20 23 29 29 34 31 31 29 31 29 29 4 Asperity Height (mils) - Side B 28 25 27 27 25 30 28 31 29 31 28 2 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.943 0.943 0.943 0.943 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.39 2.38 2.39 0.01 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)147 166 148 165 148 155 10 TD Yield Strength (ppi)150 152 163 177 168 162 11 MD Break Strength (ppi)196 201 163 236 188 197 26 TD Break Strength (ppi)486 537 596 558 623 560 53 MD Yield Elongation (%)22 23 20 23 22 22 1 TD Yield Elongation (%)19 17 18 17 17 18 1 MD Break Elongation (%)462 488 449 506 488 479 23 TD Break Elongation (%)486 537 596 558 623 560 53 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)133 125 132 128 125 129 4 Page 3 of 3 Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.com cc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:23497 Material(s) Tested:Three, Agru 60 mil MicroSpike HDPE Geomembrane Test(s) Requested:Thickness (ASTM D 5994) Asperity Height (ASTM D 7466) Density (ASTM D 1505) Carbon Black Content (ASTM D 4218)Carbon Dispersion (ASTM D 5596)Tensile Properties (ASTM D 6693) Puncture Strength (ASTM D 4833) If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh Patel Laboratory Manager Geosynthetic Services Division www.GeosyntheticTesting.com *Signature is on file August 24, 2016 Page 1 of 4 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16B003159 TRI Log #: 23497 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)62 63 65 64 69 69 61 61 63 65 64 3 61 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 29 29 31 32 31 30 36 34 31 26 31 3 Asperity Height (mils) - Side B 29 29 30 29 27 29 30 29 29 30 29 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.943 0.943 0.943 0.943 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.36 2.45 2.41 0.06 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)148 173 139 153 144 151 13 TD Yield Strength (ppi)155 147 155 179 140 155 15 MD Break Strength (ppi)213 250 186 185 186 204 28 TD Break Strength (ppi)198 181 179 207 175 188 14 MD Yield Elongation (%)23 23 23 22 23 23 0 TD Yield Elongation (%)18 16 18 18 17 17 1 MD Break Elongation (%)480 471 436 453 464 461 17 TD Break Elongation (%)596 587 534 545 569 566 27 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)141 143 136 135 133 138 4 MD Machine Direction TD Transverse Direction Page 2 of 4 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16B003167 TRI Log #: 23497 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)65 68 63 61 66 67 68 67 61 60 65 3 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 33 31 32 33 29 28 30 31 33 30 31 2 Asperity Height (mils) - Side B 27 30 30 32 30 30 28 27 30 28 29 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.943 0.944 0.944 0.944 0.001 Carbon Black Content (ASTM D 4218) % Carbon Black 2.32 2.25 2.29 0.05 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)149 168 173 153 168 162 11 TD Yield Strength (ppi)177 154 159 172 171 167 10 MD Break Strength (ppi)197 197 196 188 208 197 7 TD Break Strength (ppi)186 192 169 189 208 189 14 MD Yield Elongation (%)22 22 21 23 23 22 1 TD Yield Elongation (%)18 17 18 19 17 18 1 MD Break Elongation (%)497 452 462 449 465 465 19 TD Break Elongation (%)532 601 511 526 602 554 44 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)144 139 140 138 134 139 4 MD Machine Direction TD Transverse Direction Page 3 of 4 GEOMEMBRANE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Agru 60 mil MicroSpike HDPE Geomembrane Sample Identification: G16B003175 TRI Log #: 23497 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5994) Thickness (mils)62 61 61 67 66 69 68 66 60 65 64 3 60 << min Asperity Height (ASTM D 7466) Asperity Height (mils) - Side A 30 29 33 30 32 30 32 33 33 32 31 2 Asperity Height (mils) - Side B 29 29 32 29 32 30 31 30 31 33 30 1 Side A - Shiny Side Side B - Dull Side Density (ASTM D 1505) Density (g/cm3)0.944 0.944 0.944 0.944 0.000 Carbon Black Content (ASTM D 4218) % Carbon Black 2.34 2.33 2.34 0.01 Carbon Black Dispersion (ASTM D 5596) Rating - 1st field view 1 1 1 1 1 Rating - 2nd field view 1 1 1 1 1 Tensile Properties (ASTM D 6693, 2 ipm strain rate) MD Yield Strength (ppi)149 142 163 150 163 153 9 TD Yield Strength (ppi)165 186 156 162 173 168 12 MD Break Strength (ppi)179 172 209 168 216 189 22 TD Break Strength (ppi)186 211 143 186 215 188 29 MD Yield Elongation (%)22 22 21 21 24 22 1 TD Yield Elongation (%)18 16 19 16 18 17 1 MD Break Elongation (%)435 479 466 425 488 459 27 TD Break Elongation (%)552 594 427 570 619 552 75 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs)131 130 129 127 130 130 2 MD Machine Direction TD Transverse Direction Page 4 of 4 Appendix C-3 Destructive Seam Testing Results Appendix C-4 Records and Logs Appendix C-5 HDPE Geomembrane As-Built Record Drawings Appendix D Geocomposite Layer Appendix D-1 MQC Certifications Typical Roll Size: 14.5 ft X 170 ft Ref. : WM Great Oak Landfill, NC Customer P.O. # Product : TN 330-2-8 Test Method Unit Value Qualifier % 95 Minimum ASTM D 5199 mil 250 MAV6 ASTM D 4218 % 2.0 - 3.0 Range ASTM D 7179 lbs/in 55 MAV ASTM D 7361 N/A 1.1 MAV ASTM D 6364 lb/ft2 25,000 MAV ASTM D 12382 g/10 min 1.0 Maximum ASTM D 1505 g/cm3 0.94 MAV ASTM D 7005 lb/in 1.0 MAV ASTM D 4716 m2/sec 1.2 x 10 -3 MAV ASTM D 4716 m2/sec 2.5 x 10 -4 MAV ASTM D 5261 oz/yd2 8.0 MARV5 ASTM D 4632 lbs 200 MARV ASTM D 4632 % 50 MARV ASTM D 4533 lbs 80 MARV ASTM D 4833 lbs 110 MARV ASTM D 4491 cm/sec 0.30 MARV ASTM D 4751 US Sieve 80 MaxARV ASTM D 4355 %/hrs 70/500 MARV Notes: 1a. 1b. 2. 3. 4. 5. 6. We hereby certify that the TN 330-2-8 drainage geocomposite, meets or exceeds the project requirements as stated in the specifications. The properties listed in this section are: Transmissivity1b Geotextile3 & 4 August 30, 2016 Ply Adhesion Grab Strength Grab Elongation Thickness Trap Tear Strength Density Composite Carbon Black Tensile Strength Melt Flow Property Transmissivity1a Fabric Weight Geonet3 Polymer Composition Creep Reduction @ 15,000 psf Compression Strength Geotextile and Geonet properties are prior to lamination. Geotextile data is provided by the supplier. MARV is statistically defined as mean minus two standard deviations and it is the value which is exceeded by 97.5% of all the test data. Rajesh Patel Puncture Resistance Condition 190/2.16 Waste Management Rajesh Patel QA Manager UV Resistance Permeability AOS Minium average value Transmissivity measured using water at 21 +2 o C (70 +4 o F) with a gradient of 0.3 and a confining pressure of 810 psf between soil & geomembrane after 100 hours. Transmissivity measured using water at 21 +2 o C (70 +4 o F) with a gradient of 0.3 and a confining pressure of 14,370 psf between soil & geomembrane after 100 hours. Sincerely, 571 Industrial Parkway, Commerce, GA 30529 * Ph : 706-336-7000 * Fax : 706-336-7007 * Email : contact@skaps.com Ref. : WM Great Oak Landfill, NC Customer P.O. # Product : TN 330-2-8 Test Method Unit Value Qualifier ASTM D 5199 mil 250 MAV6 ASTM D 4218 % 2.0 - 3.0 Range ASTM D 7179 lbs/in 55 MAV ASTM D 12382 g/10 min 1.0 Maximum ASTM D 1505 g/cm3 0.94 MAV ASTM D 7005 lb/in 1.0 MAV ASTM D 4716 m2/sec 1.2 x 10 -3 MAV ASTM D 4716 m2/sec 2.5 x 10 -4 MAV ASTM D 5261 oz/yd2 8.0 MARV5 ASTM D 4632 lbs 200 MARV ASTM D 4632 % 50 MARV ASTM D 4533 lbs 80 MARV ASTM D 4833 lbs 110 MARV ASTM D 4491 cm/sec 0.30 MARV ASTM D 4751 US Sieve 80 MaxARV ASTM D 4355 %/hrs 70/500 MARV Notes: 1a. 1b. 2. 3. 4. 5. 6. Waste Management Rajesh Patel QA Manager UV Resistance Permeability AOS Minium average value Transmissivity measured using water at 21 +2 o C (70 +4 o F) with a gradient of 0.3 and a confining pressure of 810 psf between soil & geomembrane after 100 hours. Transmissivity measured using water at 21 +2 o C (70 +4 o F) with a gradient of 0.3 and a confining pressure of 14,370 psf between soil & geomembrane after 100 hours. Sincerely, Geotextile and Geonet properties are prior to lamination. Geotextile data is provided by the supplier. MARV is statistically defined as mean minus two standard deviations and it is the value which is exceeded by 97.5% of all the test data. Rajesh Patel Puncture Resistance Condition 190/2.16 Melt Flow Property Transmissivity1a Fabric Weight Geonet3 Grab Elongation Thickness Trap Tear Strength Density Composite Carbon Black Tensile Strength We hereby certify that the TN 330-2-8 drainage geocomposite, meets or exceeds the project requirements as stated in the specifications. The properties listed in this section are: Transmissivity1b Geotextile3 & 4 August 9, 2016 Ply Adhesion Grab Strength 571 Industrial Parkway, Commerce, GA 30529 * Ph : 706-336-7000 * Fax : 706-336-7007 * Email : contact@skaps.com Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " 71 2 2 1 0 1 0 0 0 1 2 . 5 8 3 . 0 7 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 3 5 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 0 2 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 0 3 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 0 4 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 0 5 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 0 6 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 0 7 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 0 8 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 0 9 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 0 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 1 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 2 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 3 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 4 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 5 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 6 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 7 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 8 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 1 9 2. 5 8 3 . 0 7 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 1 35 2 2 . 4 2 1 3 5 71 2 2 1 0 1 0 0 2 0 2 . 5 5 3 . 2 5 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 3 5 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 2 1 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 2 2 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 2 3 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 2 4 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 0 2 5 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 2 6 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 2 7 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 2 8 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 2 9 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 0 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 1 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 2 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 3 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 4 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 5 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 6 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 7 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 8 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 3 9 2. 5 5 3 . 2 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 5 2 . 2 7 1 2 7 71 2 2 1 0 1 0 0 4 0 2 . 9 5 3 . 1 3 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 3 6 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 4 1 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 4 2 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 4 3 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 4 4 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 4 5 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 4 6 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 4 7 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 4 8 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 0 4 9 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 0 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 1 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 2 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 3 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 4 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 5 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 6 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 7 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 8 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 5 9 2. 9 5 3 . 1 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 7 36 0 2 . 6 6 1 3 4 71 2 2 1 0 1 0 0 6 0 2 . 8 0 2 . 3 2 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 3 5 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 1 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 2 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 3 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 4 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 5 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 6 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 7 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 8 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 6 9 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 0 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 1 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 2 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 0 7 3 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 4 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 5 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 6 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 7 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 8 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 7 9 2. 8 0 2 . 3 2 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 2 35 3 2 . 7 7 1 3 2 71 2 2 1 0 1 0 0 8 0 2 . 4 6 3 . 8 4 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 3 5 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 1 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 2 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 3 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 4 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 5 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 6 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 7 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 8 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 8 9 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 0 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 1 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 2 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 3 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 4 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 5 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 6 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 0 9 7 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 8 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 0 9 9 2. 4 6 3 . 8 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 8 35 8 2 . 4 8 1 2 9 71 2 2 1 0 1 0 1 0 0 3 . 3 5 3 . 0 9 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 3 5 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 1 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 2 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 3 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 4 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 5 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 6 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 7 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 8 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 0 9 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 0 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 1 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 2 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 3 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 4 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 5 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 6 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 7 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 8 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 1 9 3. 3 5 3 . 0 9 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 3 2 . 6 7 1 3 3 71 2 2 1 0 1 0 1 2 0 3 . 0 7 2 . 8 0 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 3 6 1 2 . 6 9 1 3 7 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 1 2 1 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 2 2 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 2 3 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 2 4 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 2 5 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 2 6 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 2 7 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 2 8 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 2 9 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 0 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 1 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 2 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 3 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 4 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 5 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 6 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 7 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 8 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 3 9 3. 0 7 2 . 8 0 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 0 36 1 2 . 6 9 1 3 7 71 2 2 1 0 1 0 1 4 0 3 . 3 9 3 . 6 3 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 3 5 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 4 1 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 4 2 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 4 3 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 4 4 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 1 4 5 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 4 6 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 4 7 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 4 8 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 4 9 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 0 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 1 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 2 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 3 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 4 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 5 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 6 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 7 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 8 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 5 9 3. 3 9 3 . 6 3 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 4 35 4 2 . 6 0 1 2 8 71 2 2 1 0 1 0 1 6 0 3 . 5 6 2 . 7 5 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 3 4 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 6 1 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 6 2 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 6 3 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 6 4 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 6 5 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 6 6 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 6 7 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 6 8 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 1 6 9 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 0 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 1 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 2 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 3 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 4 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 5 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 6 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 7 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 8 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 7 9 3. 5 6 2 . 7 5 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 2 9 34 9 2 . 3 4 1 3 0 71 2 2 1 0 1 0 1 8 0 2 . 3 0 3 . 3 4 1. 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 3 5 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 1 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 2 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 3 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 4 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 5 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 6 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 7 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 8 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 8 9 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 0 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 1 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 2 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 1 9 3 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 4 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 5 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 6 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 7 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 8 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 1 9 9 2. 3 0 3 . 3 4 1 . 7 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 3 35 7 2 . 5 1 1 3 9 71 2 2 1 0 1 0 2 0 0 3 . 6 4 2 . 8 3 1. 6 1 x 1 0 ⁻ ³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 3 5 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 1 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 2 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 3 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 4 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 5 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 6 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 7 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 8 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 0 9 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 0 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 1 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 2 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 3 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 4 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 5 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ CP C X 8 0 5 1 5 5 0 . 9 5 3 5 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 6 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0. 9 5 4 0 35 2 2 . 7 0 1 3 6 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 2 1 7 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 8 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 1 9 3. 6 4 2 . 8 3 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 2 2 . 7 0 1 3 6 71 2 2 1 0 1 0 2 2 0 3 . 8 4 3 . 4 4 1. 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 3 5 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 1 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 2 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 3 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 4 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 5 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 6 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 7 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 8 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 2 9 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 0 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 1 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 2 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 3 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 4 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 5 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 6 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 7 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 8 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 3 9 3. 8 4 3 . 4 4 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 4 35 0 2 . 5 6 1 3 8 71 2 2 1 0 1 0 2 4 0 3 . 6 0 3 . 7 7 1. 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 3 5 4 2 . 3 8 1 3 1 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 2 4 1 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 4 2 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 4 3 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 4 4 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 4 5 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 4 6 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 4 7 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 4 8 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 4 9 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 0 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 1 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 2 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 3 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 4 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 5 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 6 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 7 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 8 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 5 9 3. 6 0 3 . 7 7 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 4 2 . 3 8 1 3 1 71 2 2 1 0 1 0 2 6 0 3 . 6 6 2 . 7 1 1. 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 3 5 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 6 1 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 6 2 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 6 3 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 6 4 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 2 6 5 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 6 6 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 6 7 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 6 8 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 6 9 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 0 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 1 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 2 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 3 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 4 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 5 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 6 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 7 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 8 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 7 9 3. 6 6 2 . 7 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 8 35 7 2 . 3 2 1 2 8 71 2 2 1 0 1 0 2 8 0 3 . 4 0 3 . 8 0 1. 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 3 5 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 8 1 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 8 2 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 8 3 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 8 4 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 8 5 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 8 6 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 8 7 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 8 8 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 2 8 9 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 0 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 1 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 2 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 3 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 4 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 5 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 6 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 7 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 8 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 2 9 9 3. 4 0 3 . 8 0 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 3 35 9 2 . 2 8 1 3 4 71 2 2 1 0 1 0 3 0 0 3 . 8 2 3 . 3 8 1. 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 3 5 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 1 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 2 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 3 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 4 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 5 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 6 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 7 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 8 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 0 9 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 0 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 1 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 2 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 3 1 3 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 4 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 5 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 6 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 7 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 8 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 1 9 3. 8 2 3 . 3 8 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 9 35 5 2 . 7 5 1 3 0 71 2 2 1 0 1 0 3 2 0 2 . 7 6 3 . 8 1 1. 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 3 5 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 1 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 2 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 3 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 4 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 5 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 6 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 7 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 8 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 2 9 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 0 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 1 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 2 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 3 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 4 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 5 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 6 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 3 3 7 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 8 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 3 9 2. 7 6 3 . 8 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 6 35 1 2 . 4 5 1 3 9 71 2 2 1 0 1 0 3 4 0 3 . 7 7 3 . 3 1 1. 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 3 5 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 1 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 2 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 3 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 4 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 5 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 6 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 7 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 8 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 4 9 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 0 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 1 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 2 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 3 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 4 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 5 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 6 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 7 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 8 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 5 9 3. 7 7 3 . 3 1 1 . 6 1 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 2 35 8 2 . 3 6 1 2 9 71 2 2 1 0 1 0 3 6 0 3 . 1 4 2 . 6 6 1. 7 9 x 1 0 ⁻ ³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 3 6 2 2 . 7 6 1 3 1 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 3 6 1 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 6 2 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 6 3 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 6 4 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 6 5 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 6 6 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 6 7 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 6 8 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 6 9 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 0 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 1 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 2 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 3 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 4 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 5 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 6 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 7 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 8 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 7 9 3. 1 4 2 . 6 6 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 5 36 2 2 . 7 6 1 3 1 71 2 2 1 0 1 0 3 8 0 2 . 7 9 2 . 4 9 1. 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 3 5 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 8 1 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 8 2 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 8 3 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 8 4 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 3 8 5 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 8 6 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 8 7 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 8 8 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 8 9 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 0 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 1 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 2 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 3 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 4 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 5 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 6 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 7 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 8 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 3 9 9 2. 7 9 2 . 4 9 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 7 35 7 2 . 4 6 1 3 3 71 2 2 1 0 1 0 4 0 0 2 . 4 7 2 . 8 0 1. 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 3 5 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 0 1 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 0 2 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 0 3 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 0 4 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 0 5 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 0 6 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 0 7 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 0 8 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 4 0 9 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 0 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 1 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 2 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 3 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 4 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 5 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 6 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 7 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 8 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 1 9 2. 4 7 2 . 8 0 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 3 1 35 3 2 . 4 4 1 3 5 71 2 2 1 0 1 0 4 2 0 2 . 9 2 3 . 1 5 1. 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 3 5 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 1 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 2 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 3 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 4 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 5 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 6 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 7 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 8 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 2 9 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 0 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 1 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 2 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 4 3 3 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ DO W X 0 6 2 1 1 1 0 . 9 5 4 0 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 4 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0. 9 5 5 1 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 5 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 6 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 7 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 8 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 3 9 2. 9 2 3 . 1 5 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 35 5 2 . 5 0 1 3 2 71 2 2 1 0 1 0 4 4 0 2 . 3 5 2 . 5 2 1. 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 3 5 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 1 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 2 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 3 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 4 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 5 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 6 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 7 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 8 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 4 9 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 0 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 1 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 2 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 3 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 4 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 5 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 6 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 4 5 7 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 8 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 5 9 2. 3 5 2 . 5 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 9 35 9 2 . 6 3 1 3 6 71 2 2 1 0 1 0 4 6 0 3 . 4 7 3 . 6 2 1. 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 3 5 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 1 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 2 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 3 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 4 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 5 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 6 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 7 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 8 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 6 9 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 0 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 1 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 2 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 3 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 4 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 5 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 6 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 7 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 8 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 7 9 3. 4 7 3 . 6 2 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 1 2 . 5 2 1 3 8 71 2 2 1 0 1 0 4 8 0 2 . 9 9 2 . 5 4 1. 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 3 5 8 2 . 7 3 1 2 7 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 4 8 1 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 8 2 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 8 3 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 8 4 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 8 5 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 8 6 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 8 7 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 8 8 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 8 9 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 0 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 1 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 2 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 3 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 4 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 5 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 6 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 7 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 8 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 4 9 9 2. 9 9 2 . 5 4 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 8 2 . 7 3 1 2 7 71 2 2 1 0 1 0 5 0 0 3 . 3 8 2 . 3 1 1. 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 3 5 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 0 1 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 0 2 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 0 3 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 0 4 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 5 0 5 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 0 6 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 0 7 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 0 8 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 0 9 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 0 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 1 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 2 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 3 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 4 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 5 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 6 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 7 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 8 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 1 9 3. 3 8 2 . 3 1 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 7 35 4 2 . 3 9 1 3 7 71 2 2 1 0 1 0 5 2 0 2 . 6 7 2 . 3 9 1. 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 3 5 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 2 1 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 2 2 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 2 3 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 2 4 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 2 5 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 2 6 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 2 7 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 2 8 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 5 2 9 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 0 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 1 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 2 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 3 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 4 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 5 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 6 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 7 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 8 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 3 9 2. 6 7 2 . 3 9 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 5 35 2 2 . 3 0 1 3 2 71 2 2 1 0 1 0 5 4 0 2 . 3 1 3 . 1 6 1. 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 3 6 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 1 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 2 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 3 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 4 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 5 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 6 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 7 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 8 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 4 9 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 0 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 1 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 2 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 5 5 3 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 4 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 5 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 6 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 7 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 8 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 5 9 2. 3 1 3 . 1 6 1 . 7 9 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 36 0 2 . 4 0 1 3 8 71 2 2 1 0 1 0 5 6 0 2 . 3 9 3 . 2 9 1. 6 7 x 1 0 ⁻ ³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 3 5 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 1 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 2 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 3 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 4 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 5 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 6 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 7 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 8 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 6 9 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 0 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 1 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 2 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 3 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 4 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 5 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 6 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 5 7 7 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 8 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 7 9 2. 3 9 3 . 2 9 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 8 2 . 5 5 1 3 3 71 2 2 1 0 1 0 5 8 0 2 . 8 4 3 . 6 4 1. 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 3 4 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 1 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 2 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 3 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 4 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 5 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 6 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 7 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 8 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 8 9 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 0 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 1 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 2 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 3 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 4 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 5 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 6 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 7 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 8 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 5 9 9 2. 8 4 3 . 6 4 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 8 34 9 2 . 4 9 1 2 9 71 2 2 1 0 1 0 6 0 0 2 . 7 0 3 . 5 6 1. 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 3 5 4 2 . 3 3 1 3 5 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 6 0 1 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 0 2 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 0 3 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 0 4 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 0 5 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 0 6 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 0 7 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 0 8 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 0 9 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 0 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 1 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 2 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 3 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 4 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 5 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 6 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 7 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 8 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 1 9 2. 7 0 3 . 5 6 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 6 35 4 2 . 3 3 1 3 5 71 2 2 1 0 1 0 6 2 0 2 . 4 2 2 . 8 7 1. 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 3 6 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 2 1 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 2 2 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 2 3 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 2 4 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 6 2 5 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 2 6 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 2 7 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 2 8 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 2 9 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 0 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 1 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 2 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 3 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 4 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 5 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 6 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 7 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 8 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 3 9 2. 4 2 2 . 8 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 1 36 0 2 . 3 5 1 3 0 71 2 2 1 0 1 0 6 4 0 2 . 8 8 2 . 3 7 1. 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 3 5 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 4 1 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 4 2 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 4 3 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 4 4 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 4 5 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 4 6 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 4 7 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 4 8 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 6 4 9 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 0 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 1 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 2 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 3 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 4 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 5 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 6 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 7 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 8 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 5 9 2. 8 8 2 . 3 7 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 4 35 6 2 . 4 3 1 2 7 71 2 2 1 0 1 0 6 6 0 2 . 3 7 3 . 8 3 1. 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 3 5 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 1 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 2 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 3 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 4 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 5 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 6 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 7 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 8 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 6 9 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 0 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 1 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 2 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : Pr o j ec t : Si d e " A " S i d e " B " T en s i l e St r e n g th MD (lb /in ) Ge o c o m p o s i t e T ra n s m i s s i v i t y (m 2 /s e c ) Ro l l N u m b e r Th i c k n e s s (m i l s ) Ca r b o n Bl a c k (% ) Pl y A d h e s i o n (l b / i n ) W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Re s i n L o t Nu m b e r T ra n s m i s s i v i t y (m 2 /s e c ) De n s i t y (g m / c c ) Ge o n e t WM G r e a t O a k L a n d f i l l , N C T N 3 3 0 - 2 - 8 71 2 2 1 0 1 0 6 7 3 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 4 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 5 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 6 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 7 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 8 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 7 9 2. 3 7 3 . 8 3 1 . 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 5 0 35 2 2 . 7 2 1 3 1 71 2 2 1 0 1 0 6 8 0 3 . 7 2 3 . 3 5 1. 6 7 x 1 0 ⁻³ EC U X 8 8 0 4 9 2 0 . 9 5 4 3 3 5 7 2 . 6 1 1 3 7 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Client: Job #:7122 Project: Product: Test Configuration: Normal Load:810 Gradient:0.3 Seating Time:100 Hours Flow Direction:MD Test Results: 71221010001 71221010200 ASTM D 4716 1.7 x 10⁻³ Waste Management Test Information: Roll No. WM Great Oak Landfill, NC Geocomposite Transmissivity Test 810 0.3 TN 330-2-8 Soil Geocomposite Geomembrane Boundary Conditions: GradientPressure, psf 100 Hours 1.61 x 10⁻³ Transmissivity, m2/sec 571 Industrial Parkway, Commerce, GA 30529 * Ph : 706-336-7000 * Fax : 706-336-7007 * Email : contact@skaps.com Client: Job #:7122 Project: Product: Test Configuration: Normal Load:14370 Gradient:0.3 Seating Time:100 Hours Flow Direction:MD Test Results: 71221010001 71221010200 ASTM D 4716 9.31 x 10⁻⁴ Waste Management Test Information: Roll No. Soil Geocomposite Geomembrane Geocomposite Transmissivity Test 0.3 9.19 x 10⁻⁴ TN 330-2-8 Transmissivity, m2/secGradient Boundary Conditions: Pressure, psf 100 Hours 14370 WM Great Oak Landfill, NC 571 Industrial Parkway, Commerce, GA 30529 * Ph : 706-336-7000 * Fax : 706-336-7007 * Email : contact@skaps.com Client: Job #:7122 Project: Product: Test Configuration: Normal Load:810 Gradient:0.3 Seating Time:100 Hours Flow Direction:MD Test Results: 71221010400 71221010600 Transmissivity, m2/sec 2.04 x 10⁻³ 1.92 x 10⁻³ GCL Geocomposite Geomembrane Boundary Conditions: GradientPressure, psf 100 Hours ASTM D 4716 Waste Management Test Information: Roll No. WM Great Oak Landfill, NC Geocomposite Transmissivity Test 810 0.3 TN 330-2-8 571 Industrial Parkway, Commerce, GA 30529 * Ph : 706-336-7000 * Fax : 706-336-7007 * Email : contact@skaps.com Client: Job #:7122 Project: Product: Test Configuration: Normal Load:14370 Gradient:0.3 Seating Time:100 Hours Flow Direction:MD Test Results: 71221010400 71221010600 WM Great Oak Landfill, NC Transmissivity, m2/secGradient Boundary Conditions: Pressure, psf 100 Hours 14370 1.42 x 10⁻³ 1.26 x 10⁻³ ASTM D 4716 Waste Management Test Information: Roll No. GCL Geocomposite Geomembrane Geocomposite Transmissivity Test 0.3 TN 330-2-8 571 Industrial Parkway, Commerce, GA 30529 * Ph : 706-336-7000 * Fax : 706-336-7007 * Email : contact@skaps.com Cu s t o m e r N a m e : Wa s t e M a n a g e m e n t Pr o j e c t N a m e : WM G r e a t O a k L a n d f i l l , N C Ge o c o m p o s i t e M a n u f a c t u r e r : SK A P S I n d u s t r i e s Ge o c o m p o s i t e P r o d u c t i o n P l a n t : Co m m e r c e , G A Ge o c o m p o s i t e B r a n d N a m e : TN 3 3 0 - 2 - 8 De n s i t y A S T M D 1 5 0 5 g m / c c 0 . 9 4 8 0 0 . 9 4 8 2 Me l t f l o w I n d e x AS T M D 1 2 3 8 (a ) gm / 1 0 m i n 0 . 1 9 0 . 2 0 De n s i t y A S T M D 1 5 0 5 g m / c c 0 . 9 4 9 0 0 . 9 4 8 7 Me l t f l o w I n d e x AS T M D 1 2 3 8 (a ) gm / 1 0 m i n 0 . 1 1 0 . 1 4 De n s i t y A S T M D 1 5 0 5 g m / c c 0 . 9 5 0 0 0 . 9 4 9 8 Me l t f l o w I n d e x AS T M D 1 2 3 8 (a ) gm / 1 0 m i n 0 . 1 0 0 . 1 2 * N o r e c l a i m e d p o l y m e r i s a d d e d t o t h e r e s i n d u r i n g t h e m a nu f a c t u r e o f t h e g e o n e t c o m p o n e n t s a s s i g n e d t o t h i s p r o j e c t . (a ) C o n d i t i o n 1 9 0 / 2 . 1 6 * D a t a f r o m S K A P S Q u a l i t y C o n t r o l Ex x o n M o b i l C h e m i c a l E C U X 8 8 0 4 9 2 DO W X 0 6 2 1 1 1 T es t Me t h o d Un i t s Re s i n Lo t N u m b e r CP C X 8 0 5 1 5 5 Un i o n C a r b i d e PO L Y E T H Y L E N E R E S I N C E R T I F I C A T I O N T ested Value* Pr o p e r t y W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f e r e n c e d p r o d u c t / p r o j e c t : Ch e v r o n P h i l l i p s Ch e m i c a l C o m p a n y Re s i n Ma n u f a c t u r e r Re s i n Ma n u f a c t u r e r Va l u e 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : TN 3 3 0 - 2 - 8 Pr o j ec t : WM G r e a t O a k L a n d f i l l , N C Si d e A 8 . 2 4 2 3 2 6 8 2 4 0 8 2 9 9 1 1 6 1 3 4 8 0 0 . 4 4 Si d e B 8 . 3 0 2 2 9 7 4 2 4 2 7 8 9 6 1 1 2 1 3 7 8 0 0 . 4 4 Si d e A 8 . 3 0 2 2 9 7 4 2 4 2 7 8 9 6 1 1 2 1 3 7 8 0 0 . 4 4 Si d e B 8 . 3 1 2 3 1 7 1 2 4 4 8 1 9 7 1 1 8 1 3 2 8 0 0 . 4 4 Si d e A 8 . 3 5 2 2 5 7 0 2 3 6 7 5 9 5 1 0 7 1 3 5 8 0 0 . 4 2 Si d e B 8 . 4 9 2 2 8 6 7 2 3 2 8 0 1 0 2 1 1 1 1 4 0 8 0 0 . 4 2 Si d e A 8 . 3 0 2 2 9 7 4 2 4 2 7 8 9 6 1 1 2 1 3 7 8 0 0 . 4 4 Si d e B 8 . 3 1 2 3 1 7 1 2 4 4 8 1 9 7 1 1 8 1 3 2 8 0 0 . 4 4 Si d e A 8 . 3 1 2 3 1 7 1 2 4 4 8 1 9 7 1 1 8 1 3 2 8 0 0 . 4 4 Si d e B 8 . 4 6 2 3 4 6 9 2 4 5 7 6 1 0 1 1 0 8 1 3 6 8 0 0 . 4 2 Si d e A 8 . 2 2 2 2 7 6 6 2 3 8 8 5 1 0 4 1 0 6 1 3 0 8 0 0 . 4 2 Si d e B 8 . 4 9 2 2 8 6 7 2 3 2 8 0 1 0 2 1 1 1 1 4 0 8 0 0 . 4 2 Si d e A 8 . 4 3 2 3 2 6 5 2 3 2 8 4 1 0 0 1 0 9 1 3 3 8 0 0 . 4 3 Si d e B 8 . 6 0 2 3 0 6 8 2 3 1 7 8 9 7 1 1 7 1 4 0 8 0 0 . 4 1 Si d e A 8 . 5 6 2 3 1 7 2 2 3 9 7 6 1 0 3 1 0 5 1 3 6 8 0 0 . 4 3 Si d e B 8 . 4 5 2 3 3 6 6 2 3 3 8 3 9 8 1 1 3 1 3 2 8 0 0 . 4 3 Si d e A 8 . 1 1 2 3 4 7 5 2 4 5 8 5 1 0 5 1 1 4 1 3 8 8 0 0 . 4 3 Si d e B 8 . 2 1 2 2 9 7 1 2 3 3 7 9 1 0 2 1 0 4 1 3 7 8 0 0 . 4 3 Si d e A 8 . 4 5 2 3 3 6 6 2 3 3 8 3 9 8 1 1 3 1 3 2 8 0 0 . 4 3 Si d e B 8 . 6 0 2 3 0 6 8 2 3 1 7 8 9 7 1 1 7 1 4 0 8 0 0 . 4 1 Si d e A 8 . 3 6 2 2 8 7 3 2 4 0 8 1 1 0 4 1 1 2 1 3 5 8 0 0 . 4 1 Si d e B 8 . 4 3 2 3 2 6 5 2 3 2 8 4 1 0 0 1 0 9 1 3 3 8 0 0 . 4 3 W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f er e n c e d p r o d u c t / p r o j e c t : 71 2 2 1 0 1 0 2 0 0 71 2 2 1 0 1 0 0 4 0 71 2 2 1 0 1 0 0 0 1 71 2 2 1 0 1 0 1 2 0 PERM-ABL cm/secAOS us sieve GR A B lb s . (X M D ) GR A B EL G % (X M D ) 71 2 2 1 0 1 0 0 8 0 T RA P lb s . (X M D ) PU N C T U R E lb s . 71 2 2 1 0 1 0 4 0 0 71 2 2 1 0 1 0 2 4 0 71 2 2 1 0 1 0 2 8 0 71 2 2 1 0 1 0 3 2 0 71 2 2 1 0 1 0 3 6 0 Ge o t e x t i l e C e r t i f i c a t i o n 71 2 2 1 0 1 0 1 6 0 GR A B lb s . (M D ) GR A B EL G % (M D ) TR A P lb s . (M D ) WE I G H T oz / y d 2 GE O C O M P RO L L # FA B R I C SI D E 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m Pr o d u c t : TN 3 3 0 - 2 - 8 Pr o j ec t : WM G r e a t O a k L a n d f i l l , N C W e h e r e b y c e r t i f y t h e f o l l o w i n g t e s t r e s u l t s f o r t h e a b o v e r e f er e n c e d p r o d u c t / p r o j e c t : PERM-ABL cm/secAOS us sieve GR A B lb s . (X M D ) GR A B EL G % (X M D ) T RA P lb s . (X M D ) PU N C T U R E lb s . Ge o t e x t i l e C e r t i f i c a t i o n GR A B lb s . (M D ) GR A B EL G % (M D ) TR A P lb s . (M D ) WE I G H T oz / y d 2 GE O C O M P RO L L # FA B R I C SI D E Si d e A 8 . 5 4 2 2 5 6 9 2 3 5 7 9 9 8 1 0 5 1 3 6 8 0 0 . 4 2 Si d e B 8 . 4 1 2 2 7 7 5 2 4 1 8 0 9 5 1 1 1 1 4 0 8 0 0 . 4 3 Si d e A 8 . 2 5 2 3 4 6 5 2 3 4 7 5 1 0 1 1 1 8 1 3 0 8 0 0 . 4 2 Si d e B 8 . 1 3 2 3 2 6 8 2 3 8 8 0 1 0 4 1 1 0 1 3 5 8 0 0 . 4 2 Si d e A 8 . 5 0 2 2 5 6 8 2 3 9 7 5 1 0 0 1 0 9 1 3 8 8 0 0 . 4 3 Si d e B 8 . 1 6 2 3 3 7 2 2 4 2 7 9 1 0 4 1 1 4 1 3 2 8 0 0 . 4 3 Si d e A 8 . 2 3 2 3 1 7 0 2 3 1 8 1 9 9 1 1 7 1 3 3 8 0 0 . 4 2 Si d e B 8 . 3 8 2 2 6 6 9 2 3 8 7 7 1 0 3 1 1 8 1 3 3 8 0 0 . 0 0 Si d e A 8 . 4 0 2 2 6 7 3 2 3 2 7 8 1 0 2 1 0 6 1 3 1 8 0 0 . 4 3 Si d e B 8 . 5 2 2 2 9 7 4 2 3 4 8 3 9 7 1 1 5 1 3 8 8 0 0 . 4 2 Si d e A 8 . 2 5 2 3 4 6 5 2 3 4 7 5 1 0 1 1 1 8 1 3 0 8 0 0 . 4 2 Si d e B 8 . 5 4 2 2 5 6 9 2 3 5 7 9 9 8 1 0 5 1 3 6 8 0 0 . 4 2 Si d e A 8 . 2 3 2 3 1 7 0 2 3 1 8 1 9 9 1 1 7 1 3 3 8 0 0 . 4 2 Si d e B 8 . 4 8 2 3 2 7 1 2 3 4 8 4 9 9 1 0 3 1 3 1 8 0 0 . 4 3 71 2 2 1 0 1 0 6 8 0 71 2 2 1 0 1 0 4 4 0 71 2 2 1 0 1 0 4 8 0 71 2 2 1 0 1 0 5 2 0 71 2 2 1 0 1 0 5 6 0 71 2 2 1 0 1 0 6 0 0 71 2 2 1 0 1 0 6 4 0 5 7 1 I n d u s t r i a l P a r k w a y , C o m m e r c e , G A 3 0 5 2 9 * P h : 7 0 6 - 3 3 6 - 7 0 0 0 * F a x : 7 0 6 - 3 3 6 - 7 0 0 7 * E m a i l : c o n t a c t @ s k a p s . c o m SKAPS Industries (Nonwoven Division)Sales Office: 335, Athena Drive Engineered Synthetic Product Inc.Athens, GA 30601 (U.S.A.)Phone: (770)564-1857 Phone (706) 354-3700 Fax (706) 354-3737 Fax: (770)564-1818 E-mail: contact@skaps.com Waste Management Ref : Great Oak LFPO : 1126001247 ASTM D 5261 oz/sy (g/m2)8.00 (271) ASTM D 4632 lbs (kN)200 (0.89) Grab Elongation ASTM D 4632 %50 Trapezoidal Tear ASTM D 4533 lbs (kN)80 (0.36) Puncture Resistance ASTM D 4833 lbs (kN) 110 (0.49) Permeability*ASTM D 4491 cm/sec 0.30 ASTM D 4751 US Sieve (mm)80 (0.18) UV Resistance ASTM D 4355 %/hrs 70/500 Notes: * At the time of manufacturing. Handling may change these properties. KOUROSH SABZEVARI QUALITY CONTROL MANAGER www.espgeosynthetics.com AOS* www.skaps.com Weight Grab Tensile This is to certify that SKAPS GE180 is a high quality needle-punched nonwoven geotextile made of 100%polypropylene staple fibers, randomly networked to form a high strength dimensionally stable fabric.SKAPS GE180 resists ultraviolet deterioration,rotting,biological degradation.The fabric is inert to commonly encountered soil chemicals.Polypropylene is stable within a pH range of 2 to 13.SKAPS GE180 conforms to the property values listed below: PROPERTY TEST METHOD UNITS M.A.R.V. Minimum Average Roll Value July 11, 2016 Dear Sir/Madam: *All Values are MARV. Product : GE180-180 ROLL #WEIGHT MD TENSILE MD ELONG XMD TENSILE XMD ELONG MD TRAP XMD TRAP PUNCTURE AOS PERMEABILITYASTM METHOD D5261 D4632 D4632 D4632 D4632 D4533 D4533 D4833 D4751 D4491 UNITS oz/sq yd lbs.%lbs %lbs.lbs lbs.US Sieve cm/sec TARGET 8.00 200 50 200 50 80 80 110 80 0.30 43843.1 8.57 234 75 243 84 104 116 137 80 0.43 43843.2 8.57 234 75 243 84 104 116 137 80 0.43 43843.3 8.57 234 75 243 84 104 116 137 80 0.43 Appendix D-2 CQA Conformance Testing Results Updated with Transmissivity for 71221010044Updated with Transmissivity for 71221010002 Mail To:Bill To: John Workman <= SameWaste Management, Inc email: jworkman@wm.com cc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:22274 Material(s) Tested:Six, Skaps TN330-2-8 Double Sided Geocomposite(s) Test(s) Requested:updating=>Transmissivity (ASTM D 4716) - GC Peel Strength (ASTM D 7005) - GCThickness (ASTM D 5199) - GNMass/Unit Area (ASTM D 5261) - GN Density (ASTM D 1505) - GN Carbon Content (ASTM D 4218) - GN Mass/Unit Area (ASTM D 5261) - GT Grab Tensile (ASTM D 4632) - GTPuncture Strength (ASTM D 4833) - GTApparent Opening Size (ASTM D 4751) - GT Permittivity (ASTM D 4491) - GT If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh Patel Laboratory Manager Geosynthetic Services Division www.GeosyntheticTesting.com *Signature is on file August 1, 2016 August 8, 2016 August 29, 2016 Page 1 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010002 TRI Log #: 22274 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Hydraulic Transmissivity (ASTM D 4716) Direction Tested: Machine Direction Normal Load (psf):810 Hydraulic Gradient:0.3 12 12 Plate / GCL / Sample / MSGM / Plate Seat Time (hours) Volume (cc)6000 6000 6000 Time (s)21.91 22.13 22.25 Flow Rate (GPM/ft width)4.26 4.22 4.19 4.22 0.03 Transmissivity (m^2/s)2.94E-03 2.91E-03 2.89E-03 2.91E-03 2.28E-05 2.00E-04 Test Temp (C) Temp. Corr. Factor Hydraulic Transmissivity (ASTM D 4716) Direction Tested: Machine Direction Normal Load (psf):14,370 Hydraulic Gradient:0.3 12 12 Plate / GCL / Sample / MSGM / Plate Seat Time (hours) Volume (cc)977 973 959 Time (s)5.44 5.53 5.38 Flow Rate (GPM/ft width)2.79 2.74 2.77 2.77 0.03 Transmissivity (m^2/s)1.93E-03 1.89E-03 1.91E-03 1.91E-03 1.98E-05 2.30E-05 Test Temp (C) Temp. Corr. Factor Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)5.0 5.1 2.3 1.9 1.3 3.1 1.8 1.0 min A - MD Average Peel Strength (g/in)2265 2329 1058 867 577 1419 820 B - MD Average Peel Strength (ppi)1.9 0.5 0.9 4.1 5.5 2.6 2.2 1.0 min B - MD Average Peel Strength (g/in)872 206 421 1880 2511 1178 985 Note: A and B represent a randomly assigned top and bottom of the sample MD Machine Direction 100 21.0 Specimen 1 Test Length (in) Test Width (in) Specimen 1 100 21.0 0.981 Test Length (in) Test Width (in) 0.981 Page 2 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010002 TRI Log #: 22274 STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)452 468 458 471 434 470 468 482 449 465 462 14 434 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)25.86 25.81 26.88 26.25 24.82 24.63 23.77 26.49 26.21 25.89 Mass/unit area (lbs./sq.ft)0.42 0.42 0.44 0.43 0.40 0.40 0.39 0.43 0.42 0.42 0.42 0.02 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.954 0.955 0.955 0.955 0.001 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.53 2.53 2.53 0.00 2.0-3.0 Page 3 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010002 TRI Log #: 22274 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 4.12 3.23 3.26 3.52 3.84 4.45 3.41 3.14 3.26 3.74 3.60 0.43 Mass/Unit Area (oz/sq.yd) 9.58 7.51 7.58 8.19 8.93 10.35 7.93 7.30 7.58 8.70 8.37 1.01 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 377 284 245 249 457 260 318 298 230 244 296 72 200 min TD - Tensile Strength (lbs) 304 336 311 274 297 324 279 308 272 276 298 22 200 min MD - Elong. @ Max. Load (%) 72 70 77 67 60 77 76 75 72 77 72 5 TD - Elong. @ Max. Load (%) 101 101 100 101 115 106 92 116 99 95 103 8 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 142 208 187 194 167 180 26 80 min Apparent Opening Size (ASTM D 4751,mod. to include 80 sieve size) Opening Size Diameter (mm) 0.170 0.175 0.170 0.168 0.161 0.169 0.005 0.18 max Sieve No. 80 80 80 80 80 80 80 min Permittivity (ASTM D 4491,Method C) Thickness ( mil) 114 104 116 109 121 108 107 124 118 112 113 6.5 Thickness ( mm)2.90 2.64 2.95 2.77 3.07 2.74 2.72 3.15 3.00 2.84 2.88 0.16 Permittivity (Sec-1) 1.76 1.80 1.64 1.75 1.53 1.62 1.73 1.56 1.51 1.57 1.65 0.11 Permittivity (GPM/ft2) 132 135 123 131 114 121 129 117 113 117 123 7.9 Permittivity (cm/sec) 0.510 0.475 0.483 0.485 0.470 0.444 0.470 0.491 0.453 0.447 0.473 0.021 2.0E-04 min MD Machine Direction TD Transverse Direction Page 4 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010002 TRI Log #: 22274 GEOTEXTILE - SIDE B STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.61 3.51 3.64 3.47 4.61 3.31 3.82 3.59 3.57 3.83 3.70 0.36 Mass/Unit Area (oz/sq.yd) 8.40 8.16 8.47 8.07 10.72 7.70 8.89 8.35 8.30 8.91 8.60 0.83 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 288 285 260 312 400 236 273 291 288 296 293 43 200 min TD - Tensile Strength (lbs) 300 307 335 317 322 340 357 346 295 259 318 29 200 min MD - Elong. @ Max. Load (%) 77 72 69 79 67 75 65 73 75 68 72 4 TD - Elong. @ Max. Load (%) 107 97 107 97 97 104 103 107 119 104 104 7 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 216 211 198 163 141 186 33 80 min Apparent Opening Size (ASTM D 4751,mod. to include 80 sieve size) Opening Size Diameter (mm) 0.170 0.181 0.173 0.170 0.168 0.172 0.005 0.18 max Sieve No. 80 70 80 80 80 80 80 min Permittivity (ASTM D 4491,Method C) Thickness ( mil) 120 108 118 121 130 125 124 109 122 126 120 7.1 Thickness ( mm)3.05 2.74 3.00 3.07 3.30 3.18 3.15 2.77 3.10 3.20 3.06 0.18 Permittivity (Sec-1) 1.49 1.75 1.64 1.62 1.45 1.53 1.57 1.59 1.55 1.49 1.57 0.09 Permittivity (GPM/ft2) 111 131 123 121 108 114 117 119 116 111 117 6.6 Permittivity (cm/sec) 0.454 0.480 0.492 0.498 0.479 0.486 0.494 0.440 0.480 0.477 0.478 0.018 2.0E-04 min MD Machine Direction TD Transverse Direction Page 5 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010044 TRI Log #: 22274 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Hydraulic Transmissivity (ASTM D 4716) Direction Tested: Machine Direction Normal Load (psf):810 Hydraulic Gradient:0.3 12 12 Plate / Protective Cover Soil / Sample / MSGM / Plate Seat Time (hours) Volume (cc)6000 6000 6000 Time (s)22.03 22.19 22.19 Flow Rate (GPM/ft width)4.26 4.23 4.23 4.24 0.02 Transmissivity (m^2/s)2.94E-03 2.92E-03 2.92E-03 2.93E-03 1.22E-05 1.20E-03 Test Temp (C) Temp. Corr. Factor Hydraulic Transmissivity (ASTM D 4716) Direction Tested: Machine Direction Normal Load (psf):14,370 Hydraulic Gradient:0.3 12 12 Plate / Protective Cover Soil / Sample / MSGM / Plate Seat Time (hours) Volume (cc)913 900 890 Time (s)5.69 5.54 5.53 Flow Rate (GPM/ft width)2.50 2.53 2.50 2.51 0.02 Transmissivity (m^2/s)1.72E-03 1.74E-03 1.73E-03 1.73E-03 1.12E-05 2.50E-04 Test Temp (C) Temp. Corr. Factor Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)2.1 4.7 0.7 2.3 2.1 2.4 1.5 1.0 min A - MD Average Peel Strength (g/in)949 2138 304 1062 931 1077 664 B - MD Average Peel Strength (ppi)2.8 7.1 1.8 5.8 2.7 4.0 2.3 1.0 min B - MD Average Peel Strength (g/in)1253 3201 799 2647 1203 1821 1041 Note: A and B represent a randomly assigned top and bottom of the sample MD Machine Direction Test Length (in) Test Width (in) Specimen 1 100 20.7 0.988 0.981 100 21.0 Test Length (in) Test Width (in) Specimen 1 Page 6 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010044 TRI Log #: 22274 STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)430 431 430 408 428 427 439 439 432 430 429 9 408 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)26.24 24.71 26.70 26.03 25.32 24.71 26.12 25.94 25.44 24.83 Mass/unit area (lbs./sq.ft)0.43 0.40 0.43 0.42 0.41 0.40 0.42 0.42 0.41 0.40 0.41 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.951 0.951 0.951 0.951 0.000 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.39 2.46 2.43 0.05 2.0-3.0 Page 7 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010044 TRI Log #: 22274 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.20 3.57 3.91 3.50 3.58 3.58 3.12 3.24 3.50 3.67 3.49 0.24 Mass/Unit Area (oz/sq.yd) 7.44 8.30 9.09 8.14 8.33 8.33 7.26 7.54 8.14 8.54 8.11 0.56 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 249 319 249 287 231 313 209 273 283 258 267 35 200 min TD - Tensile Strength (lbs) 292 291 317 316 289 306 273 266 279 292 292 17 200 min MD - Elong. @ Max. Load (%) 65 61 68 72 67 80 69 71 68 66 69 5 TD - Elong. @ Max. Load (%) 109 102 103 103 95 118 107 108 106 93 104 7 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 207 178 144 190 180 180 23 80 min Page 8 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010044 TRI Log #: 22274 GEOTEXTILE - SIDE B STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.96 3.62 3.68 3.48 3.69 3.82 3.76 3.61 3.24 3.64 3.65 0.19 Mass/Unit Area (oz/sq.yd) 9.21 8.42 8.56 8.09 8.58 8.89 8.75 8.40 7.54 8.47 8.49 0.45 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 294 243 300 289 316 289 313 250 332 292 292 28 200 min TD - Tensile Strength (lbs) 312 337 325 326 292 307 305 321 315 338 318 15 200 min MD - Elong. @ Max. Load (%) 79 73 72 71 60 74 61 71 71 71 70 6 TD - Elong. @ Max. Load (%) 111 93 97 103 109 118 110 97 96 101 103 8 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 165 193 214 209 162 189 24 80 min Page 9 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010082 TRI Log #: 22274 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.4 2.2 0.2 0.9 4.4 1.8 1.6 1.0 min A - MD Average Peel Strength (g/in)649 1017 97 419 2016 840 738 B - MD Average Peel Strength (ppi)3.2 5.6 1.8 5.1 6.2 4.4 1.8 1.0 min B - MD Average Peel Strength (g/in)1471 2529 835 2297 2815 1989 817 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)440 441 438 461 432 436 403 402 443 427 432 18 402 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)25.88 24.93 23.56 25.72 25.32 27.59 23.99 25.33 28.07 24.97 Mass/unit area (lbs./sq.ft)0.42 0.40 0.38 0.42 0.41 0.45 0.39 0.41 0.45 0.40 0.41 0.02 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.952 0.952 0.953 0.952 0.001 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.20 2.28 2.24 0.06 2.0-3.0 MD Machine Direction Page 10 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010082 TRI Log #: 22274 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.83 3.58 3.25 3.50 3.23 3.69 3.53 3.53 3.52 3.86 3.55 0.21 Mass/Unit Area (oz/sq.yd) 8.91 8.33 7.56 8.14 7.51 8.58 8.21 8.21 8.19 8.98 8.26 0.49 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 260 285 280 258 262 251 230 250 307 300 268 24 200 min TD - Tensile Strength (lbs) 260 306 317 320 321 356 304 325 331 325 317 24 200 min MD - Elong. @ Max. Load (%) 75 68 73 72 77 75 69 73 76 75 73 3 TD - Elong. @ Max. Load (%) 106 95 100 107 107 112 97 104 104 113 104 6 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 169 180 154 187 229 184 28 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.45 3.32 3.70 3.46 3.77 3.58 3.62 3.35 3.34 3.72 3.53 0.17 Mass/Unit Area (oz/sq.yd) 8.02 7.72 8.61 8.05 8.77 8.33 8.42 7.79 7.77 8.65 8.21 0.39 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 257 251 316 272 311 261 267 233 292 312 277 29 200 min TD - Tensile Strength (lbs) 297 306 343 352 288 292 283 271 320 313 307 26 200 min MD - Elong. @ Max. Load (%) 78 66 78 77 73 71 76 75 74 77 74 4 TD - Elong. @ Max. Load (%) 106 95 106 114 101 123 112 93 104 97 105 9 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 171 164 184 164 172 171 8 80 min MD Machine Direction TD Transverse Direction Page 11 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010127 TRI Log #: 22274 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)3.0 1.5 2.5 1.1 3.8 2.4 1.1 1.0 min A - MD Average Peel Strength (g/in)1353 676 1130 508 1716 1077 493 B - MD Average Peel Strength (ppi)2.0 1.0 1.5 1.3 1.7 1.5 0.4 1.0 min B - MD Average Peel Strength (g/in)922 435 681 581 790 682 187 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)438 460 442 457 439 432 436 440 430 444 442 10 430 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)26.70 24.50 26.13 26.36 25.18 25.34 25.26 25.75 28.01 25.84 Mass/unit area (lbs./sq.ft)0.43 0.40 0.42 0.43 0.41 0.41 0.41 0.42 0.45 0.42 0.42 0.02 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.955 0.956 0.956 0.956 0.001 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.59 2.62 2.61 0.02 2.0-3.0 MD Machine Direction Page 12 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010127 TRI Log #: 22274 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.35 3.38 3.73 3.50 3.37 3.61 3.37 3.75 3.18 3.55 3.48 0.18 Mass/Unit Area (oz/sq.yd) 7.79 7.86 8.68 8.14 7.84 8.40 7.84 8.72 7.40 8.26 8.09 0.42 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 293 266 280 230 223 258 309 286 261 316 272 31 200 min TD - Tensile Strength (lbs) 300 346 288 337 274 291 300 307 328 294 307 23 200 min MD - Elong. @ Max. Load (%) 67 69 71 77 76 78 76 75 75 75 74 4 TD - Elong. @ Max. Load (%) 111 96 95 105 95 131 125 95 103 97 105 13 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 188 213 154 188 176 184 21 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.64 3.86 3.50 3.36 4.02 3.71 3.78 3.68 3.78 3.71 3.70 0.18 Mass/Unit Area (oz/sq.yd) 8.47 8.98 8.14 7.82 9.35 8.63 8.79 8.56 8.79 8.63 8.62 0.42 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 245 300 293 269 241 344 327 304 289 285 290 32 200 min TD - Tensile Strength (lbs) 324 341 337 326 324 306 302 347 334 292 323 18 200 min MD - Elong. @ Max. Load (%) 71 67 76 73 81 79 71 79 73 73 74 4 TD - Elong. @ Max. Load (%) 101 97 105 111 106 121 112 102 100 93 105 8 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 196 155 189 186 168 179 17 80 min MD Machine Direction TD Transverse Direction Page 13 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010164 TRI Log #: 22274 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.9 1.5 2.6 6.4 0.7 2.6 2.2 1.0 min A - MD Average Peel Strength (g/in)849 667 1180 2910 309 1183 1015 B - MD Average Peel Strength (ppi)2.4 3.3 1.8 1.4 1.8 2.1 0.7 1.0 min B - MD Average Peel Strength (g/in)1067 1498 817 622 813 963 338 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)464 461 453 450 455 461 471 469 462 455 460 7 450 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)27.91 29.86 29.66 29.14 28.38 26.06 28.68 27.65 29.28 28.03 Mass/unit area (lbs./sq.ft)0.45 0.48 0.48 0.47 0.46 0.42 0.46 0.45 0.47 0.45 0.46 0.02 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.950 0.951 0.951 0.951 0.001 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.30 2.29 2.30 0.01 2.0-3.0 MD Machine Direction Page 14 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010164 TRI Log #: 22274 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.65 3.98 3.81 3.61 3.85 3.59 3.76 3.77 3.63 3.74 3.74 0.12 Mass/Unit Area (oz/sq.yd) 8.49 9.26 8.86 8.40 8.96 8.35 8.75 8.77 8.44 8.70 8.70 0.29 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 261 311 266 325 279 318 283 249 317 282 289 27 200 min TD - Tensile Strength (lbs) 300 333 349 271 290 300 309 370 360 334 322 32 200 min MD - Elong. @ Max. Load (%) 71 65 74 76 78 83 67 63 74 71 72 6 TD - Elong. @ Max. Load (%) 112 99 100 87 106 129 104 103 101 97 104 11 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 167 211 165 175 186 181 19 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.13 3.48 3.44 3.47 3.46 3.72 3.34 3.54 3.40 3.96 3.49 0.22 Mass/Unit Area (oz/sq.yd) 7.28 8.09 8.00 8.07 8.05 8.65 7.77 8.23 7.91 9.21 8.13 0.51 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 312 300 271 375 295 297 296 296 349 294 308 31 200 min TD - Tensile Strength (lbs) 404 261 219 344 269 375 233 230 266 281 288 64 200 min MD - Elong. @ Max. Load (%) 127 97 95 111 94 126 93 105 105 101 105 12 TD - Elong. @ Max. Load (%) 64 70 81 79 73 71 71 78 73 73 73 5 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 185 167 154 160 200 173 19 80 min MD Machine Direction TD Transverse Direction Page 15 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010206 TRI Log #: 22274 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.2 2.1 1.8 0.8 1.4 1.4 0.5 1.0 min A - MD Average Peel Strength (g/in)527 935 808 365 645 656 225 B - MD Average Peel Strength (ppi)5.6 4.5 5.5 3.6 5.9 5.1 1.0 1.0 min B - MD Average Peel Strength (g/in)2561 2052 2511 1643 2697 2293 436 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)455 432 454 437 465 467 464 447 465 473 456 14 432 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.98 28.07 25.32 23.98 27.58 25.30 25.72 23.55 24.95 25.87 Mass/unit area (lbs./sq.ft)0.40 0.45 0.41 0.39 0.45 0.41 0.42 0.38 0.40 0.42 0.41 0.02 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.954 0.954 0.955 0.954 0.001 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.52 2.58 2.55 0.04 2.0-3.0 MD Machine Direction Page 16 of 17 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010206 TRI Log #: 22274 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 4.45 3.33 3.19 3.45 3.46 4.88 3.51 3.61 3.56 3.54 3.70 0.53 Mass/Unit Area (oz/sq.yd) 10.35 7.75 7.42 8.02 8.05 11.35 8.16 8.40 8.28 8.23 8.60 1.24 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 421 287 298 285 437 310 339 281 230 257 315 67 200 min TD - Tensile Strength (lbs) 356 324 298 309 320 301 285 287 325 306 311 21 200 min MD - Elong. @ Max. Load (%) 76 71 87 75 59 79 75 73 83 87 77 8 TD - Elong. @ Max. Load (%) 131 98 97 101 119 100 89 94 105 100 103 12 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 154 168 170 146 164 160 10 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 4.05 3.41 3.55 3.23 3.71 3.39 3.60 3.17 3.60 3.54 3.53 0.25 Mass/Unit Area (oz/sq.yd) 9.42 7.93 8.26 7.51 8.63 7.89 8.37 7.37 8.37 8.23 8.20 0.58 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 260 235 297 271 296 285 265 250 275 276 271 20 200 min TD - Tensile Strength (lbs) 319 290 316 346 323 292 342 309 298 304 314 19 200 min MD - Elong. @ Max. Load (%) 77 88 71 74 67 76 73 69 73 70 74 6 TD - Elong. @ Max. Load (%) 100 107 96 104 97 124 121 103 94 93 104 11 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 185 188 186 162 159 176 14 80 min MD Machine Direction TD Transverse Direction Page 17 of 17 Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.com cc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:22893 Material(s) Tested:Six, Skaps TN330-2-8 Double Sided Geocomposite(s) Test(s) Requested:Peel Strength (ASTM D 7005) - GC Thickness (ASTM D 5199) - GN Mass/Unit Area (ASTM D 5261) - GNDensity (ASTM D 1505) - GNCarbon Content (ASTM D 4218) - GN Mass/Unit Area (ASTM D 5261) - GT Grab Tensile (ASTM D 4632) - GT Puncture Strength (ASTM D 4833) - GT If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh Patel Laboratory ManagerGeosynthetic Services Divisionwww.GeosyntheticTesting.com *Signature is on file August 10, 2016 Page 1 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010447 TRI Log #: 22893 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.1 1.8 1.0 4.4 4.0 2.5 1.6 1.0 min A - MD Average Peel Strength (g/in)513 813 468 2002 1821 1123 734 B - MD Average Peel Strength (ppi)2.5 4.9 4.8 5.0 2.7 4.0 1.2 1.0 min B - MD Average Peel Strength (g/in)1144 2220 2170 2256 1235 1805 564 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)368 361 360 365 364 370 373 368 368 369 367 4 360 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.70 24.60 24.70 24.50 24.80 25.10 23.80 24.00 25.10 25.20 Mass/unit area (lbs./sq.ft)0.40 0.40 0.40 0.40 0.40 0.41 0.39 0.39 0.41 0.41 0.40 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.956 0.956 0.956 0.956 0.000 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.02 2.04 2.03 0.01 2.0-3.0 MD Machine Direction Page 2 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010447 TRI Log #: 22893 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.14 3.32 3.68 3.62 4.51 4.00 3.88 3.05 3.25 3.81 3.63 0.45 Mass/Unit Area (oz/sq.yd) 7.30 7.72 8.56 8.42 10.49 9.30 9.02 7.09 7.56 8.86 8.43 1.05 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 208 244 254 267 265 261 232 192 198 385 251 55 200 min TD - Tensile Strength (lbs) 248 265 255 303 253 249 263 280 236 271 262 19 200 min MD - Elong. @ Max. Load (%) 79 58 64 75 56 70 76 73 70 65 68 8 TD - Elong. @ Max. Load (%) 107 106 97 103 124 106 97 105 103 112 106 8 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 152 161 135 168 169 157 14 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.63 3.37 3.30 3.70 4.00 3.96 3.28 3.24 3.48 4.02 3.60 0.31 Mass/Unit Area (oz/sq.yd) 8.44 7.84 7.68 8.61 9.30 9.21 7.63 7.54 8.09 9.35 8.37 0.72 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 297 235 179 184 333 194 190 162 182 254 221 57 200 min TD - Tensile Strength (lbs) 269 292 296 253 244 269 285 251 254 259 267 18 200 min MD - Elong. @ Max. Load (%) 78 72 63 61 61 65 61 72 71 63 67 6 TD - Elong. @ Max. Load (%) 112 101 98 97 117 121 107 98 103 115 107 9 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 136 143 135 190 128 146 25 80 min MD Machine Direction TD Transverse Direction Page 3 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010489 TRI Log #: 22893 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)5.0 1.9 2.3 3.3 3.2 3.1 1.2 1.0 min A - MD Average Peel Strength (g/in)2279 858 1049 1494 1453 1426 547 B - MD Average Peel Strength (ppi)1.1 7.6 4.0 7.5 0.7 4.2 3.3 1.0 min B - MD Average Peel Strength (g/in)486 3432 1802 3400 310 1886 1511 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)367 365 366 368 361 363 366 367 369 366 366 2 361 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.70 24.80 24.90 24.80 24.10 24.30 25.30 25.10 25.10 24.90 Mass/unit area (lbs./sq.ft)0.40 0.40 0.40 0.40 0.39 0.39 0.41 0.41 0.41 0.40 0.40 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.951 0.951 0.951 0.951 0.000 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.15 2.10 2.13 0.04 2.0-3.0 MD Machine Direction Page 4 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010489 TRI Log #: 22893 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.55 2.91 3.62 3.51 3.85 3.74 3.79 3.44 3.49 3.86 3.58 0.28 Mass/Unit Area (oz/sq.yd) 8.26 6.77 8.42 8.16 8.96 8.70 8.82 8.00 8.12 8.98 8.32 0.65 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 257 264 223 210 272 281 230 182 245 354 252 47 200 min TD - Tensile Strength (lbs) 255 261 251 280 269 227 234 260 276 268 258 17 200 min MD - Elong. @ Max. Load (%) 71 57 67 66 59 69 85 60 71 64 67 8 TD - Elong. @ Max. Load (%) 117 104 93 96 117 106 98 95 108 120 106 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 134 143 124 138 146 137 9 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 4.03 3.61 3.43 3.30 4.39 3.68 3.37 3.43 3.20 3.81 3.63 0.37 Mass/Unit Area (oz/sq.yd) 9.37 8.40 7.98 7.68 10.21 8.56 7.84 7.98 7.44 8.86 8.43 0.85 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 213 274 216 235 286 291 250 259 209 340 257 42 200 min TD - Tensile Strength (lbs) 270 231 245 232 282 278 267 267 280 263 262 19 200 min MD - Elong. @ Max. Load (%) 74 63 71 70 69 61 77 69 67 70 69 5 TD - Elong. @ Max. Load (%) 121 97 106 100 110 115 104 93 103 123 107 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 137 103 128 100 139 121 19 80 min MD Machine Direction TD Transverse Direction Page 5 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010531 TRI Log #: 22893 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)2.7 2.8 2.7 4.4 2.3 3.0 0.8 1.0 min A - MD Average Peel Strength (g/in)1226 1285 1217 1979 1058 1353 360 B - MD Average Peel Strength (ppi)0.8 6.3 1.8 2.0 1.0 2.4 2.2 1.0 min B - MD Average Peel Strength (g/in)380 2851 835 922 454 1088 1013 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)366 372 367 372 366 377 371 377 378 377 372 5 366 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.90 24.40 25.10 24.10 25.10 25.30 25.00 25.30 25.00 25.80 Mass/unit area (lbs./sq.ft)0.40 0.40 0.41 0.39 0.41 0.41 0.41 0.41 0.41 0.42 0.41 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.950 0.950 0.951 0.950 0.001 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.02 2.01 2.02 0.01 2.0-3.0 MD Machine Direction Page 6 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010531 TRI Log #: 22893 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.86 3.08 3.11 7.67 4.34 3.68 4.50 3.32 3.57 3.36 4.05 1.36 Mass/Unit Area (oz/sq.yd) 8.98 7.16 7.23 17.84 10.09 8.56 10.47 7.72 8.30 7.82 9.42 3.16 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 259 293 214 241 249 223 179 236 249 414 256 63 200 min TD - Tensile Strength (lbs) 274 268 282 249 257 263 264 220 264 239 258 18 200 min MD - Elong. @ Max. Load (%) 69 54 69 71 71 79 69 69 74 68 69 6 TD - Elong. @ Max. Load (%) 117 118 113 95 104 109 98 88 105 115 106 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 127 131 126 182 126 139 25 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.92 3.55 3.48 3.49 4.10 4.03 3.94 3.52 3.45 3.54 3.70 0.26 Mass/Unit Area (oz/sq.yd) 9.12 8.26 8.09 8.12 9.54 9.37 9.16 8.19 8.02 8.23 8.61 0.61 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 286 249 196 223 260 234 205 212 263 328 246 40 200 min TD - Tensile Strength (lbs) 314 278 240 266 255 259 269 267 269 279 270 19 200 min MD - Elong. @ Max. Load (%) 75 61 69 73 67 75 66 66 78 63 69 6 TD - Elong. @ Max. Load (%) 126 107 93 102 103 109 104 93 102 126 107 11 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 144 162 143 143 140 146 9 80 min MD Machine Direction TD Transverse Direction Page 7 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010573 TRI Log #: 22893 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)2.2 5.1 5.2 4.2 1.8 3.7 1.6 1.0 min A - MD Average Peel Strength (g/in)1012 2302 2374 1893 795 1675 732 B - MD Average Peel Strength (ppi)5.6 0.7 2.1 1.8 3.4 2.7 1.9 1.0 min B - MD Average Peel Strength (g/in)2542 326 953 826 1539 1237 848 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)364 376 367 371 363 358 363 380 383 390 371 10 358 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.70 25.40 24.20 25.20 24.70 23.60 24.00 24.50 26.20 25.70 Mass/unit area (lbs./sq.ft)0.40 0.41 0.39 0.41 0.40 0.38 0.39 0.40 0.42 0.42 0.40 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.952 0.953 0.953 0.953 0.001 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.29 2.38 2.34 0.06 2.0-3.0 MD Machine Direction Page 8 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010573 TRI Log #: 22893 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 4.27 3.16 3.26 3.76 3.53 4.74 3.29 3.15 3.25 3.67 3.61 0.53 Mass/Unit Area (oz/sq.yd) 9.93 7.35 7.58 8.75 8.21 11.03 7.65 7.33 7.56 8.54 8.39 1.23 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 406 208 167 181 185 296 226 190 318 281 246 77 200 min TD - Tensile Strength (lbs) 282 237 258 257 247 284 266 243 278 230 258 19 200 min MD - Elong. @ Max. Load (%) 71 81 53 73 68 79 79 90 57 69 72 11 TD - Elong. @ Max. Load (%) 138 104 89 116 111 113 93 95 111 104 108 14 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 156 129 130 111 159 137 20 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.50 3.75 3.16 3.51 4.04 3.86 2.93 3.48 3.38 3.92 3.55 0.35 Mass/Unit Area (oz/sq.yd) 8.14 8.72 7.35 8.16 9.40 8.98 6.82 8.09 7.86 9.12 8.26 0.81 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 377 205 200 232 253 284 355 196 208 301 261 66 200 min TD - Tensile Strength (lbs) 290 248 249 264 208 282 255 253 290 263 260 24 200 min MD - Elong. @ Max. Load (%) 70 65 62 82 69 77 61 68 67 62 68 7 TD - Elong. @ Max. Load (%) 111 88 99 89 89 116 91 89 99 99 97 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 125 150 153 116 178 144 25 80 min MD Machine Direction TD Transverse Direction Page 9 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010613 TRI Log #: 22893 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.6 2.4 3.0 7.9 1.8 3.3 2.6 1.0 min A - MD Average Peel Strength (g/in)745 1085 1344 3568 822 1513 1173 B - MD Average Peel Strength (ppi)6.5 1.7 5.4 1.7 4.0 3.8 2.2 1.0 min B - MD Average Peel Strength (g/in)2951 749 2447 772 1811 1746 986 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)372 379 367 373 363 365 371 363 364 364 368 5 363 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)25.30 26.40 25.10 26.50 25.10 24.60 25.00 24.00 23.70 24.80 Mass/unit area (lbs./sq.ft)0.41 0.43 0.41 0.43 0.41 0.40 0.41 0.39 0.38 0.40 0.41 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.953 0.953 0.953 0.953 0.000 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.16 2.15 2.16 0.01 2.0-3.0 MD Machine Direction Page 10 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010613 TRI Log #: 22893 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.82 3.64 3.44 3.61 3.69 3.63 3.42 3.69 3.39 4.27 3.66 0.25 Mass/Unit Area (oz/sq.yd) 8.89 8.47 8.00 8.40 8.58 8.44 7.95 8.58 7.89 9.93 8.51 0.59 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 352 257 213 189 261 306 228 249 204 307 257 52 200 min TD - Tensile Strength (lbs) 255 297 284 272 265 265 254 236 279 265 267 17 200 min MD - Elong. @ Max. Load (%) 56 75 62 73 68 57 73 71 55 57 65 8 TD - Elong. @ Max. Load (%) 107 98 105 91 96 118 96 93 94 109 101 9 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 183 149 134 158 157 156 18 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.69 3.32 3.90 3.55 3.86 4.07 3.69 3.14 3.11 3.89 3.62 0.33 Mass/Unit Area (oz/sq.yd) 8.58 7.72 9.07 8.26 8.98 9.47 8.58 7.30 7.23 9.05 8.42 0.78 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 332 220 238 199 262 284 195 210 255 286 248 44 200 min TD - Tensile Strength (lbs) 287 257 272 274 235 254 281 249 250 265 262 16 200 min MD - Elong. @ Max. Load (%) 59 63 68 61 68 64 61 71 67 59 64 4 TD - Elong. @ Max. Load (%) 111 87 96 93 117 111 100 101 89 97 100 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 176 148 100 165 129 144 30 80 min MD Machine Direction TD Transverse Direction Page 11 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010653 TRI Log #: 22893 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.8 1.9 0.5 7.8 7.2 3.8 3.4 1.0 min A - MD Average Peel Strength (g/in)808 867 225 3537 3287 1745 1545 B - MD Average Peel Strength (ppi)4.5 3.6 3.4 1.4 1.3 2.8 1.4 1.0 min B - MD Average Peel Strength (g/in)2057 1616 1539 640 577 1286 649 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)372 356 358 376 359 358 367 374 368 375 366 8 356 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)26.20 24.10 24.10 26.30 24.10 24.20 24.80 24.90 24.70 25.40 Mass/unit area (lbs./sq.ft)0.42 0.39 0.39 0.43 0.39 0.39 0.40 0.40 0.40 0.41 0.40 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.954 0.954 0.954 0.954 0.000 0.94 min Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.31 2.21 2.26 0.07 2.0-3.0 MD Machine Direction Page 12 of 13 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010653 TRI Log #: 22893 GEOTEXTILE - SIDE A STD. PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV. SPEC. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.75 3.38 3.42 3.66 3.65 4.82 3.65 3.81 3.16 3.08 3.64 0.48 Mass/Unit Area (oz/sq.yd) 8.72 7.86 7.95 8.51 8.49 11.21 8.49 8.86 7.35 7.16 8.46 1.12 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 238 158 238 234 409 267 355 230 265 264 266 70 200 min TD - Tensile Strength (lbs) 278 244 265 211 244 254 260 242 330 247 258 31 200 min MD - Elong. @ Max. Load (%) 66 62 67 65 57 61 61 69 75 57 64 6 TD - Elong. @ Max. Load (%) 111 95 89 89 102 95 100 90 97 111 98 8 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 164 143 157 132 116 142 19 80 min GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.45 3.60 3.35 3.23 4.01 3.57 3.32 3.14 3.10 4.10 3.49 0.34 Mass/Unit Area (oz/sq.yd) 8.02 8.37 7.79 7.51 9.33 8.30 7.72 7.30 7.21 9.54 8.11 0.80 8 min Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 220 196 181 231 322 300 195 220 232 317 241 52 200 min TD - Tensile Strength (lbs) 290 252 262 252 264 281 258 244 240 244 259 16 200 min MD - Elong. @ Max. Load (%) 81 80 69 68 63 61 67 67 61 55 67 8 TD - Elong. @ Max. Load (%) 105 103 107 92 100 111 92 86 88 98 98 9 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 120 158 146 133 154 142 15 80 min MD Machine Direction TD Transverse Direction Page 13 of 13 Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.comcc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report of the laboratory testing for the sample(s) listed below. Project:Great Oak Landfill TRI Job Reference Number:22511 Material(s) Tested:Five, Skaps TN330-2-8 Double Sided Geocomposite(s) Test(s) Requested:Peel Strength (ASTM D 7005) - GC Mass/Unit Area (ASTM D 5261) - GN Thickness (ASTM D 5199) - GN Density (ASTM D 1505) - GN Carbon Content (ASTM D 4218) - GN Mass/Unit Area (ASTM D 5261) - GT Grab Tensile (ASTM D 4632) - GT Puncture Strength (ASTM D 4833) - GT If you have any questions or require any additional information, please call us at 1-800-880-8378 Sincerely, Mansukh PatelLaboratory ManagerGeosynthetic Services Divisionwww.GeosyntheticTesting.com *Signature is on file July 27, 2016 Page 1 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010245 TRI Log #: 22511 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.3 1.9 2.1 1.0 2.9 1.8 0.7 A - MD Average Peel Strength (g/in)604 849 944 468 1317 836 329 B - MD Average Peel Strength (ppi)1.4 2.5 1.3 5.0 3.9 2.8 1.6 B - MD Average Peel Strength (g/in)640 1149 608 2247 1771 1283 717 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)379 379 379 374 370 384 369 370 376 374 375 5 369 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.69 24.98 25.35 24.11 24.33 23.85 24.79 25.00 24.75 24.37 Mass/unit area (lbs./sq.ft)0.40 0.40 0.41 0.39 0.39 0.39 0.40 0.41 0.40 0.39 0.40 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.951 0.951 0.952 0.951 0.001 Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.00 2.00 2.00 0.00 MD Machine Direction Page 2 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010245 TRI Log #: 22511 GEOTEXTILE - SIDE A STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.89 3.36 3.52 3.48 3.56 4.00 3.46 3.15 3.58 3.76 3.58 0.25 Mass/Unit Area (oz/sq.yd) 9.05 7.82 8.19 8.09 8.28 9.30 8.05 7.33 8.33 8.75 8.32 0.58 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 325 247 204 245 290 301 179 207 211 213 242 49 TD - Tensile Strength (lbs) 261 277 268 249 234 262 246 274 254 272 260 14 MD - Elong. @ Max. Load (%) 72 74 71 73 57 69 77 64 74 61 69 6 TD - Elong. @ Max. Load (%) 119 97 91 108 123 118 95 103 107 115 107 11 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 150 142 124 145 175 147 18 GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.71 3.28 3.19 3.32 4.41 3.69 3.27 3.35 3.57 3.35 3.51 0.36 Mass/Unit Area (oz/sq.yd) 8.63 7.63 7.42 7.72 10.26 8.58 7.61 7.79 8.30 7.79 8.17 0.84 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 325 173 199 211 198 304 191 244 209 237 229 50 TD - Tensile Strength (lbs) 261 257 279 278 256 279 261 286 260 245 266 13 MD - Elong. @ Max. Load (%) 65 75 67 69 63 69 92 77 62 64 70 9 TD - Elong. @ Max. Load (%) 109 99 95 129 110 119 88 95 97 129 107 15 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 170 128 134 125 141 140 18 MD Machine Direction TD Transverse Direction Page 3 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010289 TRI Log #: 22511 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.4 1.9 0.8 2.6 4.4 2.2 1.4 A - MD Average Peel Strength (g/in)631 863 374 1176 1979 1005 620 B - MD Average Peel Strength (ppi)2.8 1.0 2.2 3.4 1.8 2.2 0.9 B - MD Average Peel Strength (g/in)1262 472 994 1521 817 1013 403 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)369 365 375 375 379 377 395 368 378 376 375 8 365 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.44 24.83 24.62 24.06 24.35 23.78 24.67 25.04 24.35 24.76 Mass/unit area (lbs./sq.ft)0.40 0.40 0.40 0.39 0.39 0.39 0.40 0.41 0.39 0.40 0.40 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.954 0.955 0.955 0.955 0.001 Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.18 2.18 2.18 0.00 MD Machine Direction Page 4 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010289 TRI Log #: 22511 GEOTEXTILE - SIDE A STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.83 3.40 3.15 3.41 3.70 4.43 3.12 3.26 3.17 3.83 3.53 0.42 Mass/Unit Area (oz/sq.yd) 8.91 7.91 7.33 7.93 8.61 10.30 7.26 7.58 7.37 8.91 8.21 0.97 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 366 226 216 213 319 277 204 217 200 259 250 55 TD - Tensile Strength (lbs) 276 283 251 226 237 261 300 257 247 258 260 22 MD - Elong. @ Max. Load (%) 70 66 70 70 61 68 65 73 63 61 67 4 TD - Elong. @ Max. Load (%) 121 90 90 102 107 122 95 97 107 117 105 12 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 171 180 171 126 140 158 23 GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.75 3.14 3.26 3.61 3.91 4.15 3.23 3.32 3.72 3.80 3.59 0.34 Mass/Unit Area (oz/sq.yd) 8.72 7.30 7.58 8.40 9.09 9.65 7.51 7.72 8.65 8.84 8.35 0.78 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 339 237 204 209 266 306 196 174 209 248 239 52 TD - Tensile Strength (lbs) 277 256 272 244 272 267 268 327 272 266 272 21 MD - Elong. @ Max. Load (%) 69 71 77 57 69 71 63 68 61 63 67 6 TD - Elong. @ Max. Load (%) 125 113 99 100 117 117 95 106 122 115 111 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 170 178 140 123 147 152 22 MD Machine Direction TD Transverse Direction Page 5 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010332 TRI Log #: 22511 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)4.7 1.7 2.3 1.3 1.8 2.3 1.3 A - MD Average Peel Strength (g/in)2111 754 1022 581 831 1060 609 B - MD Average Peel Strength (ppi)1.6 3.7 1.4 2.2 2.6 2.3 0.9 B - MD Average Peel Strength (g/in)740 1684 622 1017 1185 1050 419 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)388 368 357 372 366 359 365 363 368 366 367 9 357 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.33 23.38 24.48 23.61 24.17 25.06 24.47 24.75 24.58 24.76 Mass/unit area (lbs./sq.ft)0.39 0.38 0.40 0.38 0.39 0.41 0.40 0.40 0.40 0.40 0.39 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.952 0.952 0.952 0.952 0.000 Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.13 2.05 2.09 0.06 MD Machine Direction Page 6 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010332 TRI Log #: 22511 GEOTEXTILE - SIDE A STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.57 3.50 3.81 3.75 3.76 4.61 3.32 3.11 3.27 3.54 3.62 0.41 Mass/Unit Area (oz/sq.yd) 8.30 8.14 8.86 8.72 8.75 10.72 7.72 7.23 7.61 8.23 8.43 0.96 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 384 189 150 235 239 297 216 278 177 266 243 68 TD - Tensile Strength (lbs) 265 249 263 314 272 248 257 293 272 244 268 22 MD - Elong. @ Max. Load (%) 63 56 58 75 65 61 65 79 79 71 67 8 TD - Elong. @ Max. Load (%) 129 99 93 103 108 109 97 114 109 103 106 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 179 153 180 126 171 162 23 GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.32 3.69 3.04 3.08 4.91 3.19 3.50 3.06 3.34 4.92 3.61 0.72 Mass/Unit Area (oz/sq.yd) 7.72 8.58 7.07 7.16 11.42 7.42 8.14 7.12 7.77 11.44 8.39 1.67 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 334 250 188 224 344 251 191 206 201 294 248 58 TD - Tensile Strength (lbs) 259 252 251 256 254 233 202 263 254 269 249 19 MD - Elong. @ Max. Load (%) 66 72 67 69 56 61 73 89 65 69 69 9 TD - Elong. @ Max. Load (%) 118 103 97 104 104 117 89 102 105 118 106 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 142 117 127 172 165 144 24 MD Machine Direction TD Transverse Direction Page 7 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010368 TRI Log #: 22511 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)1.5 2.1 1.8 3.5 4.7 2.7 1.4 A - MD Average Peel Strength (g/in)672 962 799 1598 2129 1232 615 B - MD Average Peel Strength (ppi)5.9 4.9 2.2 1.1 0.9 3.0 2.3 B - MD Average Peel Strength (g/in)2674 2202 981 513 401 1354 1027 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)382 368 365 373 370 380 383 384 373 367 374 7 365 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)24.32 24.64 24.17 23.96 24.84 24.27 23.98 25.05 23.69 24.77 Mass/unit area (lbs./sq.ft)0.39 0.40 0.39 0.39 0.40 0.39 0.39 0.41 0.38 0.40 0.39 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.953 0.953 0.953 0.953 0.000 Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.16 2.20 2.18 0.03 MD Machine Direction Page 8 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010368 TRI Log #: 22511 GEOTEXTILE - SIDE A STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.81 3.34 3.55 3.53 3.89 3.92 3.55 3.32 3.39 3.54 3.58 0.22 Mass/Unit Area (oz/sq.yd) 8.86 7.77 8.26 8.21 9.05 9.12 8.26 7.72 7.89 8.23 8.34 0.51 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 316 290 248 296 230 284 255 201 234 263 262 35 TD - Tensile Strength (lbs) 286 277 282 225 244 244 289 287 254 286 267 23 MD - Elong. @ Max. Load (%) 67 77 81 67 70 66 73 76 70 69 71 5 TD - Elong. @ Max. Load (%) 131 100 106 109 113 113 97 100 106 112 109 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 150 135 146 134 150 143 8 GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.45 3.18 3.14 3.41 3.77 4.04 3.04 3.38 3.48 3.75 3.46 0.31 Mass/Unit Area (oz/sq.yd) 8.02 7.40 7.30 7.93 8.77 9.40 7.07 7.86 8.09 8.72 8.06 0.73 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 337 224 234 208 365 285 193 219 210 264 254 58 TD - Tensile Strength (lbs) 262 243 247 265 243 248 257 277 259 243 254 11 MD - Elong. @ Max. Load (%) 73 69 80 69 64 69 67 70 68 63 69 5 TD - Elong. @ Max. Load (%) 122 106 101 106 103 119 87 95 100 100 104 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 143 125 119 170 125 137 21 MD Machine Direction TD Transverse Direction Page 9 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010414 TRI Log #: 22511 STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Peel Strength (ASTM D 7005) A - MD Average Peel Strength (ppi)2.2 1.0 1.1 2.0 0.9 1.4 0.6 A - MD Average Peel Strength (g/in)1003 441 486 899 391 644 285 B - MD Average Peel Strength (ppi)2.2 3.9 3.2 3.5 3.1 3.2 0.6 B - MD Average Peel Strength (g/in)976 1757 1444 1603 1385 1433 294 Note: A and B represent a randomly assigned top and bottom of the sample Thickness (ASTM D 5199)GEONET COMPONENT Thickness (mils)384 367 371 369 386 366 373 363 365 374 372 8 363 << min Mass/Unit Area (ASTM D 5261)GEONET COMPONENT 5" diameter Circle - Mass (g)23.63 24.53 23.76 24.89 24.19 24.33 24.24 24.18 24.25 24.73 Mass/unit area (lbs./sq.ft)0.38 0.40 0.38 0.40 0.39 0.39 0.39 0.39 0.39 0.40 0.39 0.01 Density (ASTM D 1505)GEONET COMPONENT Density (g/cm3)0.951 0.951 0.951 0.951 0.000 Carbon Black Content (ASTM D 4218)GEONET COMPONENT % Carbon Black 2.23 2.31 2.27 0.06 MD Machine Direction Page 10 of 11 GEOCOMPOSITE TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Skaps TN330-2-8 Double Sided Geocomposite Sample Identification: 71221010414 TRI Log #: 22511 GEOTEXTILE - SIDE A STD. PARAMETER TEST REPLICATE NUMBER MEAN DEV. 1 2 3 4 5 6 7 8 9 10 Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.46 3.48 3.71 3.56 4.02 3.81 3.25 3.33 3.27 3.95 3.58 0.28 Mass/Unit Area (oz/sq.yd) 8.05 8.09 8.63 8.28 9.35 8.86 7.56 7.75 7.61 9.19 8.34 0.65 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 344 239 301 227 256 243 226 231 248 328 264 44 TD - Tensile Strength (lbs) 236 242 272 296 269 226 243 300 291 274 265 27 MD - Elong. @ Max. Load (%) 67 65 67 76 71 67 71 66 69 58 68 5 TD - Elong. @ Max. Load (%) 117 91 101 107 107 110 89 113 106 121 106 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 162 152 133 132 138 144 13 GEOTEXTILE - SIDE B Mass/Unit Area (ASTM D 5261) 5" diameter Circle - Mass (g) 3.61 3.36 3.03 3.47 3.79 4.14 3.23 3.12 3.52 3.94 3.52 0.36 Mass/Unit Area (oz/sq.yd) 8.40 7.82 7.05 8.07 8.82 9.63 7.51 7.26 8.19 9.16 8.19 0.83 Grab Tensile Properties (ASTM D 4632) MD - Tensile Strength (lbs) 296 213 207 215 319 265 190 255 185 278 242 47 TD - Tensile Strength (lbs) 275 250 264 262 274 247 216 257 294 251 259 21 MD - Elong. @ Max. Load (%) 64 70 70 83 57 63 70 72 65 68 68 7 TD - Elong. @ Max. Load (%) 125 94 97 101 115 117 100 101 109 109 107 10 Puncture Resistance (ASTM D 4833) Puncture Strength (lbs) 147 119 141 138 139 137 10 MD Machine Direction TD Transverse Direction Page 11 of 11 Appendix E Geosynthetic Clay Liner Appendix E-1 MQC Certifications Sincerely, YATES, STUART L Quality Assurance Coordinator CETCO Lovell Plant Date:29-Aug-2016 11:08 Purchase Order: 1000032893 ORDER NUMBER: 55006362 WASTE MANAGEMENT 75 SWAMP FOX RUN SUMTER,SC,29150 To Whom it May Concern: Please find enclosed the MQA/MQC test data package for Geosynthetic Clay Liner shipments to WASTE MANAGEMENT The enclosed data package includes results of all the MQC tests required by ASTM D5889, with the exception of index flux/hydraulic conductivity. This test, which is run according to ASTM D5887, is normally performed once per production lot (once per week), unless a higher frequency is required by the project specifications. Because of the GCL's low permeability, this test can take several weeks to complete. The index flux/hydraulic conductivity results associated with this lot of material will be provided under separate cover as soon as they are available. Although the index flux/hydraulic conductivity test results are not yet available, CETCO accepts responsibility for our GCL should be index flux/hydraulic conductivity test produce unacceptable results. If, upon delivery and prior to installation, individual rolls of GCL are found to be nonconforming to accepted project specifications, CETCO will replace the nonconforming material at no charge. Questions regarding this information should be directed to CETCO Technical Services at eptechservices@cetco.com. PREPARED BY:YATES, STUART L Quality Assurance Coordinator CETCO AMERICAN COLLOID COMPANY 92 HIGHWAY 37 LOVELL, 82431, WY Telephone: 800-322-1159 Email: stuart.yates@colloid.com GEOSYNTHETIC CLAY LINER MANUFACTURING QUALITY ASSURANCE DATA PACKAGE PROJECT NAME: CUSTOMER P.O.:1000032893 ORDER NUMBER:55006362 PREPARED FOR:WASTE MANAGEMENT CONTENTS: •Product Certifications •GCL Order Packing List and MQA Tracking Form •GCL Manufacturing Quality control test data •Bentonite clay certification •Raw Material Test results Sincerely, YATES, STUART L Quality Assurance Coordinator CETCO Lovell Plant PRODUCT CERTIFICATIONS PROJECT NAME: CUSTOMER P.O.: 1000032893 ORDER NUMBER: 55006362 PREPARED FOR: WASTE MANAGEMENT The GCL Manufactured for the above-referenced order number is certified to meet the values listed in the tables below: GCL PROPERTY SPECIFICATIONS FOR BENTOMAT DN-SFT Test Method Test Method Property Test Frequency Certified Value ASTM D5887 GCL-Hydraulic Conductivity Weekly 5x10-9 - cm/s ASTM D5887 GCL-Index Flux Weekly 1x10-8 - m3/m2/s ASTM D5890 Bentonite Free Swell 1 per 50 Tons 24 - ml ASTM D5891 Bentonite Fluid Loss 1 per 50 Tons 18 - ml ASTM D5993 Bentonite Mass/Area 40,000 sq ft (4,000 sq m) .75 - lbs/sq ft ASTM D6243 GCL Hydrated Internal Shear Strength Periodic 500 - psf ASTM D6496 GCL Peel Strength 40,000 sq ft (4,000 sq m)**5 - lbs/in ASTM D6768 GCL Grab Strength 200,000 sq ft (20,000 sq m) 50 - lbs/in Bentonite property tests are performed at a bentonite processing facility before shipment to CETCO's production facility. All tensile testing is in the machine direction using ASTM D 6768. All peel strength testing is performed using ASTM D 6496. Upon request tensile and peel results can be reported per modified ASTM D 4632 using 4 inch grips. NEEDLE DETECTION AND REMOVAL PROCEDURE CETCO hereby affirms that all Bentomat® geosynthetic clay liner material manufactured for this project is continually passed under a magnet for needle removal and then screened with a metal detection device. CETCO certifies Bentomat® to be essentially free of broken needless and fragments of needles that would negatively effect the performance of the final product. GCL PACKING LIST AND MQA TRACKING FORM Listing of finished and raw materials used to produce certification package number 55006362 GCL GEOTEXTILE CLAY BENTOMAT DN-SFT 01-9514 01-8991 CG 50-BLK Order GCL Lot#GCL Roll#Length Width Weight Sq. ft Roll # Tested Cap1 Roll #Base1 Roll #Clay Lot # 55006362 LL-34-2016 5096 200 14.5 3200 2900 5096 2024526851 J20316657 L-235-16-B 55006362 LL-34-2016 5097 200 14.5 2980 2900 5096 700112951 J20316657 L-235-16-B 55006362 LL-34-2016 5099 200 14.5 3950 2900 5096 700112951 J20316657 L-235-16-B 55006362 LL-34-2016 5100 200 14.5 3915 2900 5096 700112951 J20316657 L-235-16-B 55006362 LL-34-2016 5101 200 14.5 3925 2900 5096 700112951 J20316657 L-235-16-B 55006362 LL-34-2016 5102 200 14.5 3950 2900 5096 2024565090 J20316656 L-235-16-B 55006362 LL-34-2016 5103 200 14.5 3850 2900 5096 2024565090 J20316656 L-235-16-B 55006362 LL-34-2016 5104 200 14.5 3850 2900 5096 2024565090 J20316656 L-235-16-B 55006362 LL-34-2016 5105 200 14.5 3825 2900 5096 2024565090 J20316656 L-235-16-B 55006362 LL-34-2016 5106 200 14.5 3780 2900 5096 2024565090 J20316656 L-235-16-B 55006362 LL-34-2016 5107 200 14.5 3845 2900 5096 2024565090 J20316656 L-235-16-B 55006362 LL-34-2016 5108 200 14.5 3845 2900 5096 2024581508 J20316659 L-235-16-B 55006362 LL-34-2016 5109 200 14.5 3860 2900 5109 2024581508 J20316659 L-235-16-B 55006362 LL-34-2016 5110 200 14.5 3920 2900 5109 2024581508 J20316659 L-235-16-B 55006362 LL-34-2016 5111 200 14.5 3910 2900 5109 2024581508 J20316659 L-235-16-B 55006362 LL-34-2016 5112 200 14.5 3855 2900 5109 2024581508 J20316659 L-235-16-B 55006362 LL-34-2016 5113 200 14.5 3850 2900 5109 2024581508 J20316659 L-235-16-B 55006362 LL-34-2016 5114 200 14.5 3880 2900 5109 2024581473 J20316659 L-235-16-B 55006362 LL-34-2016 5115 200 14.5 3885 2900 5109 2024581473 J20316659 L-235-16-B 55006362 LL-34-2016 5116 200 14.5 3890 2900 5109 2024581473 J20316659 L-235-16-B 55006362 LL-34-2016 5117 200 14.5 3875 2900 5109 2024581473 J20316659 L-235-16-B 55006362 LL-34-2016 5118 200 14.5 3880 2900 5109 2024581473 J20316659 L-235-16-B 55006362 LL-34-2016 5119 200 14.5 3850 2900 5109 2024581472 J20316642 L-235-16-B 55006362 LL-34-2016 5120 200 14.5 3865 2900 5109 2024581472 J20316642 L-235-16-B 55006362 LL-34-2016 5121 200 14.5 3830 2900 5109 2024581472 J20316642 L-235-16-B 55006362 LL-34-2016 5122 200 14.5 3845 2900 5122 2024581472 J20316642 L-235-16-B 55006362 LL-34-2016 5123 200 14.5 3830 2900 5122 2024581472 J20316642 L-235-16-B 55006362 LL-34-2016 5124 200 14.5 3825 2900 5122 2024581472 J20316642 L-235-16-B 55006362 LL-34-2016 5125 200 14.5 3875 2900 5122 2024581477 J20316642 L-235-16-B 55006362 LL-34-2016 5126 200 14.5 3825 2900 5122 2024581477 J20316642 L-235-16-C 55006362 LL-34-2016 5127 200 14.5 3850 2900 5122 2024581477 J20316642 L-235-16-C 55006362 LL-34-2016 5128 200 14.5 3800 2900 5122 2024581477 J20316654 L-235-16-C 55006362 LL-34-2016 5129 200 14.5 3850 2900 5122 2024581477 J20316654 L-235-16-C 55006362 LL-34-2016 5130 200 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700112976 2024531367 L-235-16-D 55006362 LL-34-2016 5180 200 14.5 3680 2900 5174 700112976 2024531367 L-235-16-D 55006362 LL-34-2016 5181 200 14.5 3755 2900 5174 2024581489 2024531367 L-235-16-D 55006362 LL-34-2016 5182 200 14.5 3710 2900 5174 2024581489 2024531367 L-235-16-D 55006362 LL-34-2016 5183 200 14.5 3725 2900 5174 2024581489 2024531367 L-235-16-D 55006362 LL-34-2016 5184 200 14.5 3785 2900 5174 2024581489 2024531367 L-235-16-D 55006362 LL-34-2016 5185 200 14.5 3740 2900 5185 2024581489 2024531367 L-235-16-D 55006362 LL-34-2016 5186 200 14.5 3730 2900 5185 2024581468 2024531367 L-235-16-D 55006362 LL-34-2016 5187 200 14.5 3690 2900 5185 2024581468 2024581468 J20316646 J20316646 L-235-16-D L-235-16-D55006362 LL-34-2016 5188 200 14.5 3725 2900 5185 55006362 LL-34-2016 5189 200 14.5 3810 2900 5185 2024581468 J20316646 L-235-16-D 55006362 LL-34-2016 5190 200 14.5 3750 2900 5185 2024581468 J20316646 L-235-16-D 55006362 LL-34-2016 5191 200 14.5 3675 2900 5185 2024581468 J20316646 L-235-16-D 55006362 LL-34-2016 5192 200 14.5 3750 2900 5185 2024581484 J20316646 L-235-16-D 55006362 LL-34-2016 5193 200 14.5 3720 2900 5185 2024581484 J20316646 L-235-16-D 55006362 LL-34-2016 5194 200 14.5 3730 2900 5185 2024581484 J20316646 L-235-16-D 55006362 LL-34-2016 5195 200 14.5 3730 2900 5185 2024581483 J20316626 L-235-16-D 55006362 LL-34-2016 5196 200 14.5 3755 2900 5185 2024581483 J20316626 L-235-16-D 55006362 LL-34-2016 5197 200 14.5 3705 2900 5185 2024581483 J20316626 L-235-16-D 55006362 LL-34-2016 5198 200 14.5 3720 2900 5198 2024581483 J20316626 L-235-16-D 55006362 LL-34-2016 5199 200 14.5 3800 2900 5198 2024581483 J20316626 L-235-16-D 55006362 LL-34-2016 5200 200 14.5 3770 2900 5198 2024581483 J20316626 L-235-16-D 55006362 LL-34-2016 5201 200 14.5 3720 2900 5198 2024581483 J20316626 L-235-16-D 55006362 LL-34-2016 5202 200 14.5 3730 2900 5198 2024527073 J20316626 L-235-16-D 55006362 LL-34-2016 5203 200 14.5 3775 2900 5198 2024527073 J20316626 L-235-16-D 55006362 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J20316666 L-235-16-E 55006362 LL-34-2016 5229 200 14.5 3795 2900 5224 2024581486 J20316666 L-235-16-E 55006362 LL-34-2016 5230 200 14.5 3835 2900 5224 2024581486 J20316666 L-235-16-E 55006362 LL-34-2016 5231 200 14.5 3860 2900 5224 2024581471 J20316666 L-235-16-E 55006362 LL-34-2016 5232 200 14.5 3885 2900 5224 2024581471 J20316666 L-235-16-E 55006362 LL-34-2016 5233 200 14.5 3920 2900 5224 2024581471 J20316666 L-235-16-E 55006362 LL-34-2016 5234 200 14.5 3905 2900 5224 2024581471 J20316666 L-235-16-E 55006362 LL-34-2016 5235 200 14.5 3890 2900 5224 2024581485 J20316627 L-235-16-E 55006362 LL-34-2016 5236 200 14.5 3870 2900 5224 2024581485 J20316627 L-235-16-E 55006362 LL-34-2016 5237 200 14.5 3900 2900 5237 2024581485 J20316627 L-235-16-E 55006362 LL-34-2016 5238 200 14.5 3860 2900 5237 2024581485 J20316627 L-235-16-E 55006362 LL-34-2016 5239 200 14.5 3855 2900 5237 2024581485 J20316627 L-235-16-E 55006362 LL-34-2016 5240 200 14.5 3860 2900 5237 2024581485 J20316627 L-235-16-E 55006362 LL-34-2016 5241 200 14.5 3790 2900 5237 2024581485 J20316627 L-235-16-E 55006362 LL-34-2016 5242 200 14.5 3800 2900 5237 2024527063 J20316627 L-235-16-E 55006362 LL-34-2016 5243 200 14.5 3760 2900 5237 2024527063 J20316627 L-235-16-E 55006362 LL-34-2016 5244 200 14.5 3855 2900 5237 2024527063 J20316627 L-235-16-E 55006362 LL-34-2016 5245 200 14.5 3845 2900 5237 2024527063 J20309392 L-235-16-E 55006362 LL-34-2016 5246 200 14.5 3855 2900 5237 2024527063 J20309392 L-235-16-E 55006362 LL-34-2016 5247 200 14.5 3830 2900 5237 J20299892 J20309392 L-235-16-F 55006362 LL-34-2016 5248 200 14.5 3840 2900 5237 J20299892 J20309392 L-235-16-F 55006362 LL-34-2016 5249 200 14.5 3810 2900 5237 J20299892 J20309392 L-235-16-F 55006362 LL-34-2016 5250 200 14.5 3770 2900 5250 J20299892 J20309392 L-235-16-F 55006362 LL-34-2016 5251 200 14.5 3820 2900 5250 J20299892 J20309392 L-235-16-F 55006362 LL-34-2016 5252 200 14.5 3840 2900 5250 J20299892 J20309392 L-235-16-F 55006362 LL-34-2016 5253 200 14.5 3825 2900 5250 J20299892 J20309392 L-235-16-F 55006362 LL-34-2016 5254 200 14.5 3815 2900 5250 2024527088 J20309392 L-235-16-F 55006362 LL-34-2016 5255 200 14.5 3820 2900 5250 2024527088 J20316650 L-235-16-F 55006362 LL-34-2016 5256 200 14.5 3785 2900 5250 2024527088 J20316650 L-235-16-F 55006362 LL-34-2016 5257 200 14.5 3830 2900 5250 2024527088 J20316650 L-235-16-F 55006362 LL-34-2016 5258 200 14.5 3815 2900 5250 2024581479 J20316650 L-235-16-F 55006362 LL-34-2016 5259 200 14.5 3870 2900 5250 2024581479 J20316650 L-235-16-F 55006362 LL-34-2016 5260 200 14.5 3875 2900 5250 2024581479 J20316650 L-235-16-F 55006362 LL-34-2016 5261 200 14.5 3885 2900 5250 2024581479 J20316650 L-235-16-F 55006362 LL-34-2016 5262 200 14.5 3925 2900 5250 2024581479 J20316650 L-235-16-F 55006362 LL-34-2016 5263 200 14.5 3840 2900 5263 2024581479 2024510210 L-235-16-F 55006362 LL-34-2016 5264 200 14.5 3890 2900 5263 J20316570 2024510210 L-235-16-F 55006362 LL-34-2016 5265 200 14.5 3870 2900 5263 J20316570 2024510210 L-235-16-F 55006362 LL-34-2016 5266 200 14.5 3855 2900 5263 J20316570 2024510210 L-235-16-F 55006362 LL-34-2016 5267 200 14.5 3850 2900 5263 J20316570 2024510210 L-235-16-F 55006362 LL-34-2016 5268 200 14.5 3900 2900 5263 J20316570 2024510210 L-235-16-F 55006362 LL-34-2016 5269 200 14.5 3850 2900 5263 J20316570 2024510210 L-235-16-F 55006362 LL-34-2016 5270 200 14.5 3795 2900 5263 J20316570 2024510210 L-235-16-F 55006362 LL-34-2016 5271 200 14.5 3815 2900 5263 J20316562 2024510210 L-235-16-F 55006362 LL-34-2016 5272 200 14.5 3805 2900 5263 J20316562 2024510210 L-235-16-F 55006362 LL-34-2016 5273 200 14.5 3805 2900 5263 J20316562 2024510210 L-235-16-F 55006362 LL-34-2016 5274 200 14.5 3810 2900 5263 J20316562 J20316651 L-235-16-F 55006362 LL-34-2016 5275 200 14.5 3860 2900 5263 J20316562 J20316651 L-235-16-F 55006362 LL-34-2016 5276 200 14.5 3820 2900 5276 J20316562 J20316651 L-235-16-F Total Sq Ft: 52200 0 Total Number of Rolls Certified: 180 GCL MANUFACTURING QUALITY CONTROL TEST DATA The following rolls in GCL certification package number 55006362 have been tested in our production facility lab. Product Lot# Tested Roll# Tested Mass Area Grab Strength Peel Strength ASTM Test Method:ASTM D5993 ASTM D6768 ASTM D6496 Required Value:.75 - lbs/sq ft 50 - lbs/in 5 - lbs/in BENTOMAT DN-SFT LL-34-2016 5096 .98 103 5 BENTOMAT DN-SFT LL-34-2016 5109 1 103 6.3 BENTOMAT DN-SFT LL-34-2016 5122 .93 103 7.6 BENTOMAT DN-SFT LL-34-2016 5135 1.01 103 6.1 BENTOMAT DN-SFT LL-34-2016 5148 .89 103 8 BENTOMAT DN-SFT LL-34-2016 5161 .99 101.7 7.5 BENTOMAT DN-SFT LL-34-2016 5174 .94 101.7 5.9 BENTOMAT DN-SFT LL-34-2016 5185 1 81.9 5.3 BENTOMAT DN-SFT LL-34-2016 5198 .91 81.9 6.7 BENTOMAT DN-SFT LL-34-2016 5211 .96 81.9 9.2 BENTOMAT DN-SFT LL-34-2016 5224 .91 81.9 8.1 BENTOMAT DN-SFT LL-34-2016 5237 .84 81.9 9.2 BENTOMAT DN-SFT LL-34-2016 5250 1.01 92.4 6.5 BENTOMAT DN-SFT LL-34-2016 5263 .94 92.5 8.6 BENTOMAT DN-SFT LL-34-2016 5276 1 92.5 7.6 L-235-16-E 11.7 27 16.2 L-235-16-F 10.9 30 16.2 BENTONITE CLAY CERTIFICATION The Bentonite Clay used to produce package 55006362 has been tested by American Colloid Company and yielded the following results. Clay Lot #Moist Swell Fluid Loss ASTM Test Method: ASTM D2216 ASTM D5890 ASTM D5891 Required Value: 12 - %24 - ml 18 - ml L-235-16-B 10.6 25 16.2 L-235-16-C 11.25 26 16.2 L-235-16-D 11.2 24 16.2 GEOTEXTILE TEST RESULTS FROM MATERIAL SUPPLIERS The GCL in certification package number 55006362 was manufactured with geotextiles which were tested with the following results. BASE GEOTEXTILE Material Roll Number Mass Area oz/yd2 Grab Strength lbs 01-8991 J20316657 6.3 227.3 01-8991 J20316659 6.3 227.3 01-8991 J20316642 6.3 205.5 01-8991 J20316654 6.1 208.9 01-8991 J20316631 6.4 232.7 01-8991 J20316668 6.1 219.3 01-8991 2024556285 6.75 275.47 01-8991 J20309390 6 200.9 01-8991 2024531367 7.24 270.95 01-8991 J20316646 6.2 224.6 01-8991 J20316626 6.8 202.3 01-8991 J20316653 6.1 208.9 01-8991 J20316665 6.1 219.3 01-8991 J20316666 6.1 219.3 01-8991 J20316627 6.8 202.3 01-8991 J20309392 8.4 200.9 01-8991 J20316656 6.1 208.9 01-8991 2024510210 6.66 242.19 01-8991 J20316650 6.2 219 COVER GEOTEXTILE Material Roll Number Mass Area oz/yd2 Grab Strength lbs 01-9514 2024526851 7.44 192.12 01-9514 700112951 6.19 74 01-9514 2024565090 6.62 149.5 01-8991 J20316651 6.2 219 01-9514 2024581508 6.9 167.47 01-9514 2024581473 8.09 202.12 01-9514 2024581472 8.09 202.12 01-9514 2024581477 7.1 168.65 01-9514 2024581474 8.09 202.12 01-9514 2024581487 6.97 156.45 01-9514 700116120 7.57 74 01-9514 2024581462 6.64 115.42 01-9514 2024581475 8.09 202.12 01-9514 700116126 7.22 91 01-9514 2024581488 6.97 156.45 01-9514 2024581469 6.98 154.24 01-9514 700112976 6.56 100 01-9514 2024581489 6.97 156.45 01-9514 2024581468 6.98 154.24 01-9514 2024581484 6.61 151.3 01-9514 2024581483 6.61 151.3 01-9514 2024527073 6.46 168.78 01-9514 2024581464 6.64 115.42 01-9514 2024581465 6.64 115.42 01-9514 2024581467 6.98 154.24 01-9514 2024581486 6.97 156.45 01-9514 2024581471 8.09 202.12 01-9514 2024581485 6.61 151.3 01-9514 2024527063 6.64 154.93 01-9514 J20299892 6.8 107 01-9514 2024527088 6.79 180.78 01-9514 2024581479 7.1 168.65 01-9514 J20316570 6.8 129 01-9514 J20316562 6.8 137 Certifications from our suppliers are on file at our production facility. An '*' or 'PT' indicates supplier certifications were unavailable prior to shipping so testing was performed at a CETCO lab. HU#/Rolls Mass/Unit Area MD Elong @ Break MD Tensile @ Break Puncture XMD Elong @ Break XMD Tensile @ Break Shipped oz/yd2 %lb lb %lb D-5261 D-4632 D-4632 D-4833 D-4632 D-4632 2024556285 6.75 65 275.47 140.83 85 299.94 2024531367 7.24 77 270.95 143.44 75 344.1 2024510210 6.66 59 242.19 143.13 74 261.67 ELONG ELONG GRAB GRAB PUNC WEIGHT ATION ATION TENSILE TENSILE TURE ASTM (CD)(MD)(CD)(MD)D5261 ASTM ASTM ASTM ASTM ASTM D4632 D4632 D4632 D4632 D4833 %%LBS LBS LBS OZ/YD2 J20316626 64.4 50.2 162.2 202.3 103.2 6.8 J20316642 75.8 50.8 161.5 205.5 98.6 6.3 J20316646 73.4 54.6 190.8 224.6 106.2 6.2 J20316651 69.8 52.2 194.2 219.0 110.8 6.2 J20316653 73.6 52.2 166.4 208.9 93.0 6.1 J20316654 73.6 52.2 166.4 208.9 93.0 6.1 J20316656 73.6 52.2 166.4 208.9 93.0 6.1 J20316657 71.0 51.2 180.5 227.3 109.0 6.3 J20316659 71.0 51.2 180.5 227.3 109.0 6.3 J20309390 61.4 53.2 185.7 200.9 109.6 6.0 J20309392 61.4 53.2 185.7 200.9 109.6 8.4 J20316627 64.4 50.2 162.2 202.3 103.2 6.8 J20316631 75.4 51.8 183.6 232.7 108.8 6.4 J20316650 69.8 52.2 194.2 219.0 110.8 6.2 J20316665 73.0 51.8 179.3 219.3 104.6 6.1 J20316666 73.0 51.8 179.3 219.3 104.6 6.1 J20316668 73.0 51.8 179.3 219.3 104.6 6.1 FULL GEOTEXTILE CERT 01-8991 ROLL#Weight Grab Tensile MD Elongation MD Grab Tensile XMD Elongation XMD Puncture Thickness ASTM Method D5261 D4632 D4632 D4632 D4632 D4833 D5199 Units oz/syd lbs %lbs %lbs (mils) TARGET 6.00 45 90 45 90 50 110 700112951 6.19 74 101 139 101 75 128 700112976 6.56 100 92 125 101 61 125 700116120 7.57 74 157 132 142 72 155 700116126 7.22 91 115 160 141 81 141 ELONG ELONG GRAB GRAB PUNC THICK WEIGHT ATION ATION TENSILE TENSILE TURE NESS ASTM (CD)(MD)(CD)(MD)D5261 ASTM ASTM ASTM ASTM ASTM ASTM D4632 D4632 D4632 D4632 D4833 D5199 %%LBS LBS LBS MILS OZ/YD2 J20316562 117 113 206 137 94 133.6 6.8 J20316570 115 109 204 129 95 131.8 6.8 J20299892 111 139 179 107 84 140.2 6.8 HU#/Rolls Mass/Unit Area MD Elong @ Break MD Tensile @ Break Puncture Thickness XMD Elong @ BreakXMD Tensile @ Break Shipped oz/yd2 %lb lb mil %lb D-5261 D-4632 D-4632 D-4833 D-5199 D-4632 D-4632 2024581462 6.64 91 115.42 78.46 151 130 224 2024581465 6.64 91 115.42 78.46 151 130 224 2024581467 6.98 91 154.24 78.46 139 100 287.17 2024581468 6.98 91 154.24 78.46 139 100 287.17 2024581469 6.98 91 154.24 78.46 139 100 287.17 2024581471 8.09 97 202.12 78.46 158 122 291.92 2024581472 8.09 97 202.12 78.46 158 122 291.92 2024581473 8.09 97 202.12 78.46 158 122 291.92 2024581474 8.09 97 202.12 78.46 158 122 291.92 2024581475 8.09 97 202.12 78.46 158 122 291.92 2024581477 7.1 110 168.65 78.46 149 116 259.62 2024581483 6.61 129 151.3 78.46 140 161 236.15 2024581484 6.61 129 151.3 78.46 140 161 236.15 2024581486 6.97 108 156.45 78.46 139 124 215.93 2024581487 6.97 108 156.45 78.46 139 124 215.93 2024581488 6.97 108 156.45 78.46 139 124 215.93 2024581489 6.97 108 156.45 78.46 139 124 215.93 2024581508 6.9 113 167.47 78.46 142 143 241.97 2024565090 6.62 117 149.5 88.91 145 149 241.19 2024581464 6.64 91 115.42 78.46 151 130 224 2024581485 6.61 129 151.3 78.46 140 161 236.15 2024527063 6.64 136 154.93 90.34 134 173 223.08 2024527073 6.46 133 168.78 90.34 138 159 232.91 2024527088 6.79 174 180.78 103.52 145 174 253.81 2024526851 7.44 133 192.12 97.39 149 149 257.3 FULL GEOTEXTILE CERT 01-9514 Sincerely, YATES, STUART L Quality Assurance Coordinator CETCO Lovell Plant Date:15-Sep-2016 13:14 Purchase Order:1000032893 ORDER NUMBER:55006854 WASTE MANAGEMENT 75 SWAMP FOX RUN SUMTER,SC,29150 To Whom it May Concern: Please find enclosed the MQA/MQC test data package for Geosynthetic Clay Liner shipments to WASTE MANAGEMENT The enclosed data package includes results of all the MQC tests required by ASTM D5889, with the exception of index flux/hydraulic conductivity. This test, which is run according to ASTM D5887, is normally performed once per production lot (once per week), unless a higher frequency is required by the project specifications. Because of the GCL's low permeability, this test can take several weeks to complete. The index flux/hydraulic conductivity results associated with this lot of material will be provided under separate cover as soon as they are available. Although the index flux/hydraulic conductivity test results are not yet available, CETCO accepts responsibility for our GCL should be index flux/hydraulic conductivity test produce unacceptable results. If, upon delivery and prior to installation, individual rolls of GCL are found to be nonconforming to accepted project specifications, CETCO will replace the nonconforming material at no charge. Questions regarding this information should be directed to CETCO Technical Services at eptechservices@cetco.com. PREPARED BY:YATES, STUART L Quality Assurance Coordinator CETCO AMERICAN COLLOID COMPANY 92 HIGHWAY 37 LOVELL, 82431, WY Telephone: 800-322-1159 Email: stuart.yates@colloid.com GEOSYNTHETIC CLAY LINER MANUFACTURING QUALITY ASSURANCE DATA PACKAGE PROJECT NAME: CUSTOMER P.O.:1000032893 ORDER NUMBER:55006854 PREPARED FOR:WASTE MANAGEMENT CONTENTS: •Product Certifications •GCL Order Packing List and MQA Tracking Form •GCL Manufacturing Quality control test data •Bentonite clay certification •Raw Material Test results Sincerely, YATES, STUART L Quality Assurance Coordinator CETCO Lovell Plant PRODUCT CERTIFICATIONS PROJECT NAME: CUSTOMER P.O.: 1000032893 ORDER NUMBER: 55006854 PREPARED FOR: WASTE MANAGEMENT The GCL Manufactured for the above-referenced order number is certified to meet the values listed in the tables below: GCL PROPERTY SPECIFICATIONS FOR BENTOMAT DN-SFT Test Method Test Method Property Test Frequency Certified Value ASTM D5887 GCL-Hydraulic Conductivity *1/100,000 sq ft 5x10-9 - cm/s ASTM D5887 GCL-Index Flux *1/100,000 sq ft 1x10-8 - m3/m2/s ASTM D5890 Bentonite Free Swell 1 per 50 Tons 24 - ml ASTM D5891 Bentonite Fluid Loss 1 per 50 Tons 18 - ml ASTM D5993 Bentonite Mass/Area 40,000 sq ft (4,000 sq m) .75 - lbs/sq ft ASTM D6243 GCL Hydrated Internal Shear Strength *1 per Project 500 - psf ASTM D6496 GCL Peel Strength 40,000 sq ft (4,000 sq m)*5 - lbs/in ASTM D6768 GCL Grab Strength 200,000 sq ft (20,000 sq m) 50 - lbs/in Bentonite property tests are performed at a bentonite processing facility before shipment to CETCO's production facility. All tensile testing is in the machine direction using ASTM D 6768. All peel strength testing is performed using ASTM D 6496. Upon request tensile and peel results can be reported per modified ASTM D 4632 using 4 inch grips. NEEDLE DETECTION AND REMOVAL PROCEDURE CETCO hereby affirms that all Bentomat® geosynthetic clay liner material manufactured for this project is continually passed under a magnet for needle removal and then screened with a metal detection device. CETCO certifies Bentomat® to be essentially free of broken needless and fragments of needles that would negatively effect the performance of the final product. GCL PACKING LIST AND MQA TRACKING FORM Listing of finished and raw materials used to produce certification package number 55006854 GCL GEOTEXTILE CLAY BENTOMAT DN-SFT 01-9514 01-8991 CG 50-BLK Order GCL Lot#GCL Roll#Length Width Weight Sq. ft Roll # Tested Cap1 Roll #Base1 Roll #Clay Lot # 55006854 LL-37-2016 6109 200 14.5 3600 2900 6109 2024563125 2024558639 L-253-16-D 55006854 LL-37-2016 6110 200 14.5 3800 2900 6109 2024563125 2024558639 L-253-16-D 55006854 LL-37-2016 6111 200 14.5 2775 2900 6109 700116112 2024558639 L-253-16-D 55006854 LL-37-2016 6112 200 14.5 3740 2900 6109 700116112 2024558639 L-253-16-D 55006854 LL-37-2016 6113 200 14.5 3770 2900 6109 700116112 2024558639 L-253-16-D 55006854 LL-37-2016 6114 200 14.5 3780 2900 6109 700116112 2024558639 L-253-16-D 55006854 LL-37-2016 6115 200 14.5 3710 2900 6109 700116112 2024558639 L-253-16-D 55006854 LL-37-2016 6116 200 14.5 3880 2900 6109 700116117 2024558639 L-253-16-D 55006854 LL-37-2016 6117 200 14.5 3845 2900 6109 700116117 2024558639 L-253-16-D 55006854 LL-37-2016 6118 200 14.5 3850 2900 6109 700116114 2024473064 L-253-16-D 55006854 LL-37-2016 6119 200 14.5 3865 2900 6109 700116114 2024473064 L-253-16-D 55006854 LL-37-2016 6120 200 14.5 3875 2900 6109 700116114 2024473064 L-253-16-D 55006854 LL-37-2016 6121 200 14.5 3880 2900 6109 700116114 2024473064 L-253-16-D 55006854 LL-37-2016 6122 200 14.5 3855 2900 6122 700116114 2024473064 L-253-16-D 55006854 LL-37-2016 6123 200 14.5 3870 2900 6122 700116114 2024473064 L-253-16-D 55006854 LL-37-2016 6124 200 14.5 3840 2900 6122 700116118 2024473064 L-253-16-D 55006854 LL-37-2016 6125 200 14.5 3895 2900 6122 700116118 2024473064 2022599050 2022599050 2022599050 2022599050 2022599050 2022599050 2022599050 L-253-16-D 55006854 LL-37-2016 6126 200 14.5 3880 2900 6122 700116118 L-253-16-D 55006854 LL-37-2016 6127 200 14.5 3820 2900 6122 700116118 L-253-16-D 55006854 LL-37-2016 6128 200 14.5 3780 2900 6122 700116118 L-253-16-D 55006854 LL-37-2016 6129 200 14.5 3780 2900 6122 700116118 L-253-16-D 55006854 LL-37-2016 6130 200 14.5 3895 2900 6122 2024565085 L-253-16-D 55006854 LL-37-2016 6131 200 14.5 3900 2900 6122 2024565085 L-253-16-D 55006854 LL-37-2016 6132 200 14.5 3920 2900 6122 2024565085 L-253-16-D 55006854 LL-37-2016 6133 200 14.5 2930 2900 6122 2024565085 J20316664 L-253-16-D 55006854 LL-37-2016 6134 200 14.5 3860 2900 6122 2024565085 J20316664 L-253-16-D 55006854 LL-37-2016 6135 200 14.5 3855 2900 6135 2024565083 J20316664 L-253-16-D 55006854 LL-37-2016 6136 200 14.5 3860 2900 6135 2024565083 J20316664 L-253-16-D 55006854 LL-37-2016 6137 200 14.5 3875 2900 6135 2024565083 J20316664 L-253-16-D 55006854 LL-37-2016 6138 200 14.5 3875 2900 6135 2024565083 J20316664 L-253-16-D 55006854 LL-37-2016 6139 200 14.5 3860 2900 6135 2024565030 J20316664 L-253-16-D 55006854 LL-37-2016 6140 200 14.5 3845 2900 6135 2024565030 J20316664 L-253-16-D 55006854 LL-37-2016 6141 200 14.5 3880 2900 6135 2024565030 J20316664 L-253-16-D 55006854 LL-37-2016 6142 200 14.5 3820 2900 6135 2024565030 J20309372 L-253-16-D 55006854 LL-37-2016 6143 200 14.5 3830 2900 6135 2024565030 J20316633 L-253-16-D 55006854 LL-37-2016 6144 200 14.5 3850 2900 6135 2024565030 J20316633 L-253-16-D 55006854 LL-37-2016 6145 200 14.5 3815 2900 6135 2024563539 J20316633 L-253-16-D 55006854 LL-37-2016 6146 200 14.5 3830 2900 6135 2024563539 J20316633 L-253-16-E 55006854 LL-37-2016 6147 200 14.5 3820 2900 6135 2024563539 J20316633 L-253-16-E 55006854 LL-37-2016 6148 200 14.5 3820 2900 6148 2024563545 J20316633 L-253-16-E 55006854 LL-37-2016 6149 200 14.5 3810 2900 6148 2024563545 J20316633 L-253-16-E 55006854 LL-37-2016 6150 200 14.5 3775 2900 6148 2024563545 J20309382 L-253-16-E 55006854 LL-37-2016 6151 200 14.5 3800 2900 6148 2024563545 J20309382 L-253-16-E 55006854 LL-37-2016 6152 200 14.5 3780 2900 6148 2024563545 J20309382 L-253-16-E 55006854 LL-37-2016 6153 200 14.5 3790 2900 6148 2024563545 J20309382 L-253-16-E 55006854 LL-37-2016 6154 200 14.5 3800 2900 6148 2024563545 J20309382 L-253-16-E 55006854 LL-37-2016 6155 200 14.5 3800 2900 6148 2024563074 J20309382 L-253-16-E 55006854 LL-37-2016 6156 200 14.5 3750 2900 6148 2024563074 J20309382 L-253-16-E 55006854 LL-37-2016 6157 200 14.5 3780 2900 6148 2024563074 J20309382 L-253-16-E 55006854 LL-37-2016 6158 200 14.5 3760 2900 6148 2024563074 J20309382 L-253-16-E 55006854 LL-37-2016 6159 200 14.5 3795 2900 6148 2024563074 J20309382 L-253-16-E 55006854 LL-37-2016 6160 200 14.5 3715 2900 6148 700096359 J20309382 L-253-16-E 55006854 LL-37-2016 6161 200 14.5 3800 2900 6161 700096359 J20309382 L-253-16-E 55006854 LL-37-2016 6162 200 14.5 3695 2900 6161 700096359 J20309375 L-253-16-E 55006854 LL-37-2016 6163 200 14.5 3770 2900 6161 700082375 J20309375 L-253-16-E 55006854 LL-37-2016 6164 200 14.5 3770 2900 6161 700082375 J20309375 L-253-16-E 55006854 LL-37-2016 6165 200 14.5 3790 2900 6161 700082375 J20309375 L-253-16-E 55006854 LL-37-2016 6166 200 14.5 3780 2900 6161 700082375 J20309375 L-253-16-E 55006854 LL-37-2016 6167 200 14.5 3810 2900 6161 700082375 J20309375 L-253-16-E 55006854 LL-37-2016 6168 200 14.5 3760 2900 6161 700116131 J20309375 L-253-16-E 55006854 LL-37-2016 6169 200 14.5 3805 2900 6161 700116131 2024558627 L-253-16-E 55006854 LL-37-2016 6170 200 14.5 3725 2900 6161 700116131 2024558627 L-253-16-E 55006854 LL-37-2016 6171 200 14.5 3700 2900 6161 700116131 2024558627 L-253-16-E 55006854 LL-37-2016 6172 200 14.5 3615 2900 6161 700116131 2024558627 L-253-16-E 55006854 LL-37-2016 6173 200 14.5 3710 2900 6161 J20303613 2024558627 L-253-16-E 55006854 LL-37-2016 6174 200 14.5 3710 2900 6174 J20303613 2024558627 L-253-16-E 55006854 LL-37-2016 6175 200 14.5 3700 2900 6174 J20303613 2024558627 L-253-16-E 55006854 LL-37-2016 6176 200 14.5 3655 2900 6174 J20303613 2024558627 L-253-16-E 55006854 LL-37-2016 6177 200 14.5 3650 2900 6174 J20303613 J20309405 L-253-16-E 55006854 LL-37-2016 6178 200 14.5 3655 2900 6174 J20303613 J20309405 L-253-16-E 55006854 LL-37-2016 6179 200 14.5 3635 2900 6174 J20303613 J20309405 L-253-16-E 55006854 LL-37-2016 6180 200 14.5 3725 2900 6174 2024581519 J20309405 L-253-16-E 55006854 LL-37-2016 6181 200 14.5 3750 2900 6174 2024581519 J20309405 L-253-16-E 55006854 LL-37-2016 6182 200 14.5 3720 2900 6174 2024581519 J20309405 L-253-16-E 55006854 LL-37-2016 6183 200 14.5 3705 2900 6174 2024581519 J20309405 L-253-16-E 55006854 LL-37-2016 6184 200 14.5 3680 2900 6174 2024581519 J20309405 L-253-16-E 55006854 LL-37-2016 6185 200 14.5 3680 2900 6174 2024565075 J20309405 L-253-16-E 55006854 LL-37-2016 6186 200 14.5 3700 2900 6174 2024565075 2024556289 L-253-16-F 55006854 LL-37-2016 6187 200 14.5 3670 2900 6187 2024565075 2024556289 L-253-16-F 55006854 LL-37-2016 6188 200 14.5 3745 2900 6187 2024565075 2024556289 L-253-16-F 55006854 LL-37-2016 6189 200 14.5 3720 2900 6187 2024565075 2024556289 L-253-16-F 55006854 LL-37-2016 6190 200 14.5 3725 2900 6187 2024565075 091416ANWA 091416ANWA 091416ANWA 091416ANWA 2024556289 L-253-16-F 55006854 LL-37-2016 6191 200 14.5 3735 2900 6187 2024556289 L-253-16-F 55006854 LL-37-2016 6192 200 14.5 3675 2900 6187 2024556289 L-253-16-F 55006854 LL-37-2016 6193 200 14.5 3695 2900 6187 2024556289 L-253-16-F 55006854 LL-37-2016 6194 200 14.5 3695 2900 6187 J20309372 L-253-16-F 55006854 LL-37-2016 6195 200 14.5 3705 2900 6187 2024581509 J20309372 L-253-16-F 55006854 LL-37-2016 6196 200 14.5 3710 2900 6187 2024581509 J20309372 L-253-16-F 55006854 LL-37-2016 6197 200 14.5 3745 2900 6187 2024581509 J20309372 L-253-16-F 55006854 LL-37-2016 6198 200 14.5 3700 2900 6187 2024581509 J20309372 L-253-16-F 55006854 LL-37-2016 6199 200 14.5 3720 2900 6187 2024581509 J20309372 L-253-16-F 55006854 LL-37-2016 6200 200 14.5 3685 2900 6200 2024581509 J20309372 L-253-16-F 55006854 LL-37-2016 6201 200 14.5 3670 2900 6200 700092492 J20309372 L-253-16-F 55006854 LL-37-2016 6202 200 14.5 3650 2900 6200 700092492 J20316651 L-253-16-F 55006854 LL-37-2016 6203 200 14.5 3670 2900 6200 700092492 J20316651 L-253-16-F 55006854 LL-37-2016 6204 200 14.5 3620 2900 6200 700092492 J20316651 L-253-16-F Total Sq Ft: 27840 0 Total Number of Rolls Certified: 96 GCL MANUFACTURING QUALITY CONTROL TEST DATA The following rolls in GCL certification package number 55006854 have been tested in our production facility lab. Product Lot# Tested Roll# Tested Mass Area Grab Strength Peel Strength ASTM Test Method:ASTM D5993 ASTM D6768 ASTM D6496 Required Value:.75 - lbs/sq ft 50 - lbs/in 5 - lbs/in BENTOMAT DN-SFT LL-37-2016 6109 .94 76.8 6.2 BENTOMAT DN-SFT LL-37-2016 6122 .97 76.7 12.6 BENTOMAT DN-SFT LL-37-2016 6135 .92 76.7 8 BENTOMAT DN-SFT LL-37-2016 6148 .9 76.7 8.3 BENTOMAT DN-SFT LL-37-2016 6161 .91 76.7 6.6 BENTOMAT DN-SFT LL-37-2016 6174 .9 .93 115.4 115.4 9.3 12.4BENTOMAT DN-SFT LL-37-2016 6187 BENTOMAT DN-SFT LL-37-2016 6200 .88 115.4 9.7 BENTONITE CLAY CERTIFICATION The Bentonite Clay used to produce package 55006854 has been tested by American Colloid Company and yielded the following results. Clay Lot #Moist Swell Fluid Loss ASTM Test Method: ASTM D2216 ASTM D5890 ASTM D5891 Required Value: 12 - %24 - ml 18 - ml L-253-16-D 8.3 26 15.6 L-253-16-E 10.3 26 15 L-253-16-F 10.4 26 15 GEOTEXTILE TEST RESULTS FROM MATERIAL SUPPLIERS The GCL in certification package number 55006854 was manufactured with geotextiles which were tested with the following results. BASE GEOTEXTILE Material Roll Number Mass Area oz/yd2 Grab Strength lbs 01-8991 2024558639 6.28 222.7 01-8991 2024473064 6.47 214.84 01-8991 J20316664 6.4 228.1 01-8991 J20316633 6.3 226.1 01-8991 J20309382 6 187.4 01-8991 J20309375 6.4 218.9 01-8991 2024558627 6.86 280.48 01-8991 J20309405 6.3 196.1 01-8991 2024556289 6.64 263.95 01-8991 J20309372 6.2 203.7 01-8991 J20316651 6.2 219 COVER GEOTEXTILE Material Roll Number Mass Area oz/yd2 Grab Strength lbs 01-9514 2024563125 6.66 185.75 01-9514 700116112 6.47 89 01-9514 700116117 7.02 90 01-9514 700116114 7.48 63 01-9514 700116118 8.12 68 01-9514 2024565085 6.7 164.12 01-9514 2024565083 7.13 129.16 01-9514 2024565030 6.23 116.41 01-9514 2024563539 6.36 137.86 01-9514 2024563545 6.47 148.27 01-9514 2024563074 6.6 174.48 01-8991 2022599050 6.78 194.83 01-9514 700096359 7.25 75 01-9514 700082375 7.22 98 01-9514 700116131 7.3 85 01-9514 J20303613 6.8 101 01-9514 2024581519 6.95 162.9 01-9514 2024565075 6.43 134.03 01-9514 2024581509 6.9 167.47 01-9514 700092492 7.42 58 Certifications from our suppliers are on file at our production facility. An '*' or 'PT' indicates supplier certifications were unavailable prior to shipping so testing was performed at a CETCO lab. 01-9514 091416ANWA 7.5 157.4 Form D6243, revision 2 Client:CETCO Project Name:WM-Great Oak Landfill Project Location:--- GTX #:305282 Start Date:09/08/16 Tested By:dln End Date:09/09/16 Checked By:jdt GCL ID:Roll # 5242 Lot #LL-34-2016 GCL Description:White, nonwoven/Black, nonwoven CETCO GCL Test Series #:1 Test Profile - Top to Bottom: Geosynthetic Preparation: Test Equipment: Horizontal Displacement, in/min:0.04 inundated Parameter Point 1 Point 2 Point 3 Point 5 Point 6 Initial Moisture Content, %16.0 ------------ Final Moisture Content, %200.5 ------------ Normal Compressive Stress, psf 200 ------------ Peak Shear Stress, psf 1013 ------------ Post-Peak Shear Stress, psf 324 ------------ Peak Secant Friction Angle, o 78.8 ------------ Post-Peak Secant Friction Angle, o 58.3 ------------ Peak Friction Angle:---degrees Peak Adhesion:---psf Post-Peak Friction Angle:---degrees Post-Peak Adhesion:---psf --- GCL saturated for 24 hours at normal load prior to shear. Top box = 12 in x 12 in; Bottom box = 12 in x 12 in; Load cells and LVDTs connected to data acquisition system for shear force, normal load and horizontal displacement readings; Flat plate clamping device; surface area = 144 in2 --- --- --- --- Notes: These results apply only to the sample tested for the specific test conditions. The test procedures employed follow accepted industry practice and the indicated test method. GeoTesting Express has no specific knowledge as to conditioning, origin, sampling procedure or intended use of the material. Values for cohesion and friction angle determined from best-fit straight line to the data for the specific test conditions. Actual strength parameters may vary and should be determined by an engineer for site-specific conditions. textured (spiked) steel plate / GCL / textured (spiked) gripping surface Internal Shear of GCL Test Series by ASTM D6243 NOTES: The GCL did not fail internally. The GCL slid along the bottom textured (spiked) gripping surface. Figure b. Shear Stress vs. Normal StressFigure a. Shear Force vs. Horizontal Displacement Test Condition: Point 4 --- --- 0 500 1000 1500 0 1 2 3 4 Sh e a r F o r c e , l b f Displacement, inches 0 500 1000 1500 0 500 1000 1500 2000 Sh e a r S t r e s s , p s f Normal Stress, psf Peak Post-Peak CETCO - 92 HWY 37, Lovell, WY. 82431 Computation Sheet : GRI Accredited ASTM D-5887, Index Flux Sample: Lot Number: Roll Number: Project Name: Flux equation : 48hrs Date:9/13/2016 CET-L-302 2psi 140.6 cm.RN 9/9/2016 4 in.5psi 34.5kPa * indicates value meets Flux Ratio ASTM termination criteria Conversions : 2 psi Initial Final Flux Inflow to Time Reading Reading Head H Initial K Flux Avg Flux Final K (Gal/Acre Outflow Date (min)In X Out Y X-Y (cm)(cm)(cm/sec)(m3/m2/sec)(m3/m2/sec)(cm/sec)/Day)Ratio 9/12/2016 0 0.0 24.0 24.0 0.0 24.0 140.63 164.63 100 0.4 23.6 23.6 0.4 23.2 140.63 163.83 4.75E-09 8.22E-09 4.02E-9 1.00 200 0.7 23.3 23.3 0.7 22.6 140.63 163.23 3.58E-09 6.17E-09 *3.03E-9 1.00 300 1.0 23.0 23.0 1.0 22.0 140.63 162.63 3.59E-09 6.17E-09 *3.04E-9 1.00 400 1.3 22.7 22.7 1.3 21.4 140.63 162.03 3.60E-09 6.17E-09 *3.05E-9 1.00 9/13/2016 1343 4.3 19.7 20.0 4.0 15.7 140.63 156.33 3.70E-09 6.21E-09 *3.13E-9 1.11 1443 4.6 19.4 19.7 4.3 15.1 140.63 155.73 3.75E-09 6.17E-09 *6.18E-09 3.17E-9 571 1.00 6.2E-9 -0.23 3.1E-9 cm/s Bentomat DN Permeability equation : ((0.879*Thickness)/(2*Pi*r^2*Time))*ln(Change in Head) LL-34-2016 1.079 cm.Hydration :Permeant : 5162 Oak ((Inflow+Outflow)/200)/Pi*r^2/Time Cell Size : Max. Effective Stress :Requested by : De-aired DI Water Test Position : Initial Head :Analyst :Date Started: Initial Thickness : Final Flux m3/m2/sec Final Hydraulic Conductivity Final Thickness : 0.913 cm. Flux (English) = Flux * 9.2366E+10 CETCO - 92 HWY 37, Lovell, WY. 82431 Computation Sheet : GRI Accredited ASTM D-5887, Index Flux Sample: Lot Number: Roll Number: Project Name: Flux equation : 48hrs Date:9/13/2016 CET-L-303 2psi 140.6 cm.RN 9/7/2016 4 in.5psi 34.5kPa * indicates value meets Flux Ratio ASTM termination criteria Conversions : 2 psi Initial Final Flux Inflow to Time Reading Reading Head H Initial K Flux Avg Flux Final K (Gal/Acre Outflow Date (min)In X Out Y X-Y (cm)(cm)(cm/sec)(m3/m2/sec)(m3/m2/sec)(cm/sec)/Day)Ratio 9/12/2016 0 0.0 24.0 24.0 0.0 24.0 140.63 164.63 100 0.5 23.5 23.5 0.5 23.0 140.63 163.63 5.27E-09 1.03E-08 4.56E-9 1.00 200 0.9 23.1 23.1 0.9 22.2 140.63 162.83 4.24E-09 8.22E-09 *3.67E-9 1.00 300 1.4 22.6 22.6 1.4 21.2 140.63 161.83 5.33E-09 1.03E-08 *4.61E-9 1.00 400 1.8 22.2 22.2 1.8 20.4 140.63 161.03 4.28E-09 8.22E-09 *3.71E-9 1.00 9/13/2016 1343 5.5 18.5 18.6 5.4 13.1 140.63 153.73 4.25E-09 7.96E-09 *3.68E-9 1.03 1443 5.8 18.2 18.3 5.7 12.5 140.63 153.13 3.38E-09 6.17E-09 *7.45E-09 2.93E-9 688 1.00 7.4E-9 -0.32 3.4E-9 cm/s Initial Thickness : Final Flux m3/m2/sec Final Hydraulic Conductivity Final Thickness : 0.829 cm. Flux (English) = Flux * 9.2366E+10 Cell Size : Max. Effective Stress :Requested by : De-aired DI Water Test Position : Initial Head :Analyst :Date Started: Bentomat DN Permeability equation : ((0.879*Thickness)/(2*Pi*r^2*Time))*ln(Change in Head) LL-34-2016 0.957 cm.Hydration :Permeant : 5195 Oak ((Inflow+Outflow)/200)/Pi*r^2/Time C E T C O - 9 2 H W Y 3 7 , L o v e l l , W Y . 8 2 4 3 1 C o m p u t a t i o n S h e e t : G R I A c c r e d i t e d A S T M D - 5 8 8 7 , I n d e x F l u x Sa m p l e : Lo t N u m b e r : Ro l l N u m b e r : Pr o j e c t N a m e : F l u x e q u a t i o n : 48 h r s Da t e : 9/ 1 3 / 2 0 1 6 CE T - L - 3 0 5 2 p s i 1 4 0 . 6 c m . R N 9 / 7 / 2 0 1 6 4 i n . 5 p s i 3 4 . 5 k P a * i n d i c a t e s v a l u e m e e t s F l u x R a t i o A S T M t e r m i n a t i o n c r i t e r i a Co n v e r s i o n s : 2 p s i In i t i a l F i n a l F l u x In f l o w t o Ti m e R e a d i n g R e a d i n g H e a d H I n i t i a l K F l u x A v g F l u x F i n a l K ( G a l / A c r e O u t f l o w Da t e ( m i n ) I n X O u t Y X - Y ( c m ) ( c m ) ( c m / s e c ) (m 3 /m 2 /s e c ) ( m 3 /m 2 /s e c ) (c m / s e c ) / D a y ) R a t i o 9/ 9 / 2 0 1 6 0 0 . 0 2 4 . 0 2 4 . 0 0 . 0 2 4 . 0 1 4 0 . 6 3 1 6 4 . 6 3 1 0 0 0 . 3 2 3 . 7 2 3 . 7 0 . 3 2 3 . 4 1 4 0 . 6 3 1 6 4 . 0 3 3 . 2 5 E - 0 9 6 . 1 7 E - 0 9 2 . 8 8 E - 9 1 . 0 0 2 0 7 0 . 6 2 3 . 4 2 3 . 5 0 . 5 2 2 . 9 1 4 0 . 6 3 1 6 3 . 5 3 2 . 5 4 E - 0 9 4 . 8 0 E - 0 9 * 2 . 2 5 E - 9 1 . 5 0 7 3 6 2 . 0 2 2 . 0 2 2 . 5 1 . 5 2 0 . 5 1 4 0 . 6 3 1 6 1 . 1 3 2 . 4 9 E - 0 9 4 . 6 6 E - 0 9 * 2 . 2 0 E - 9 1 . 4 0 8 3 6 2 . 2 2 1 . 8 2 2 . 3 1 . 7 2 0 . 1 1 4 0 . 6 3 1 6 0 . 7 3 2 . 2 1 E - 0 9 4 . 1 1 E - 0 9 * 1 . 9 6 E - 9 1 . 0 0 9/ 1 0 / 2 0 1 6 2 2 1 9 4 . 9 1 9 . 1 2 0 . 0 4 . 0 1 5 . 1 1 4 0 . 6 3 1 5 5 . 7 3 2 . 0 4 E - 0 9 3 . 7 2 E - 0 9 * 1 . 8 0 E - 9 1 . 1 7 23 1 9 5 . 1 1 8 . 9 1 9 . 8 4 . 2 1 4 . 7 1 4 0 . 6 3 1 5 5 . 3 3 2 . 2 9 E - 0 9 4 . 1 1 E - 0 9 * 3. 9 8 E - 0 9 2. 0 3 E - 9 3 6 8 1 . 0 0 4. 0 E - 9 -0 . 2 6 1. 9 E - 9 c m / s Be n t o m a t D N Pe r m e a b i l i t y e q u a t i o n : (( 0 . 8 7 9 * T h i c k n e s s ) / ( 2 * P i * r ^ 2 * T i m e ) ) * l n ( C h a n g e i n H e a d ) LL - 3 4 - 2 0 1 6 0. 9 8 6 c m . Hy d r a t i o n : P e r m e a n t : 52 6 1 Oa k ( ( I n f l o w + O u t f l o w ) / 2 0 0 ) / P i * r ^ 2 / T i m e Ce l l S i z e : M a x . E f f e c t i v e S t r e s s : R e q u e s t e d b y : D e - a i r e d D I W a t e r Te s t P o s i t i o n : I n i t i a l H e a d : A n a l y s t : D a t e S t a r t e d : In i t i a l T h i c k n e s s : Fi n a l F l u x m 3 /m 2 /s e c Fi n a l H y d r a u l i c C o n d u c t i v i t y Fi n a l T h i c k n e s s : 0. 8 7 3 c m . Fl u x ( E n g l i s h ) = F l u x * 9 . 2 3 6 6 E + 1 0 Appendix E-2 CQA Conformance Testing Results Mail To:Bill To: John Workman <= Same Waste Management, Inc email: jworkman@wm.comcc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report for laboratory testing. Project: Great Oak Landfill TRI Job Reference Number:23596 Material(s) Tested:Six, Cetco Bentomat DN GCL(s) Test(s) Requested:Mass/Unit Area (ASTM D5993)Tensile Strength (ASTM D6768)Peel Strength (ASTM D6496)Index Flux (ASTM D5887) If you have any questions or require any additional information, please call us at 1-800-880-8378. Sincerely, Shawn O'ConnorGeosynthetic Services Divisionwww.GeosyntheticTesting.com cc: jkuhn@tri-env.com (Jeffrey A. Kuhn, Ph.D., P.E. - Division Director) September 1, 2016 page 1 of 7 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll 5097 TRI Log #: 23596 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)0.99 0.98 1.00 1.05 1.02 1.01 0.03 0.75 min Moisture Content (%)24.1 21.6 23.6 22.2 20.0 22.3 1.6 0.75 min Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)105.3 124.1 122.4 135.1 117.1 120.8 10.9 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)6.0 8.4 10.5 9.0 13.4 9.4 2.7 5.0 min Index Flux (ASTM D5887) Index Flux (cm3/cm2/sec)2.3E-07 2.3E-07 1.0E-06 max Hydraulic Conductivity (cm/sec)3.7E-09 3.7E-09 5.0E-09 max MD Machine Direction TD Transverse Direction NA Not Available page 2 of 7 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll 5131 TRI Log #: 23596 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)1.02 0.99 0.97 0.99 1.01 1.00 0.02 0.75 min Moisture Content (%)27.0 25.8 22.4 20.7 20.2 23.2 3.0 0.75 min Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)111.8 121.8 106.4 124.3 112.8 115.4 7.4 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)3.1 8.4 4.7 7.7 8.3 6.5 2.4 5.0 min Index Flux (ASTM D5887) Index Flux (cm3/cm2/sec)1.9E-07 1.9E-07 1.0E-06 max Hydraulic Conductivity (cm/sec)2.7E-09 2.7E-09 5.0E-09 max MD Machine Direction TD Transverse Direction NA Not Available page 3 of 7 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll 5165 TRI Log #: 23596 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)1.00 1.09 1.03 0.98 0.93 1.01 0.06 0.75 min Moisture Content (%)25.4 25.1 24.6 19.9 17.4 22.5 3.6 0.75 min Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)87.1 98.7 115.9 100.8 112.1 102.9 11.5 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)8.5 11.1 8.3 7.5 8.4 8.8 1.4 5.0 min Index Flux (ASTM D5887) Index Flux (cm3/cm2/sec)2.3E-07 2.3E-07 1.0E-06 max Hydraulic Conductivity (cm/sec)3.2E-09 3.2E-09 5.0E-09 max MD Machine Direction TD Transverse Direction NA Not Available page 4 of 7 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll 5199 TRI Log #: 23596 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)0.90 0.99 0.97 1.08 1.03 0.99 0.07 0.75 min Moisture Content (%)25.0 25.3 24.6 18.5 19.0 22.5 3.4 0.75 min Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)100.9 101.1 114.8 116.1 112.2 109.0 7.5 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)8.4 9.5 11.6 5.1 5.6 8.0 2.7 5.0 min Index Flux (ASTM D5887) Index Flux (cm3/cm2/sec)1.7E-07 1.7E-07 1.0E-06 max Hydraulic Conductivity (cm/sec)2.5E-09 2.5E-09 5.0E-09 max MD Machine Direction TD Transverse Direction NA Not Available page 5 of 7 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll 5233 TRI Log #: 23596 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)1.15 1.14 1.03 1.05 1.09 1.09 0.05 0.75 min Moisture Content (%)24.3 25.4 28.2 22.0 22.0 24.4 2.6 0.75 min Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)142.1 138.9 137.3 132.1 139.9 138.1 3.8 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)9.5 12.5 12.5 5.6 9.3 9.9 2.9 5.0 min Index Flux (ASTM D5887) Index Flux (cm3/cm2/sec)2.0E-07 2.0E-07 1.0E-06 max Hydraulic Conductivity (cm/sec)3.4E-09 3.4E-09 5.0E-09 max MD Machine Direction TD Transverse Direction NA Not Available page 6 of 7 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll 5267 TRI Log #: 23596 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)0.98 1.03 0.96 1.07 1.02 1.01 0.04 0.75 min Moisture Content (%)25.7 27.0 27.4 18.5 22.0 24.1 3.8 0.75 min Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)110.0 124.1 111.2 102.3 96.6 108.8 10.4 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)12.7 10.8 11.5 15.5 13.1 12.7 1.8 5.0 min Index Flux (ASTM D5887) Index Flux (cm3/cm2/sec)1.8E-07 1.8E-07 1.0E-06 max Hydraulic Conductivity (cm/sec)2.8E-09 2.8E-09 5.0E-09 max MD Machine Direction TD Transverse Direction NA Not Available page 7 of 7 Mail To:Bill To: John Workman <= SameWaste Management, Inc email: jworkman@wm.comcc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report for laboratory testing. Project: Great Oak Landfill TRI Job Reference Number:24128 Material(s) Tested:Two, Cetco Bentomat DN GCL(s) Test(s) Requested:Mass/Unit Area (ASTM D5993)Tensile Strength (ASTM D6768)Peel Strength (ASTM D6496)Index Flux (ASTM D5887) If you have any questions or require any additional information, please call us at 1-800-880-8378. Sincerely, Shawn O'ConnorGeosynthetic Services Divisionwww.GeosyntheticTesting.com cc: jkuhn@tri-env.com (Jeffrey A. Kuhn, Ph.D., P.E. - Division Director) September 26, 2016 page 1 of 3 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll # 6110, Lot # LL-37-2016 TRI Log #: 24128 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)1.04 0.98 1.02 1.30 1.01 1.07 0.13 0.75 min Moisture Content (%)20.7 26.1 23.4 23.5 18.0 22.3 3.1 Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)55 70 62 95 104 77 21 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)13.5 11.0 6.7 7.8 17.3 11.3 4.3 5.0 min Index Flux (ASTM D5887) Index Flux (m3/m2/sec)2.4E-09 2.4E-09 1.0E-06 max Hydraulic Conductivity (cm/sec)4.3E-09 4.3E-09 5.0E-09 max MD Machine Direction page 2 of 3 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll 6144, Lot # LL-37-2016 TRI Log #: 24128 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)0.89 1.04 0.91 1.00 0.98 0.96 0.06 0.75 min Moisture Content (%)25.3 28.2 20.8 21.8 18.9 23.0 3.7 Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)84 89 92 83 97 89 6 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)11.7 6.2 9.0 13.5 14.3 10.9 3.3 5.0 min Index Flux (ASTM D5887) Index Flux (m3/m2/sec)2.3E-09 2.3E-09 1.0E-06 max Hydraulic Conductivity (cm/sec)3.1E-09 3.1E-09 5.0E-09 max MD Machine Direction page 3 of 3 Mail To:Bill To: John Workman <= SameWaste Management, Inc email: jworkman@wm.comcc email: oholtey@scsengineers.com Dear Mr. Workman: Thank you for consulting TRI/Environmental, Inc. (TRI) for your geosynthetics testing needs. TRI is pleased to submit this final report for laboratory testing. Project: Great Oak Landfill TRI Job Reference Number:24162 Material(s) Tested:One, Cetco Bentomat DN GCL(s) Test(s) Requested:Mass/Unit Area (ASTM D5993)Tensile Strength (ASTM D6768)Peel Strength (ASTM D6496)Index Flux (ASTM D5887) If you have any questions or require any additional information, please call us at 1-800-880-8378. Sincerely, Shawn O'ConnorGeosynthetic Services Divisionwww.GeosyntheticTesting.com cc: jkuhn@tri-env.com (Jeffrey A. Kuhn, Ph.D., P.E. - Division Director) September 26, 2016 page 1 of 2 GCL TEST RESULTS TRI Client: Waste Management, Inc Project: Great Oak Landfill Material: Cetco Bentomat DN GCL Sample Identification: Roll # 6178, Lot # LL-37-2016 TRI Log #: 24162 STD.PROJ. PARAMETER TEST REPLICATE NUMBER MEAN DEV.SPEC. 1 2 3 4 5 6 7 8 9 10 Bentonite - Mass/Unit Area (ASTM D5993, result @ 0% M.C.) Bentonite mass/unit area (lbs/ft2)0.93 0.90 0.92 0.89 1.00 0.93 0.04 0.75 min Moisture Content (%)23.7 24.9 25.8 23.6 20.2 23.6 2.1 Tensile Strength (ASTM D6768) MD - Tensile Strength (lbs/in)94 101 107 98 95 99 5 45 min Peel Strength (ASTM D6496) MD - Peel Strength (lbs/in)9.1 11.1 9.1 15.3 10.8 11.1 2.5 5.0 min Index Flux (ASTM D5887) Index Flux (m3/m2/sec)2.4E-09 2.4E-09 1.0E-06 max Hydraulic Conductivity (cm/sec)3.7E-09 3.7E-09 5.0E-09 max MD Machine Direction page 2 of 2 Appendix F Leachate Management Information Appendix F-1 LCS and LDS Pipe Information Appendix F-2 LCS and LDS Aggregate Material Laboratory Data Appendix F-3 LCS and LDS Pipe Camera Inspection Appendix F-3 Storage Tank Appendix F-4 Forcemain Appendix G Protective Soil Cover Appendix G-1 Laboratory Results Appendix H Leak Location Testing Report Appendix I Weekly Summary Field Reports Appendix J Photographs Appendix K As-Built Drawings