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Home My WebLink AboutSW6190508_Design Specifications_20190614"FOR OFFICIAL USE ONLY" Design/Build SOF Battalion Administration Facility Fort Bragg, North Carolina US Army Corps of Engineers Wilmington District Contract No. W912PM-18-C-0015 1 PN: 63850 i I�! i 23 US Army Corps of Engineers® Wilmington District VOLUME 1 — SITE AND STRUCTURAL BUILDING Design Complete Submittal /4KG A JOINT Specifications Prepared By: ACC VENTURE SLA ARCHITECTS February 12, 2019 2/12/19 This Page Intentionally Left Blank SOF Battalion Administration Facility Fort Bragg, North Carolina PROJECT TABLE OF CONTENTS DEN 03 - CONCRETE 03 11 13.00 10 RAL CAST -IN -PLACE CO 03 15 00.00 10 CONCRETE ORIE 03 20 00.00 10 CONCRETE REI 03 30 00.00 10 CAST- CE CONCRETE 03 30 53 CELLANEOUS CAST -IN -PLACE 03 35 0 0 CONCRETE FINISHING 00.00 10 CONCRETE CURING 4 - MASONRY UNIT 17'lri ION 05 - METALS 05 05 23.16 STRUCT WELDING 05 12 00 TURAL STEEL 05 21 00 STEEL T FRAMING 05 30 STEEL DECKS 00 METAL RAILINGS 27 05 29.0 - COMMUNICATIONS COMMUNICATION SYSTEMS RONIC SAF ELECTRONIC SECURI DIVISION 31 - EARTHWORK 31 00 00 EARTHWORK 31 05 22 GEOTEXTILES USED AS FILTERS 31 31 16.13 CHEMICAL TERMITE CONTROL DIVISION 32 - EXTERIOR IMPROVEMENTS PN63850 W912PM-18-C-0015 FORMING TEM (PDS) FOR SIPRNET 32 05 33 LANDSCAPE ESTABLISHMENT 32 11 23 AGGREGATE BASE COURSES ^» 32 � � 92 �^ 19 riT rnnrtnwTm nrtT nvTwTi'+n SEEDING 32 92 23 SODDING 32 93 00 EXTERIOR PLANTS DIVISION 33 - UTILITIES PROJECT TABLE OF CONTENTS Page 1 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 33 40 00 STORM DRAINAGE UTILITIES 33 46 16 SUBDRAINAGE PIPING - TRANSPORT�CRAS�HB VEHICL -- End of Project Table of Contents -- OF �pz 0�' •• � SS/ E�i N 7 SEAL ` ZOM R. HERRIN `., - 031410 H = = 'If. 48341 `�� hna oa►+� .�P 4'i'0e GrNRT 6 OPy F I •. R00 2/12/19 02.12.19 Sections: Sections: G ` 03 11 13.00 10 27 05 29.00 10 Sections: 03 15 00.00 10 281005 03 30 53 05 52 00 03 20 00.00 10 333200 31 0000 31 0522 03 30 00.00 10 31 31 16.13 3201 19 03 35 00.00 10 3211 23 32 12 13 03 39 00.00 10 32 12 16 32 13 13.06 04 20 00 32 16 19 32 17 23 05 05 23.16 3311 00 33 30 00 05 12 00 33 40 00 33 46 16 0521 00 3471 13.16 05 30 00 O7Fe ry2O18 Sections: 32 05 33 32 92 19 32 92 23 32 93 00t Cyntergy Engineering, PLLC 810 S. Cincinnati Ave. Suite 200 Tulsa, OK 74119 CA# P-0894 Exp. date 6/30/19 PROJECT TABLE OF CONTENTS Page 2 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 ALL VOLUMES - SPECIFICATIONS INDEX - FOR REFERENCE Section Name DIVISION 00 Volume 1A 1 2 STANDARD FORM 1442 SOLICITATIONS INSTRUCTIONS FOR PROCUREMENT 00 10 00 00 22 00 0021 16 INSTRUCTIONS TO PROPOSERS 00 45 00 REPRESENTATIONS AND CERTIFICATIONS 00 70 00 CONDITIONS OF THE CONTRACT 00 73 00 SUPPLEMENTARY CONDITIONS 0001 15 LIST OF DRAWINGS DIVISION 01 GENERAL REQUIREMENTS 01 10 00.10 38 SUPPLEMENTARY SPECIAL CONTRACT REQUIREM TS 01 11 00 SUMMARY OFWORK STATEMENT OF WORK - SITE, CIVIL, UTILITIE A APING i 01 11 01 01 11 02 STATEMENT OF WORK -ARCH ITECTURALk TERI R DESIGN 01 11 03 STATEMENT OF WORK - STRUCTURA YS 01 11 04 STATEMENT OF WORK - MECHANIC G & FIRE SUPPRESSION SYSTEMS STATEMENT OF WORK - ELEC C A ELECTRONIC SYSTEMS STATEMENT OF WORK - SP I MENT 01 11 05 01 11 06 01 1400 WORK RESTRICTIONS PRICE AND PAYMEN RES ADMINISTRATIVE F;CQYR NTS 01 20 00.00 20 01 3000 01 32 01.00 37 PROJECT SCH 01 33 00.00 37 SUBMITTAL P D ES 01 33 16.00 10 DESIGN T (D N AFTER AWARD) 01 33 29.00 37 SUSTAIN I 01 3526 GNME AL SAFETY REQUIREMENTS // 01 42 00 L1 FOR REFERENCE PUBLICATIONS 0145 00.00 AL,TY CONTROL 01 45 00. 01 15 RE IDENT MANAGEMENT SYSTEM CONTRACTOR MODE (RMS CM) MPORARY CONSTRUCTION FACILITIES AND CONTROL 01 5719N TEMPORARY ENVIRONMENTAL CONTROLS 01 5800 PROJECT IDENTIFICATION 01 74 19.00 37 CONSTRUCTION AND DEMOLITION WASTE MANAGEMENT 01 78 00.00 37 CLOSEOUT SUBMITTALS 01 7823 OPERATION AND MAINTENANCE DATA 01 78 24.00 10 FACILITY DATAR EQUIREMENTS 01 91 00.00 37 jCOMMISSIONING Design Complete February 12, 2019 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 ALL VOLUMES - SPECIFICATIONS INDEX - FOR REFERENCE Section Name Volume 1A 1 2 DIVISION 03 CONCRETE STRUCTURAL CAST -IN -PLACE CONCRETE FORMING CONCRETE ACCESSORIES ET 03 11 13.00 10 03 15 00.00 10 03 20 00.00 10 CONCRETE REINFORCING 03 30 00.00 10 CAST -IN -PLACE CONCRETE 03 30 53 MISCELLANEOUS CAST -IN -PLACE CONCRETE 03 35 00.00 10 CONCRETE FINISHING I- 103 39 00.00 10 CONCRETE CURING DIVISION 04 MASONRY 04 20 00 UNIT MASONRY DIVISION 05 METALS 05 05 23.16 STRUCTURAL WELDING 051200 STRUCTURAL STEEL 0521 00 STEEL JOIST FRAMING 05 30 00 STEEL DECKS COLD -FORMED METAL FRAMING MISCELLANEOUS METAL FA B T METAL RAILINGS 05 40 00 05 50 13 1055200 z J# N DIVISION 06 WOOD PLASTICS P ITES 06 10 00 ROUGH CARPE 06 20 00 FINISH CARP 06 41 16.00 10 PLASTIC-^N E AD ARCHITECTURAL CABINETS ISOLID S F FABRICATIONS 10661 16 DIVISION 07 T R AL AND MOISTURE PROTECTION 07 05 23 Ao 071900 &RESSUFTE TESTING AN AIR BARRIER SYSTEM FOR AIR TIGHTNESS W TER REPELLENTS 0721 1 ARD AND BLOCK INSULATION 07 21 MINERAL FIBER BLANKET INSULATION 01 07 22 00 ROOF AND DECK INSULATION 07 24 00 EXTERIOR INSULATION AND FINISH SYSTEMS 070 27 10.00 10 BUILDING AIR BARRIER SYSTEM 0731 13 ASPHALT SHINGLES 07 60 00 FLASHING AND SHEET METAL 07 61 14.00 20 STEEL STANDING SEAM ROOFING 07 84 00 FIRESTOPPING 07 92 00 JOINT SEALANTS 01 Design Complete February 12, 2019 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 ALL VOLUMES - SPECIFICATIONS INDEX - FOR REFERENCE Section Name Volume 1A 1 2 DIVISION 08 OPENINGS STEEL DOORS AND FRAMES WOOD DOORS 0811 13 08 14 00 08 33 23 OVERHEAD COILING DOORS 0841 13 ALUMINUM -FRAMED ENTRANCES AND STOREFRONTS 0871 00 DOOR HARDWARE 08 81 00 GLAZING 1089100 1 METAL WALL LOUVERS DIVISION 09 FINISHES 09 06 00 SCHEDULES FOR FINISHES 09 22 00 SUPPORTS FOR PLASTER AND GYPSUM BOARD 09 29 00 GYPSUM BOARD 09 30 10 CERAMIC, QUARRY, AND GLASS TILING 0951 00 ACOUSTICAL CEILINGS 09 62 38 STATIC -CONTROL FLOORING 09 65 00 RESILIENT FLOORING 09 67 23.13 STANDARD RESINOUS FLOORIN 09 68 00 CARPETING 09 90 00 PAINTS AND COATINGS DIVISION 10 SPECIALTIES 101100 VISUAL DISPLA 0) 10 14 00.10 EXTERIOR SI A 10 14 00.20 INTERIOR IGN E TOILET N�� ENTS 10 21 13 1021 23.16 CUBICLE CK AND HARDWARE 10 22 13 10 26 00 E ESH PARTITIONS A DOOR PROTECTION 10 28 13 T L ACCESSORIES 10 44 1 F E EXTINGUISHERS 10 51 METAL LOCKERS DIVISION 11 EQUIPMENT 11 13 19.13 1 LOADING DOCK LEVELERS Design Complete February 12, 2019 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 ALL VOLUMES - SPECIFICATIONS INDEX - FOR REFERENCE Section Name DIVISION 12 FURNISHINGS 1221 00 WINDOW BLINDS 12 32 00 MANUFACTURED WOOD CASEWORK 12 36 00 COUNTERTOPS 12 48 13 ENTRANCE FLOOR MATS AND FRAMES DIVISION 21 1 FIRE SUPPRESSION 21 13 13.00 10 IWET PIPE SPRINKLER SYSTEM, FIRE PROTECTION Volume NMI: NMI: E-E ■IM97 DIVISION 22 PLUMBING "w 22 00 00 PLUMBING, GENERAL PURPOSE 22 07 19.00 40 PLUMBING PIPING INSULATION 22 15 14.00 40 GENERAL SERVICE COMPRESSED -AIR SYSTEMS, O P ESSURE rJ1111111111111111111ILWA DIVISION 23 HEATING VENTILATING AND AIR CONDIT G AC AIR SUPPLY, DISTRIBUTION, VENTILAT N, HAUST SYSTEMS 23 00 00 23 05 15 COMMON PIPING FOR HVAC 23 05 48.00 40 VIBRATION AND SEISMIC CONTR S AC PIPING AND EQUIPMENT TESTING, ADJUSTING, AND L FOR HVAC 2THERMAL INSULATION R HANICAL SYSTEMS LONWORKS DIRECT L CONTROL FOR HVAC AND OTHER BUILDING CONTIR S M_ S FACILITY GAS P I HYDRONIC P P CHEMICA T OF WATER FOR MECHANICAL SYSTEMS METAL 23 05 93 23 07 00 23 09 23.01 2311 25 2321 23 23 25 00 23 31 13.00 40 23 37 13.00 40 DIF SER , EGISTERS, AND GRILLS 23 52 00 A BOILERS 23 64 10 R CHILLERS, VAPOR COMPRESSION TYPE 23 64 26 C LL D, CHILLED -HOT, AND CONDENSER WATER PIPING SYSTEMS 2381 0 0 ITARY AIR CONDITIONING EQUIPMENT Illk:/ DIVISION INTEGRATED AUTOMATION 25 10 10 UTILITY MONITORING AND CONTROL SYSTEM (UMCS) FRONT END AND INTEGRATION Design Complete February 12, 2019 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 ALL VOLUMES - SPECIFICATIONS INDEX - FOR REFERENCE Section Name Volume 1A 1 2 DIVISION 26 ELECTRICAL BASIC ELECTRICAL MATERIALS AND METHODS 26 00 00.00 20 ■ 26 20 00 INTERIOR DISTRIBUTION SYSTEM ■ 26 24 16.00 40 PANELBOARDS ■ 26 29 23 VARIAE VARIABLE FREQUENCY DRIVE SYSTEMS UNDER 600 VOLTS ■ 26 41 00 LIGHTNING PROTECTION SYSTEM ■ 2651 00 INTERIOR LIGHTING F, 1■ �_�IA DIVISION 27 COMMUNICATIONS 27 05 14.00 10 CABLE TELEVISION PREMISES DISTRIBUTION SYSTEM ■ 27 05 28.36 40 CABLE TRAYS FOR COMMUNICATIONS SYSTEMS ■ 27 05 29.00 10 PROTECTIVE DISTRIBUTION SYSTEM (PDS) FOR SI NET COMMUNICATION SYSTEMS BUILDING TELECOMMUNICATIONS CABLING SJOW MC Z ■ ■ 271000 ■ 27 13 23.00 40 COMMUNICATIONS OPTICAL BACKBONE C ING 1 ■ 27 21 00.00 20 INTERCOMMUNICATION SYSTEM ■ 27 21 00.00 40 INTERCOMMUNICATION SYSTEM ■ 27 21 10.00 40 FIBER OPTIC DATA TRANSMISSIO Y T jTELEVISION SIGNAL RECEPTI ■ 27 41 16.00 10 ■ 28 05 26.00 40 GROUNDING AND BO FO ELECTRONIC SAFETY AND SECURITY ■ 28 08 10 ELECTRONIC SEC IT S EM ACCEPTANCE TESTING ■ 28 10 05 ELECTRONIC U SYSTEMS (ESS) ■ ■ 2831 76 INTERIOR FIR P44 AND MASS NOTIFICATION SYSTEM ■ DIVISION 31 31 00 00 31 05 22 31 31 16.13 .ES USED AS FILTERS TERMITE CONTROL ■ ■ ■ Design Complete February 12, 2019 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 ALL VOLUMES - SPECIFICATIONS INDEX - FOR REFERENCE Section Name Volume 1A 1 2 DIVISION 32 EXTERIOR IMPROVEMENTS 3201 19 FIELD MOLDED SEALANTS FOR SEALING JOINTS IN RIGID PAVEMENTS LANDSCAPE ESTABLISHMENT AGGREGATE BASE COURSES BITUMINOUS TACK AND PRIME COATS 32 05 33 3211 23 32 12 13 32 12 16 HOT -MIX ASPHALT (HMA) FOR ROADS 32 13 13.06 PORTLAND CEMENT CONCRETE PAVEMENT FOR ROADS AND SIT FACILITIES 32 16 19 CONCRETE CURBS, GUTTERS AND SIDEWALKS 32 17 23 PAVEMENT MARKINGS 32 92 19 SEEDING 32 92 23 SODDING 32 93 00 EXTERIOR PLANTS r .v DIVISION 33 DIVISION 33 - UTILITIES 3311 00 WATER UTILITY DISTRIBUTION PIPIN 33 30 00 SANITARY SEWERAGE 33 40 00 STORM DRAINAGE UTILITIES 33 46 16 SUBDRAINAGE PIPING 33 82 00 TELECOMMUNICATIONS E ANT (OSP) I&/ DIVISION 34 DIVISION 34 - TRAWFOSILTgN 3471 13.16 IVEHICLE CRAS ERS Design Complete February 12, 2019 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 31 - EARTHWORK SECTION 31 00 00 EARTHWORK 08/08 PN63850 W912PM-18-C-0015 earthwork activities for buildings, utilities, roadways, railroads, and airfields PART 1 GENERAL 1.1 REFERENCES 1.2 DEFINITIONS 1.2.1 Satisfactory Materials 1.2.2 Unsatisfactory Materials 1.2.3 Cohesionless and Cohesive Materials 1.2.4 Degree of Compaction 1.2.5 Topsoil 1.2.6 Hard/Unyielding Materials 1.2.7 Rock 1.2.8 Unstable Material 1.2.9 Select Granular Material 1.2.9.1 General Requirements 1.2.10 Initial Backfill Material 1.2.11 Expansive Soils 1.2.12 Nonfrost Susceptible (NFS) Material 1.2.13 Pile Supported Structure 1.3 SYSTEM DESCRIPTION 1.3.1 Classification of Excavation 1.3.1.1 Common Excavation 1.3.1.2 Rock Excavation 1.3.2 Dewatering Work Plan 1.4 SUBMITTALS PART 2 PRODUCTS 2.1 REQUIREMENTS FOR OFFSITE SOILS 2.2 BURIED WARNING AND IDENTIFICATION TAPE 2.2.1 Warning Tape for Metallic Piping 2.2.2 Detectable Warning Tape for Non -Metallic Piping 2.3 DETECTION WIRE FOR NON-METALLIC PIPING 2.4 MATERIAL FOR RIP -RAP 2.4.1 Bedding Material 2.4.2 Grout 2.4.3 Rock 2.5 CAPILLARY WATER BARRIER PART 3 EXECUTION 3.1 STRIPPING OF TOPSOIL 3.2 GENERAL EXCAVATION SECTION 31 00 00 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 3.2.1 Ditches, Gutters, and Channel Changes 3.2.2 Drainage Structures 3.2.3 Drainage 3.2.4 Dewatering 3.2.5 Trench Excavation Requirements 3.2.5.1 Bottom Preparation 3.2.5.2 Removal of Unyielding Material 3.2.5.3 Removal of Unstable Material 3.2.5.4 Excavation for Appurtenances 3.2.5.5 Jacking, Boring, and Tunneling 3.2.6 Underground Utilities 3.2.7 Structural Excavation 3.3 SELECTION OF BORROW MATERIAL 3.4 OPENING AND DRAINAGE OF EXCAVATION AND BORROW PITS 3.5 SHORING 3.5.1 General Requirements 3.5.2 Geotechnical Engineer 3.6 GRADING AREAS 3.7 FINAL GRADE OF SURFACES TO SUPPORT CONCRETE 3.8 GROUND SURFACE PREPARATION 3.8.1 General Requirements 3.8.2 Frozen Material 3.9 UTILIZATION OF EXCAVATED MATERIALS 3.10 BURIED TAPE AND DETECTION WIRE 3.10.1 Buried Warning and Identification Tape 3.10.2 Buried Detection Wire 3.11 BACKFILLING AND COMPACTION 3.11.1 Trench Backfill 3.11.1.1 Replacement of Unyielding Material 3.11.1.2 Replacement of Unstable Material 3.11.1.3 Bedding and Initial Backfill 3.11.1.3.1 Class I 3.11.1.3.2 Class II 3.11.1.3.3 Sand 3.11.1.3.4 Gravel and Crushed Stone 3.11.1.4 Final Backfill 3.11.1.4.1 Roadways, Railroads, and Airfields 3.11.1.4.2 Sidewalks, Turfed or Seeded Areas and Miscellaneous Areas 3.11.2 Backfill for Appurtenances 3.12 SPECIAL REQUIREMENTS 3.12.1 Gas Distribution 3.12.2 Water Lines 3.12.3 Heat Distribution System 3.12.4 Electrical Distribution System 3.12.5 Sewage Absorption Trenches or Pits 3.12.5.1 Porous Fill 3.12.6 Rip -Rap Construction 3.12.6.1 Bedding Placement 3.12.6.2 Stone Placement 3.13 EMBANKMENTS 3.13.1 Earth Embankments 3.14 SUBGRADE PREPARATION 3.14.1 Proof Rolling 3.14.2 Construction 3.14.3 Compaction 3.14.3.1 Subgrade for Pavements 3.15 FINISHING 3.15.1 Subgrade and Embankments SECTION 31 00 00 Page 2 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.15.2 Capillary Water Barrier 3.15.3 Grading Around Structures 3.16 PLACING TOPSOIL 3.17 TESTING 3.17.1 Fill and Backfill Material Gradation 3.17.2 In -Place Densities 3.17.3 Check Tests on In -Place Densities 3.17.4 Moisture Contents 3.17.5 Optimum Moisture and Laboratory Maximum Density 3.17.6 Tolerance Tests for Subgrades 3.17.7 Displacement of Sewers 3.18 DISPOSITION OF SURPLUS MATERIAL -- End of Section Table of Contents -- PN63850 W912PM-18-C-0015 SECTION 31 00 00 Page 3 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION 31 00 00 EARTHWORK 08/08 PART 1 GENERAL 1.1 REFERENCES PN63850 W912PM-18-C-0015 The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. AMERICAN ASSOCIATION OF STATE HIGHWAY AND TRANSPORTATION OFFICIALS (AASHTO) AASHTO T 180 (2017) Standard Method of Test for Moisture -Density Relations of Soils Using a 4.54-kg (10-1b) Rammer and a 457-mm (18-in.) Drop AASHTO T 224 (2010) Standard Method of Test for Correction for Coarse Particles in the Soil Compaction Test AMERICAN WATER WORKS ASSOCIATION (AWWA) AWWA C600 (2017) Installation of Ductile -Iron Mains and Their Appurtenances ASTM INTERNATIONAL (ASTM) ASTM C136/C136M (2014) Standard Test Method for Sieve Analysis of Fine and Coarse Aggregates ASTM C33/C33M (2018) Standard Specification for Concrete Aggregates ASTM D1140 (2017) Standard Test Methods for Determining the Amount of Material Finer than 75-pm (No. 200) Sieve in Soils by Washing ASTM D1556/D1556M (2015; E 2016) Standard Test Method for Density and Unit Weight of Soil in Place by Sand -Cone Method ASTM D1557 (2012; E 2015) Standard Test Methods for Laboratory Compaction Characteristics of Soil Using Modified Effort (56,000 ft-lbf/ft3) (2700 kN-m/m3) ASTM D2487 (2017) Standard Practice for Classification of Soils for Engineering Purposes (Unified Soil Classification System) SECTION 31 00 00 Page 4 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 ASTM D4318 (2017; E 2018) Standard Test Methods for Liquid Limit, Plastic Limit, and Plasticity Index of Soils ASTM D6938 (2017a) Standard Test Method for In -Place Density and Water Content of Soil and Soil -Aggregate by Nuclear Methods (Shallow Depth) ASTM D698 (2012; E 2014; E 2015) Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/cu. ft. (600 kN-m/cu. m.)) U.S. ENVIRONMENTAL PROTECTION AGENCY (EPA) EPA 600/4-79/020 (1983) Methods for Chemical Analysis of Water and Wastes EPA SW-846.3-3 (1999, Third Edition, Update III -A) Test Methods for Evaluating Solid Waste: Physical/Chemical Methods 1.2 DEFINITIONS 1.2.1 Satisfactory Materials Satisfactory materials comprise any materials classified by ASTM D2487 as GW, GP, GM, GP -GM, GW-GM, GC, GP -GC, GM -GC, SW, SP, CL, . Satisfactory materials for grading comprise stones less than 8 inches, except for fill material for pavements and railroads which comprise stones less than 3 inches in any dimension. 1.2.2 Unsatisfactory Materials Materials which do not comply with the requirements for satisfactory materials are unsatisfactory. Unsatisfactory materials also include man-made fills; trash; refuse; backfills from previous construction; and material classified as satisfactory which contains root and other organic matter or frozen material. Notify the Contracting Officer when encountering any contaminated materials. 1.2.3 Cohesionless and Cohesive Materials Cohesionless materials include materials classified in ASTM D2487 as GW, GP, SW, and SP. Cohesive materials include materials classified as GC, SC, ML, CL, MH, and CH. Materials classified as GM and SM will be identified as cohesionless only when the fines are nonelastic. Perform testing, required for classifying materials, in accordance with ASTM D4318, ASTM C136/C136M and ASTM D1140. 1.2.4 Degree of Compaction Degree of compaction required, except as noted in the second sentence, is expressed as a percentage of the maximum density obtained by the test procedure presented in ASTM D1557 abbreviated as a percent of laboratory maximum density. Since ASTM D1557 applies only to soils that have 30 percent or less by weight of their particles retained on the 3/4 inch SECTION 31 00 00 Page 5 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 sieve, express the degree of compaction for material having more than 30 percent by weight of their particles retained on the 3/4 inch sieve as a percentage of the maximum density in accordance with AASHTO T 180 and corrected with AASHTO T 224. To maintain the same percentage of coarse material, use the "remove and replace" procedure as described in NOTE 8 of Paragraph 7.2 in AASHTO T 180. 1.2.5 Topsoil Material suitable for topsoils obtained from offsite areas excavations is defined as: Natural, friable soil representative of productive, well -drained soils in the area, free of subsoil, stumps, rocks larger than one inch diameter, brush, weeds, toxic substances, and other material detrimental to plant growth. Amend topsoil pH range to obtain a pH of 5.5 to 7. 1.2.6 Hard/Unyielding Materials Hard/Unyielding materials comprise weathered rock, dense consolidated deposits, or conglomerate materials which are not included in the definition of "rock" with stones greater than 3 inch in any dimension or as defined by the pipe manufacturer, whichever is smaller. These materials usually require the use of heavy excavation equipment, ripper teeth, or jack hammers for removal. 1.2.7 Rock Solid homogeneous interlocking crystalline material with firmly cemented, laminated, or foliated masses or conglomerate deposits, neither of which can be removed without systematic drilling and blasting, drilling and the use of expansion jacks or feather wedges, or the use of backhoe-mounted pneumatic hole punchers or rock breakers; also large boulders, buried masonry, or concrete other than pavement exceeding 1/2 cubic yard in volume. Removal of hard material will not be considered rock excavation because of intermittent drilling and blasting that is performed merely to increase production. 1.2.8 Unstable Material Unstable materials are too wet to properly support the utility pipe, conduit, or appurtenant structure. 1.2.9 Select Granular Material 1.2.9.1 General Requirements Select granular material consist of materials classified as GW, GP, SW, SP, by ASTM D2487 where indicated. The liquid limit of such material must not exceed 35 percent when tested in accordance with ASTM D4318. The plasticity index must not be greater than 12 percent when tested in accordance with ASTM D4318, and not more than 35 percent by weight may be finer than No. 200 sieve when tested in accordance with ASTM D1140. 1.2.10 Initial Backfill Material Initial backfill consists of select granular material or satisfactory materials free from rocks 1 inches or larger in any dimension or free from rocks of such size as recommended by the pipe manufacturer, whichever is smaller. When the pipe is coated or wrapped for corrosion protection, free SECTION 31 00 00 Page 6 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 the initial backfill material of stones larger than 1 inches in any dimension or as recommended by the pipe manufacturer, whichever is smaller. 1.2.11 Expansive Soils Expansive soils are defined as soils that have a plasticity index equal to or greater than 12 when tested in accordance with ASTM D4318. 1.2.12 Nonfrost Susceptible (NFS) Material Nonfrost susceptible material are a uniformly graded washed sand with a maximum particle size of .5 inch and less than 5 percent passing the No. 200 size sieve, and with not more than 3 percent by weight finer than 0.02 mm grain size. 1.2.13 Pile Supported Structure As used herein, a structure where both the foundation and floor slab are pile supported. 1.3 SYSTEM DESCRIPTION Subsurface soil boring logs are appended to the SPECIAL CONTRACT REQUIREMENTS. The subsoil investigation report is attached as an Exhibit to these specifications. These data represent the best subsurface information available; however, variations may exist in the subsurface between boring locations. 1.3.1 Classification of Excavation No consideration will be given to the nature of the materials, and all excavation will be designated as unclassified excavation. 1.3.1.1 Common Excavation Include common excavation with the satisfactory removal and disposal of all materials not classified as rock excavation. 1.3.1.2 Rock Excavation Submit notification of encountering rock in the project. Include rock excavation with blasting, excavating, grading, disposing of material classified as rock, and the satisfactory removal and disposal of boulders 1/2 cubic yard or more in volume; solid rock; rock material that is in ledges, bedded deposits, and unstratified masses, which cannot be removed without systematic drilling and blasting; firmly cemented conglomerate deposits possessing the characteristics of solid rock impossible to remove without systematic drilling and blasting; and hard materials (see Definitions). Include the removal of any concrete or masonry structures, except pavements, exceeding 1/2 cubic yard in volume that may be encountered in the work in this classification. If at any time during excavation, including excavation from borrow areas, the Contractor encounters material that may be classified as rock excavation, uncover such material and notify the Contracting Officer. Do not proceed with the excavation of this material until the Contracting Officer has classified the materials as common excavation or rock excavation and has taken cross sections as required. Failure on the part of the Contractor to uncover such material, notify the Contracting Officer, and allow ample time for classification and cross sectioning of the undisturbed surface of such SECTION 31 00 00 Page 7 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 material will cause the forfeiture of the Contractor's right of claim to any classification or volume of material to be paid for other than that allowed by the Contracting Officer for the areas of work in which such deposits occur. 1.3.2 Dewatering Work Plan Submit procedures for accomplishing dewatering work. 1.4 SUBMITTALS Government approval is required for submittals with a "G" designation; submittals not having a "G" designation are for information only. When used, a designation following the "G" designation identifies the office that will review the submittal for the Government. Submittals with an "S" are for inclusion in the Sustainability eNotebook, in conformance to Section 01 33 29 SUSTAINABILITY REPORTING. Submit the following in accordance with Section 01 33 00 SUBMITTAL PROCEDURES: SD-01 Preconstruction Submittals Shoring; G Dewatering Work Plan; G SD-03 Product Data Utilization of Excavated Materials; G Rock Excavation Opening of any Excavation or Borrow Pit SD-06 Test Reports Testing Borrow Site Testing Within 24 hours of conclusion of physical tests, submit 3 copies of test results, including calibration curves and results of calibration tests. SD-07 Certificates Testing PART 2 PRODUCTS 2.1 REQUIREMENTS FOR OFFSITE SOILS Test offsite soils brought in for use as backfill for Total Petroleum Hydrocarbons (TPH), Benzene, Toluene, Ethyl Benzene, and Xylene (BTEX) and full Toxicity Characteristic Leaching Procedure (TCLP) including ignitability, corrosivity and reactivity. Backfill shall contain a maximum of 100 parts per million (ppm) of total petroleum hydrocarbons (TPH) and a maximum of 10 ppm of the sum of Benzene, Toluene, Ethyl Benzene, and Xylene (BTEX) and shall pass the TCPL test. Determine TPH concentrations by using EPA 600/4-79/020 Method 418.1. Determine BTEX concentrations by using EPA SW-846.3-3 Method 5030/8020. Perform TCLP in accordance with SECTION 31 00 00 Page 8 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 EPA SW-846.3-3 Method 1311. Provide Borrow Site Testing for TPH, BTEX and TCLP from a composite sample of material from the borrow site, with at least one test from each borrow site. Do not bring material onsite until tests have been approved by the Contracting Officer. 2.2 BURIED WARNING AND IDENTIFICATION TAPE Provide polyethylene plastic warning tape manufactured specifically for warning and identification of buried utility lines. Provide tape on rolls, 3 inches minimum width, color coded as specified below for the intended utility with warning and identification imprinted in bold black letters continuously over the entire tape length. Warning and identification to read, "CAUTION, BURIED (intended service) LINE BELOW" or similar wording. Provide permanent color and printing, unaffected by moisture or soil. Warning Tape Color Codes Red Electric Yellow Gas, Oil; Dangerous Materials Orange Telephone and Other Communications Blue Water Systems Green Sewer Systems White Steam Systems Gray Compressed Air 2.2.1 Warning Tape for Metallic Piping Provide acid and alkali -resistant polyethylene plastic tape conforming to the width, color, and printing requirements specified above, with a minimum thickness of 0.003 inch and a minimum strength of 1500 psi lengthwise, and 1250 psi crosswise, with a maximum 350 percent elongation. 2.2.2 Detectable Warning Tape for Non -Metallic Piping Provide polyethylene plastic tape conforming to the width, color, and printing requirements specified above, with a minimum thickness of 0.004 inch, and a minimum strength of 1500 psi lengthwise and 1250 psi crosswise. Manufacture tape with integral wires, foil backing, or other means of enabling detection by a metal detector when tape is buried up to 3 feet deep. Encase metallic element of the tape in a protective jacket or provide with other means of corrosion protection. 2.3 DETECTION WIRE FOR NON-METALLIC PIPING Insulate a single strand, solid copper detection wire with a minimum of 12 AWG. 2.4 MATERIAL FOR RIP -RAP Provide Bedding material and rock conforming to DOT for construction indicated. SECTION 31 00 00 Page 9 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 2.4.1 Bedding Material Provide bedding material consisting of sand, gravel, or crushed rock, well graded, with a maximum particle size of 2 inches. Compose material of tough, durable particles. Allow fines passing the No. 200 standard sieve with a plasticity index less than six. 2.4.2 Grout Provide durable grout composed of cement, water, an air -entraining admixture, and sand mixed in proportions of one part portland cement to two parts of sand, sufficient water to produce a workable mixture, and an amount of admixture which will entrain sufficient air, as determined by the Contracting Officer. Mix grout in a concrete mixer. Allow a sufficient mixing time to produce a mixture having a consistency permitting gravity flow into the interstices of the rip -rap with limited spading and brooming. 2.4.3 Rock Provide rock fragments sufficiently durable to ensure permanence in the structure and the environment in which it is to be used. Use rock fragments free from cracks, seams, and other defects that would increase the risk of deterioration from natural causes. Provide fragments sized so that no individual fragment exceeds a weight of 150 pounds and that no more than 10 percent of the mixture, by weight, consists of fragments weighing 2 pounds or less each. Provide rock with a minimum specific gravity of 2.50 Do not permit the inclusion of more than trace 1 percent quantities of dirt, sand, clay, and rock fines. 2.5 CAPILLARY WATER BARRIER Provide capillary water barrier of clean, poorly graded crushed rock, crushed gravel, or uncrushed gravel placed beneath a building slab with or without a vapor barrier to cut off the capillary flow of pore water to the area immediately below. Conform to ASTM C33/C33M for fine aggregate grading with a maximum of 3 percent by weight passing ASTM D1140, No. 200 sieve, or coarse aggregate Size 57, 67, or 77. PART 3 EXECUTION 3.1 STRIPPING OF TOPSOIL Where indicated or directed, strip topsoil to a depth of 4 inches. Spread topsoil on areas already graded and prepared for topsoil, or transported and deposited in stockpiles convenient to areas that are to receive application of the topsoil later, or at locations indicated or specified. Keep topsoil separate from other excavated materials, brush, litter, objectionable weeds, roots, stones larger than 2 inches in diameter, and other materials that would interfere with planting and maintenance operations. Stockpile in locations indicated any surplus of topsoil from excavations and gradings. 3.2 GENERAL EXCAVATION Perform excavation of every type of material encountered within the limits of the project to the lines, grades, and elevations indicated and as specified. Perform the grading in accordance with the typical sections shown and the tolerances specified in paragraph FINISHING. Transport SECTION 31 00 00 Page 10 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 satisfactory excavated materials and place in fill or embankment within the limits of the work. Excavate unsatisfactory materials encountered within the limits of the work below grade and replace with satisfactory materials as directed. Include such excavated material and the satisfactory material ordered as replacement in excavation. Dispose surplus satisfactory excavated material not required for fill or embankment in areas approved for surplus material storage or designated waste areas. Dispose unsatisfactory excavated material in designated waste or spoil areas. During construction, perform excavation and fill in a manner and sequence that will provide proper drainage at all times. Excavate material required for fill or embankment in excess of that produced by excavation within the grading limits from the borrow areas indicated or from other approved areas selected by the Contractor as specified. 3.2.1 Ditches, Gutters, and Channel Changes Finish excavation of ditches, gutters, and channel changes by cutting accurately to the cross sections, grades, and elevations shown on Drawing Do not excavate ditches and gutters below grades shown. Backfill the excessive open ditch or gutter excavation with satisfactory, thoroughly compacted, material or with suitable stone or cobble to grades shown. Dispose excavated material as shown or as directed, except in no case allow material be deposited a maximum 4 feet from edge of a ditch. Maintain excavations free from detrimental quantities of leaves, brush, sticks, trash, and other debris until final acceptance of the work. 3.2.2 Drainage Structures Make excavations to the lines, grades, and elevations shown, or as directed. Provide trenches and foundation pits of sufficient size to permit the placement and removal of forms for the full length and width of structure footings and foundations as shown. Clean rock or other hard foundation material of loose debris and cut to a firm, level, stepped, or serrated surface. Remove loose disintegrated rock and thin strata. Do not disturb the bottom of the excavation when concrete or masonry is to be placed in an excavated area. Do not excavate to the final grade level until just before the concrete or masonry is to be placed. Where pile foundations are to be used, stop the excavation of each pit at an elevation 1 foot above the base of the footing, as specified, before piles are driven. After the pile driving has been completed, remove loose and displaced material and complete excavation, leaving a smooth, solid, undisturbed surface to receive the concrete or masonry. 3.2.3 Drainage Provide for the collection and disposal of surface and subsurface water encountered during construction. Completely drain construction site during periods of construction to keep soil materials sufficiently dry. Construct storm drainage features (ponds/basins) at the earliest stages of site development, and throughout construction grade the construction area to provide positive surface water runoff away from the construction activity and or provide temporary ditches, swales, and other drainage features and equipment as required to maintain dry soils. When unsuitable working platforms for equipment operation and unsuitable soil support for subsequent construction features develop, remove unsuitable material and provide new soil material as specified herein. It is the responsibility of the Contractor to assess the soil and ground water conditions presented by the plans and specifications and to employ necessary measures to permit construction to proceed. SECTION 31 00 00 Page 11 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.2.4 Dewatering Control groundwater flowing toward or into excavations to prevent sloughing of excavation slopes and walls, boils, uplift and heave in the excavation and to eliminate interference with orderly progress of construction. Do not permit French drains, sumps, ditches or trenches within 3 feet of the foundation of any structure, except with specific written approval, and after specific contractual provisions for restoration of the foundation area have been made. Take control measures by the time the excavation reaches the water level in order to maintain the integrity of the in situ material. Operate dewatering system continuously until construction work below existing water levels is complete. Submit performance records weekly. 3.2.5 Trench Excavation Requirements Excavate the trench as recommended by the manufacturer of the pipe to be installed. Slope trench walls below the top of the pipe, or make vertical, and of such width as recommended in the manufacturer's printed installation manual. Provide vertical trench walls where no manufacturer's printed installation manual is available. Shore trench walls more than 5 feet high, cut back to a stable slope, or provide with equivalent means of protection for employees who may be exposed to moving ground or cave in. Shore vertical trench walls more than 5 feet high. Excavate trench walls which are cut back to at least the angle of repose of the soil. Give special attention to slopes which may be adversely affected by weather or moisture content. Do not exceed the trench width below the pipe top of 24 inches plus pipe outside diameter (O.D.) for pipes of less than 24 inches inside diameter, and do not exceed 36 inches plus pipe outside diameter for sizes larger than 24 inches inside diameter. Where recommended trench widths are exceeded, provide redesign, stronger pipe, or special installation procedures by the Contractor. The Contractor is responsible for the cost of redesign, stronger pipe, or special installation procedures without any additional cost to the Government. 3.2.5.1 Bottom Preparation Grade the bottoms of trenches accurately to provide uniform bearing and support for the bottom quadrant of each section of the pipe. Excavate bell holes to the necessary size at each joint or coupling to eliminate point bearing. Remove stones of 1 inch or greater in any dimension, or as recommended by the pipe manufacturer, whichever is smaller, to avoid point bearing. 3.2.5.2 Removal of Unyielding Material Where overdepth is not indicated and unyielding material is encountered in the bottom of the trench, remove such material 12 inch below the required grade and replaced with suitable materials as provided in paragraph BACKFILLING AND COMPACTION. 3.2.5.3 Removal of Unstable Material Where unstable material is encountered in the bottom of the trench, remove such material to the depth directed and replace it to the proper grade with select granular material as provided in paragraph BACKFILLING AND COMPACTION. When removal of unstable material is required due to the Contractor's fault or neglect in performing the work, the Contractor is SECTION 31 00 00 Page 12 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 responsible for excavating the resulting material and replacing it without additional cost to the Government. 3.2.5.4 Excavation for Appurtenances Provide excavation for manholes, catch -basins, inlets, or similar structures sufficient to leave at least 12 inches clear between the outer structure surfaces and the face of the excavation or support members. Clean rock or loose debris and cut to a firm surface either level, stepped, or serrated, as shown or as directed. Remove loose disintegrated rock and thin strata. Specify removal of unstable material. When concrete or masonry is to be placed in an excavated area, take special care not to disturb the bottom of the excavation. Do not excavate to the final grade level until just before the concrete or masonry is to be placed. 3.2.5.5 Jacking, Boring, and Tunneling Unless otherwise indicated, provide excavation by open cut except that sections of a trench may be jacked, bored, or tunneled if, in the opinion of the Contracting Officer, the pipe, cable, or duct can be safely and properly installed and backfill can be properly compacted in such sections. 3.2.6 Underground Utilities The Contractor is responsible for movement of construction machinery and equipment over pipes and utilities during construction. Perform work adjacent to non -Government utilities as indicated in accordance with procedures outlined by utility company. Report damage to utility lines or subsurface construction immediately to the Contracting Officer. 3.2.7 Structural Excavation Ensure that footing subgrades have been inspected and approved by the Contracting Officer prior to concrete placement. Excavate to bottom of pile cap prior to placing or driving piles, unless authorized otherwise by the Contracting Officer. Backfill and compact over excavations and changes in grade due to pile driving operations to 95 percent of ASTM D698 maximum density. 3.3 SELECTION OF BORROW MATERIAL Select borrow material to meet the requirements and conditions of the particular fill or embankment for which it is to be used. Unless otherwise provided in the contract, the Contractor is responsible for obtaining the right to procure material, pay royalties and other charges involved, and bear the expense of developing the sources, including rights -of -way for hauling from the owners. Borrow material from approved sources on Government -controlled land may be obtained without payment of royalties. Unless specifically provided, do not obtain borrow within the limits of the project site without prior written approval. Consider necessary clearing, grubbing, and satisfactory drainage of borrow pits and the disposal of debris thereon related operations to the borrow excavation. 3.4 OPENING AND DRAINAGE OF EXCAVATION AND BORROW PITS Notify the Contracting Officer sufficiently in advance of the opening of any excavation or borrow pit or borrow areas to permit elevations and measurements of the undisturbed ground surface to be taken. Except as otherwise permitted, excavate borrow pits and other excavation areas SECTION 31 00 00 Page 13 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 providing adequate drainage. Transport overburden and other spoil material to designated spoil areas or otherwise dispose of as directed. Provide neatly trimmed and drained borrow pits after the excavation is completed. Ensure that excavation of any area, operation of borrow pits, or dumping of spoil material results in minimum detrimental effects on natural environmental conditions. 3.5 SHORING 3.5.1 General Requirements Submit a Shoring and Sheeting plan for approval 15 days prior to starting work. Submit drawings and calculations, certified by a registered professional engineer, describing the methods for shoring and sheeting of excavations. Finish shoring, including sheet piling, and install as necessary to protect workmen, banks, adjacent paving, structures, and utilities. Remove shoring, bracing, and sheeting as excavations are backfilled, in a manner to prevent caving. 3.5.2 Geotechnical Engineer Hire a Professional Geotechnical Engineer to provide inspection of excavations and soil/groundwater conditions throughout construction. The Geotechnical Engineer is responsible for performing pre -construction and periodic site visits throughout construction to assess site conditions. The Geotechnical Engineer is responsible for updating the excavation, sheeting and dewatering plans as construction progresses to reflect changing conditions and submit an updated plan if necessary. Submit a monthly written report, informing the Contractor and Contracting Officer of the status of the plan and an accounting of the Contractor's adherence to the plan addressing any present or potential problems. The Contracting Officer is responsible for arranging meetings with the Geotechnical Engineer at any time throughout the contract duration. 3.6 GRADING AREAS Where indicated, divide work into grading areas within which satisfactory excavated material will be placed in embankments, fills, and required backfills. Do not haul satisfactory material excavated in one grading area to another grading area except when so directed in writing. Place and grade stockpiles of satisfactory and unsatisfactory as specified. Keep stockpiles in a neat and well drained condition, giving due consideration to drainage at all times. Clear, grub, and seal by rubber -tired equipment, the ground surface at stockpile locations; separately stockpile excavated satisfactory and unsatisfactory materials. Protect stockpiles of satisfactory materials from contamination which may destroy the quality and fitness of the stockpiled material. If the Contractor fails to protect the stockpiles, and any material becomes unsatisfactory, remove and replace such material with satisfactory material from approved sources. 3.7 FINAL GRADE OF SURFACES TO SUPPORT CONCRETE Do not excavate to final grade until just before concrete is to be placed. Only use excavation methods that will leave the foundation rock in a solid and unshattered condition. Roughen the level surfaces, and cut the sloped surfaces, as indicated, into rough steps or benches to provide a satisfactory bond. Protect shales from slaking and all surfaces from erosion resulting from ponding or water flow. SECTION 31 00 00 Page 14 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.8 GROUND SURFACE PREPARATION 3.8.1 General Requirements Remove and replace unsatisfactory material with satisfactory materials, as directed by the Contracting Officer, in surfaces to receive fill or in excavated areas. Scarify the surface to a depth of 6 inches before the fill is started. Plow, step, bench, or break up sloped surfaces steeper than 1 vertical to 4 horizontal so that the fill material will bond with the existing material. When subgrades are less than the specified density, break up the ground surface to a minimum depth of 6 inches, pulverizing, and compacting to the specified density. When the subgrade is part fill and part excavation or natural ground, scarify the excavated or natural ground portion to a depth of 12 inches and compact it as specified for the adjacent fill. 3.8.2 Frozen Material Do not place material on surfaces that are muddy, frozen, or contain frost. Finish compaction by sheepsfoot rollers, pneumatic -tired rollers, steel -wheeled rollers, or other approved equipment well suited to the soil being compacted. Moisten material as necessary to provide the moisture content that will readily facilitate obtaining the specified compaction with the equipment used. 3.9 UTILIZATION OF EXCAVATED MATERIALS Dispose unsatisfactory materials removing from excavations into designated waste disposal or spoil areas. Use satisfactory material removed from excavations, insofar as practicable, in the construction of fills, embankments, subgrades, shoulders, bedding (as backfill), and for similar purposes. Submit procedure and location for disposal of unused satisfactory material. Submit proposed source of borrow material. Do not waste any satisfactory excavated material without specific written authorization. Dispose of satisfactory material, authorized to be wasted, in designated areas approved for surplus material storage or designated waste areas as directed. Clear and grub newly designated waste areas on Government -controlled land before disposal of waste material thereon. Stockpile and use coarse rock from excavations for constructing slopes or embankments adjacent to streams, or sides and bottoms of channels and for protecting against erosion. Do not dispose excavated material to obstruct the flow of any stream, endanger a partly finished structure, impair the efficiency or appearance of any structure, or be detrimental to the completed work in any way. 3.10 BURIED TAPE AND DETECTION WIRE 3.10.1 Buried Warning and Identification Tape Provide buried utility lines with utility identification tape. Bury tape 12 inches below finished grade; under pavements and slabs, bury tape 6 inches below top of subgrade. 3.10.2 Buried Detection Wire Bury detection wire directly above non-metallic piping at a distance not to exceed 12 inches above the top of pipe. Extend the wire continuously and unbroken, from manhole to manhole. Terminate the ends of the wire inside the manholes at each end of the pipe, with a minimum of 3 feet of wire, SECTION 31 00 00 Page 15 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 coiled, remaining accessible in each manhole. Furnish insulated wire over it's entire length. Install wires at manholes between the top of the corbel and the frame, and extend up through the chimney seal between the frame and the chimney seal. For force mains, terminate the wire in the valve pit at the pump station end of the pipe. 3.11 BACKFILLING AND COMPACTION Place backfill adjacent to any and all types of structures, in successive horizontal layers of loose materia not more than 8 inches in depth. Compact to at least 90 percent laboratory maximum density for cohesive materials or 95 percent laboratory maximum density for cohesionless materials, to prevent wedging action or eccentric loading upon or against the structure. Backfill material must be within the range of -2 to +2 percent of optimum moisture content at the time of compaction. Prepare ground surface on which backfill is to be placed and provide compaction requirements for backfill materials in conformance with the applicable portions of paragraphs GROUND SURFACE PREPARATION. Finish compaction by sheepsfoot rollers, pneumatic -tired rollers, steel -wheeled rollers, vibratory compactors, or other approved equipment. 3.11.1 Trench Backfill Backfill trenches to the grade shown. 3.11.1.1 Replacement of Unyielding Material Replace unyielding material removed from the bottom of the trench with select granular material or initial backfill material. 3.11.1.2 Replacement of Unstable Material Replace unstable material removed from the bottom of the trench or excavation with select granular material placed in layers not exceeding 6 inches loose thickness. 3.11.1.3 Bedding and Initial Backfill Provide bedding of the type and thickness shown. Place initial backfill material and compact it with approved tampers to a height of at least one foot above the utility pipe or conduit. Bring up the backfill evenly on both sides of the pipe for the full length of the pipe. Take care to ensure thorough compaction of the fill under the haunches of the pipe. Except as specified otherwise in the individual piping section, provide bedding for buried piping in accordance with AWWA C600, Type 4, except as specified herein. Compact backfill to top of pipe to 95 percent of ASTM D698 maximum density. Provide plastic piping with bedding to spring line of pipe. Provide materials as follows: 3.11.1.3.1 Class I Angular, 0.25 to 1.5 inch, graded stone, including a number of fill materials that have regional significance such as coral, slag, cinders, crushed stone, and crushed shells. 3.11.1.3.2 Class II Coarse sands and gravels with maximum particle size of 1.5 inch, including SECTION 31 00 00 Page 16 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 various graded sands and gravels containing small percentages of fines, generally granular and noncohesive, either wet or dry. Soil Types GW, GP, SW, and SP are included in this class as specified in ASTM D2487. 3.11.1.3.3 Sand Clean, coarse -grained sand classified as in accordance with Section 31 23 00.00 20 EXCAVATION AND FILL, 3.11.1.3.4 Gravel and Crushed Stone Clean, coarsely graded natural gravel, crushed stone or a combination thereof identified as in accordance with Section 31 23 00.00 20 EXCAVATION AND FILL, or having a classification of GW GP in accordance with ASTM D2487 for bedding and backfill as indicated. Do not exceed maximum particle size of 3 inches. 3.11.1.4 Final Backfill Fill the remainder of the trench, except for special materials for roadways, railroads and airfields, with satisfactory material. Place backfill material and compact as follows: 3.11.1.4.1 Roadways, Railroads, and Airfields Place backfill up to the required elevation as specified. Do not permit water flooding or jetting methods of compaction. 3.11.1.4.2 Sidewalks, Turfed or Seeded Areas and Miscellaneous Areas Deposit backfill in layers of a maximum of 12 inches loose thickness, and compact it to 85 percent maximum density for cohesive soils and 90 percent maximum density for cohesionless soils. Apply this requirement to all other areas not specifically designated above. 3.11.2 Backfill for Appurtenances After the manhole, catchbasin, inlet, or similar structure has been constructed and the concrete has been allowed to cure for 7 days, place backfill in such a manner that the structure is not be damaged by the shock of falling earth. Deposit the backfill material, compact it as specified for final backfill, and bring up the backfill evenly on all sides of the structure to prevent eccentric loading and excessive stress. 3.12 SPECIAL REQUIREMENTS Special requirements for both excavation and backfill relating to the specific utilities are as follows: 3.12.1 Gas Distribution Excavate trenches to a depth that will provide a minimum 18 inches of cover in rock excavation and a minimum 24 inch of cover in other excavation. 3.12.2 Water Lines Excavate trenches to a depth that provides a minimum cover of 3 feet from the existing ground surface, or from the indicated finished grade, whichever is lower, to the top of the pipe. SECTION 31 00 00 Page 17 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.12.3 Heat Distribution System Free initial backfill material of stones larger than 1/4 inch in any dimension. 3.12.4 Electrical Distribution System Provide a minimum cover of 24 inches from the finished grade to direct burial cable and conduit or duct line, unless otherwise indicated. 3.12.5 Sewage Absorption Trenches or Pits 3.12.5.1 Porous Fill Provide backfill material consisting of clean crushed rock or gravel having a gradation such that 100 percent passes the 2 inch sieve and zero percent passes the 1/2 inch sieve. 3.12.6 Rip -Rap Construction Construct rip -rap on filter fabric in the areas indicated. Trim and dress indicated areas to conform to cross sections, lines and grades shown within a tolerance of 0.1 foot. 3.12.6.1 Bedding Placement Spread filter fabric bedding material uniformly to a thickness of at least 3 inches on prepared subgrade as indicated. 3.12.6.2 Stone Placement Place rock for rip -rap on prepared bedding material to produce a well graded mass with the minimum practicable percentage of voids in conformance with lines and grades indicated. Distribute larger rock fragments, with dimensions extending the full depth of the rip -rap throughout the entire mass and eliminate "pockets" of small rock fragments. Rearrange individual pieces by mechanical equipment or by hand as necessary to obtain the distribution of fragment sizes specified above. 3.13 EMBANKMENTS 3.13.1 Earth Embankments Construct earth embankments from satisfactory materials free of organic or frozen material and rocks with any dimension greater than 3 inches. Place the material in successive horizontal layers of loose material not more than 8 inches in depth. Spread each layer uniformly on a soil surface that has been moistened or aerated as necessary, and scarified or otherwise broken up so that the fill will bond with the surface on which it is placed. After spreading, plow, disk, or otherwise break up each layer; moisten or aerate as necessary; thoroughly mix; and compact to at least 90 percent laboratory maximum density for cohesive materials or 95 percent laboratory maximum density for cohesionless materials. Backfill material must be within the range of -2 to +2 percent of optimum moisture content at the time of compaction. Compaction requirements for the upper portion of earth embankments forming subgrade for pavements are identical with those requirements specified in SECTION 31 00 00 Page 18 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 paragraph SUBGRADE PREPARATION. Finish compaction by sheepsfoot rollers, pneumatic -tired rollers, steel -wheeled rollers, vibratory compactors, or other approved equipment. 3.14 SUBGRADE PREPARATION 3.14.1 Proof Rolling Finish proof rolling on an exposed subgrade free of surface water (wet conditions resulting from rainfall) which would promote degradation of an otherwise acceptable subgrade. After stripping, proof roll the existing subgrade with six passes of a dump truck loaded with 4 cubic yards of soil Operate the roller in a systematic manner to ensure the number of passes over all areas, and at speeds between 2-1/2 to 3-1/2 mph. When proof rolling, provide one-half of the passes made with the roller in a direction perpendicular to the other passes. Notify the Contracting Officer a minimum of 3 days prior to proof rolling. Perform proof rolling in the presence of the Contracting Officer. Undercut rutting or pumping of material as directed by the Contracting Officer and replace with fill and backfill material. 3.14.2 Construction Shape subgrade to line, grade, and cross section, and compact as specified. Include plowing, disking, and any moistening or aerating required to obtain specified compaction for this operation. Remove soft or otherwise unsatisfactory material and replace with satisfactory excavated material or other approved material as directed. Excavate rock encountered in the cut section to a depth of 6 inches below finished grade for the subgrade. Bring up low areas resulting from removal of unsatisfactory material or excavation of rock to required grade with satisfactory materials, and shape the entire subgrade to line, grade, and cross section and compact as specified. After rolling, the surface of the subgrade for roadways shall not show deviations greater than 1/2 inch when tested with a 12-foot straightedge applied both parallel and at right angles to the centerline of the area. Do not vary the elevation of the finish subgrade more than 0.05 foot from the established grade and cross section. 3.14.3 Compaction Finish compaction by sheepsfoot rollers, pneumatic -tired rollers, steel -wheeled rollers, vibratory compactors, or other approved equipment. Except for paved areas and railroads, compact each layer of the embankment to at least 90 percent of laboratory maximum density. 3.14.3.1 Subgrade for Pavements Compact subgrade for pavements to at least 92 percentage laboratory maximum density for the depth below the surface of the pavement shown. When more than one soil classification is present in the subgrade, thoroughly blend, reshape, and compact the top 6 inch of subgrade. 3.15 FINISHING Finish the surface of excavations, embankments, and subgrades to a smooth and compact surface in accordance with the lines, grades, and cross sections or elevations shown. Provide the degree of finish for graded areas within 0.1 foot of the grades and elevations indicated except that the degree of finish for subgrades specified in paragraph SUBGRADE SECTION 31 00 00 Page 19 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 PREPARATION. Finish gutters and ditches in a manner that will result in effective drainage. Finish the surface of areas to be turfed from settlement or washing to a smoothness suitable for the application of turfing materials. Repair graded, topsoiled, or backfilled areas prior to acceptance of the work, and re-established grades to the required elevations and slopes. 3.15.1 Subgrade and Embankments During construction, keep embankments and excavations shaped and drained. Maintain ditches and drains along subgrade to drain effectively at all times. Do not disturb the finished subgrade by traffic or other operation. Protect and maintain the finished subgrade in a satisfactory condition until ballast, subbase, base, or pavement is placed. Do not permit the storage or stockpiling of materials on the finished subgrade. Do not lay subbase, base course, ballast, or pavement until the subgrade has been checked and approved, and in no case place subbase, base, surfacing, pavement, or ballast on a muddy, spongy, or frozen subgrade. 3.15.2 Capillary Water Barrier Place a capillary water barrier under concrete floor and area -way slabs grade directly on the subgrade and compact with a minimum of two passes of a hand -operated plate -type vibratory compactor. 3.15.3 Grading Around Structures Construct areas within 5 feet outside of each building and structure line true -to -grade, shape to drain, and maintain free of trash and debris until final inspection has been completed and the work has been accepted. 3.16 PLACING TOPSOIL On areas to receive topsoil, prepare the compacted subgrade soil to a 2 inches depth for bonding of topsoil with subsoil. Spread topsoil evenly to a thickness of 4 inch and grade to the elevations and slopes shown. Do not spread topsoil when frozen or excessively wet or dry. Obtain material required for topsoil in excess of that produced by excavation within the grading limits from offsite areas 3.17 TESTING Perform testing by a Corps validated commercial testing laboratory or the Contractor's validated testing facility. Submit qualifications of the Corps validated commercial testing laboratory or the Contractor's validated testing facilities. If the Contractor elects to establish testing facilities, do not permit work requiring testing until the Contractor's facilities have been inspected, Corps validated and approved by the Contracting Officer. a. Determine field in -place density in accordance with ASTM D1556/D1556M When test results indicate, as determined by the Contracting Officer, that compaction is not as specified, remove the material, replace and recompact to meet specification requirements. C. Perform tests on recompacted areas to determine conformance with specification requirements. Appoint a registered professional civil engineer to certify inspections and test results. These certifications shall state that the tests and observations were performed by or under SECTION 31 00 00 Page 20 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 the direct supervision of the engineer and that the results are representative of the materials or conditions being certified by the tests. The following number of tests, if performed at the appropriate time, will be the minimum acceptable for each type operation. 3.17.1 Fill and Backfill Material Gradation One test per 200 cubic yards stockpiled or in -place source material. Determine gradation of fill and backfill material in accordance with ASTM C136/C136M . 3.17.2 In -Place Densities a. One test per 2000 square feet, or fraction thereof, of each lift of fill or backfill areas compacted by other than hand -operated machines. b. One test per 2000 square feet, or fraction thereof, of each lift of fill or backfill areas compacted by hand -operated machines. C. One test per 50 linear feet, or fraction thereof, of each lift of embankment or backfill. d. One test per 50 linear feet, or fraction thereof, of each lift of embankment or backfill for railroads. 3.17.3 Check Tests on In -Place Densities If ASTM D6938 is used, check in -place densities by ASTM D1556/D1556M as follows: a. One check test per lift for each 2000 square feet, or fraction thereof, of each lift of fill or backfill compacted by other than hand -operated machines. b. One check test per lift for each 2000 square feet, of fill or backfill areas compacted by hand -operated machines. 3.17.4 Moisture Contents In the stockpile, excavation, or borrow areas, perform a minimum of two tests per day per type of material or source of material being placed during stable weather conditions. During unstable weather, perform tests as dictated by local conditions and approved by the Contracting Officer. 3.17.5 Optimum Moisture and Laboratory Maximum Density Perform tests for each type material or source of material including borrow material to determine the optimum moisture and laboratory maximum density values. One representative test per 500 cubic yards of fill and backfill, or when any change in material occurs which may affect the optimum moisture content or laboratory maximum density. 3.17.6 Tolerance Tests for Subgrades Perform continuous checks on the degree of finish specified in paragraph SECTION 31 00 00 Page 21 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 SUBGRADE PREPARATION during construction of the subgrades. 3.17.7 Displacement of Sewers After other required tests have been performed and the trench backfill compacted to 2, feet above the top of the pipe , inspect the pipe to determine whether significant displacement has occurred. Conduct this inspection in the presence of the Contracting Officer. Inspect pipe sizes larger than 36 inches, while inspecting smaller diameter pipe by shining a light or laser between manholes or manhole locations, or by the use of television cameras passed through the pipe. If, in the judgment of the Contracting Officer, the interior of the pipe shows poor alignment or any other defects that would cause improper functioning of the system, replace or repair the defects as directed at no additional cost to the Government. 3.18 DISPOSITION OF SURPLUS MATERIAL Remove surplus material or other soil material not required or suitable for filling or backfilling, and brush, refuse, stumps, roots, and timber from Government property to an approved location . -- End of Section -- SECTION 31 00 00 Page 22 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 31 - EARTHWORK SECTION 31 05 22 GEOTEXTILES USED AS FILTERS 08/08 PN63850 W912PM-18-C-0015 furnishing, hauling, and placing the geotextile, complete, as specified and shown, and maintaining the geotextile until placement of the granular filter material, bedding material, and/or riprap cover is completed and accepted PART 1 GENERAL 1.1 REFERENCES 1.2 SUBMITTALS 1.3 DELIVERY, STORAGE, AND HANDLING PART 2 PRODUCTS 2.1 MATERIALS 2.1.1 General 2.1.2 Geotextile Fiber 2.1.3 Securing Pins 2.2 INSPECTIONS, VERIFICATIONS, AND TESTING 2.2.1 Manufacturing and Sampling 2.2.1.1 Conformance Testing 2.2.1.2 Factory Sampling 2.2.1.3 Needle Punched Geotextile 2.2.2 Site Verification and Testing PART 3 EXECUTION 3.1 SURFACE PREPARATION 3.2 INSTALLATION OF THE GEOTEXTILE 3.2.1 General 3.2.2 Placement 3.3 PROTECTION 3.4 PLACEMENT OF CUSHIONING MATERIAL 3.5 OVERLAPPING AND SEAMING 3.5.1 Overlapping -- End of Section Table of Contents -- SECTION 31 05 22 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION 31 05 22 GEOTEXTILES USED AS FILTERS 08/08 PART 1 GENERAL 1.1 REFERENCES PN63850 W912PM-18-C-0015 The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. ASTM INTERNATIONAL (ASTM) ASTM D123 (2015b; R 2017) Standard Terminology Relating to Textiles ASTM D4354 (2012) Sampling of Geosynthetics for Testing ASTM D4355/D4355M (2014) Deterioration of Geotextiles from Exposure to Light, Moisture and Heat in a Xenon -Arc Type Apparatus ASTM D4491/D4491M (2015) Standard Test Methods for Water Permeability of Geotextiles by Permittivity ASTM D4533/D4533M (2015) Standard Test Method for Trapezoid Tearing Strength of Geotextiles ASTM D4632/D4632M (2015a) Grab Breaking Load and Elongation of Geotextiles ASTM D4751 (2016) Standard Test Method for Determining Apparent Opening Size of a Geotextile ASTM D4833/D4833M (2007; E 2013; R 2013) Index Puncture Resistance of Geotextiles, Geomembranes, and Related Products ASTM D4873/D4873M (2017) Standard Guide for Identification, Storage, and Handling of Geosynthetic Rolls and Samples ASTM D4884/D4884M (2014a) Strength of Sewn or Thermally Bonded Seams of Geotextiles 1.2 SUBMITTALS Government approval is required for submittals with a "G" designation; submittals not having a "G" designation are for information only. When used, a designation following the "G" designation identifies the office that will review the submittal for the Government. Submittals with an "S" are for inclusion in the Sustainability eNotebook, in conformance to SECTION 31 05 22 Page 2 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 Section 01 33 29 SUSTAINABILITY REPORTING. Submit the following in accordance with Section 01 33 00 SUBMITTAL PROCEDURES: SD-04 Product Data Geotextiles 1.3 DELIVERY, STORAGE, AND HANDLING Deliver only approved geotextile rolls to the project site. All geotextile shall be labeled, shipped, stored, and handled in accordance with ASTM D4873/D4873M. No hooks, tongs, or other sharp instruments shall be used for handling geotextile. PART 2 PRODUCTS 2.1 MATERIALS 2.1.1 General Provide geotextile that is a non -woven pervious sheet of plastic yarn as defined by ASTM D123 matching or exceeding the minimum average roll values listed in TABLE 1. Strength values indicated in the table are for the weaker principal direction. TABLE 1 MINIMUM PHYSICAL REQUIREMENTS FOR DRAINAGE GEOTEXTILE PROPERTY UNITS ACCEPTABLE VALUES TEST METHOD GRAB STRENGTH lb Mirafi 205NW ASTM D4632/D4632M PUNCTURE lb 130 ASTM D4833/D4833M TRAPEZOID TEAR lb 85 ASTM D4533/D4533M PERMEABILITY cm/sec Mirafi 205NW ASTM D4491/D4491M APPARENT OPENING SIZE U.S. SIEVE Mirafi 205NW ASTM D4751 PERMITTIVITY sec -1 1.40 Sec-1 ASTM D4491/D4491M ULTRAVIOLET DEGRADATION Percent 50 at 500 Hrs ASTM D4355/D4355M 2.1.2 Geotextile Fiber Fibers used in the manufacturing of the geotextile shall consist of a long -chain synthetic polymer composed of at least 85 percent by weight of polyclefins, polyesters, or polyamides. Add stabilizers and/or inhibitors to the base polymer, if necessary to make the filaments resistant to deterioration caused by ultraviolet light and heat exposure. Reclaimed or recycled fibers or polymer shall not be added to the formulation. Geotextile shall be formed into a network such that the filaments or yarns SECTION 31 05 22 Page 3 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 retain dimensional stability relative to each other, including the edges. Finish the edges of the geotextile to prevent the outer fiber from pulling away from the geotextile. 2.1.3 Securing Pins Secure the geotextile to the embankment or foundation soil by pins to prevent movement prior to placement of revetment materials. Other appropriate means to prevent movement such as staples, sand bags, and stone could also be used. Insert securing pins through both strips of overlapped geotextile along the line passing through midpoints of the overlap. Remove securing pins as placement of revetment materials are placed to prevent tearing of geotextile or enlarging holes. Maximum spacing between securing pins depends on the steepness of the embankment slope. The maximum pins spacing shall be equal to or less than the values listed in TABLE 2. When windy conditions prevail at the construction site, increase the number of pins upon the demand of the Contracting Officer. Anchor terminal ends of the geotextile with key trench or apron at crest, toe of the slope and upstream and downstream limits of installation. TABLE 2 MAXIMUM SPACING FOR SECURING PINS EMBANKMENT SPACING, feet STEEPER THAN 1V ON 3H 2 1V ON 3H TO 1V ON 4H 3 FLATTER THAN 1V ON 4H 5 2.2 INSPECTIONS, VERIFICATIONS, AND TESTING 2.2.1 Manufacturing and Sampling Geotextiles and factory seams shall meet the requirements specified in TABLE 1. 2.2.1.1 Conformance Testing Perform conformance testing in accordance with the manufacturers approved quality control manual. Submit manufacturer's quality control conformance test results. 2.2.1.2 Factory Sampling Randomly sample geotextiles in accordance with ASTM D4354 (Procedure Method A). Sample factory seams at the frequency specified in ASTM D4884/D4884M. Provide all samples from the same production lot as will be supplied for the contract, of the full manufactured width of the geotextile by at least 10 feet long, except that samples for seam strength may be a full width sample folded over and the edges stitched for a length of at least 5 feet. Samples submitted for testing shall be identified by manufacturers lot designation. 2.2.1.3 Needle Punched Geotextile For needle punched geotextile, provide manufacturer certification that the SECTION 31 05 22 Page 4 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 geotextile has been inspected using permanent on-line metal detectors and does not contain any needles. 2.2.2 Site Verification and Testing Collect samples at approved locations upon delivery to the site at the request of the Contracting Officer. Test samples to verify that the geotextile meets the requirements specified in TABLE 1. Identify samples by manufacturers name, type of geotextile, lot number, roll number, and machine direction. Perform testing at an approved laboratory. Submit test results from the lot under review for approval prior to deployment of that lot of geotextile. Rolls which are sampled shall be immediately rewrapped in their protective covering. PART 3 EXECUTION 3.1 SURFACE PREPARATION Prepare surface, on which the geotextile will be placed, to a relatively smooth surface condition in accordance with the applicable portion of this specification and shall be free from obstruction, debris, depressions, erosion feature, or vegetation. Remove any irregularities so as to ensure continuous, intimate contact of the geotextile with all the surface. Any loose material, soft or low density pockets of material, shall be removed; erosion features such as rills, gullies etc. shall be graded out of the surface before geotextile placement. 3.2 INSTALLATION OF THE GEOTEXTILE 3.2.1 General Place the geotextile in the manner and at the locations shown. At the time of installation, reject the geotextile if it has defects, rips, holes, flaws, deterioration or damage incurred during manufacture, transportation or storage. 3.2.2 Placement Place the geotextile with the long dimension parallel to the centerline of the channel and laid smooth and free of tension, stress, folds, wrinkles, or creases. Place the strips to provide a minimum width of 24 inches of overlap for each joint. The placement procedure requires that the length of the geotextile be approximately 20 percent greater than the slope length. Adjust the actual length of the geotextile used based on initial installation experience. Temporary pinning of the geotextile to help hold it in place until the bedding layer is placed will be allowed. Perform trimming in such a manner that the geotextile is not damaged in any way. 3.3 PROTECTION Protect the geotextile at all times during construction from contamination by surface runoff; remove any geotextile so contaminated and replaced with uncontaminated geotextile. Replace any geotextile damaged during its installation or during placement of bedding materials at no cost to the Government. Schedule the work so that the covering of the geotextile with a layer of the specified material is accomplished within 7 calendar days after placement of the geotextile. Failure to comply shall require replacement of geotextile. Protect the geotextile from damage prior to and during the placement of riprap or other materials. Before placement of SECTION 31 05 22 Page 5 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 riprap or other materials, demonstrate that the placement technique will not cause damage to the geotextile. In no case shall any type of equipment be allowed on the unprotected geotextile. 3.4 PLACEMENT OF CUSHIONING MATERIAL Perform placing of cushioning material in a manner to ensure intimate contact of the geotextile with the prepared surface and with the cushioning material. The placement shall also be performed in a manner that will not damage the geotextile including tear, puncture, or abrasion. On sloping surfaces place the cushioning material from the bottom of the slopes upward. During placement, the height of the drop of riprap material shall not be greater than 12 inches. Uncover any geotextile damaged beneath the cushioning material, as necessary, and replaced at no cost to the Government. 3.5 OVERLAPPING AND SEAMING 3.5.1 Overlapping The overlap of geotextile rolls shall be 24 inches. Appropriate measures will be taken to ensure required overlap exists after cushion placement. -- End of Section -- SECTION 31 05 22 Page 6 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 31 - EARTHWORK SECTION 31 31 16.13 CHEMICAL TERMITE CONTROL 08/16 PN63850 W912PM-18-C-0015 termiticide treatment measures for subterranean termite control PART 1 GENERAL 1.1 REFERENCES 1.2 ADMINISTRATIVE REQUIREMENTS 1.3 SUBMITTALS 1.4 QUALITY CONTROL 1.4.1 Regulatory Requirements 1.4.2 Qualifications 1.4.3 Safety Requirements 1.5 DELIVERY, STORAGE, AND HANDLING 1.5.1 Delivery 1.5.2 Inspection 1.5.3 Storage 1.5.4 Handling 1.6 SITE CONDITIONS 1.6.1 Soil Moisture 1.6.2 Runoff and Wind Drift 1.7 WARRANTY PART 2 PRODUCTS 2.1 SYSTEM DESCRIPTION 2.2 MATERIALS 2.2.1 Termiticides PART 3 EXECUTION 3.1 PREPARATION 3.1.1 Verification 3.1.2 Foundation Exterior 3.1.3 Utilities and Vents 3.1.4 Crawl and Plenum Air Spaces 3.1.5 Application Plan 3.2 APPLICATION 3.2.1 Equipment Calibration and Tank Measurement 3.2.2 Mixing and Application 3.2.2.1 Application Method 3.2.2.1.1 Surface Application 3.2.3 Sampling 3.2.4 Vapor Barriers and Waterproof Membranes 3.2.5 Placement of Concrete 3.2.6 Clean Up, Disposal, And Protection 3.2.6.1 Clean Up SECTION 31 31 16.13 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.2.6.2 Disposal of Termiticide 3.3 FIELD QUALITY CONTROL 3.3.1 Verification of Measurement 3.3.2 Inspection 3.3.2.1 Technical Representative 3.4 CLOSEOUT ACTIVITIES 3.5 PROTECTION 3.5.1 Protection of Treated Area 3.5.2 Disturbance of Treated Soils -- End of Section Table of Contents -- PN63850 W912PM-18-C-0015 SECTION 31 31 16.13 Page 2 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 SECTION 31 31 16.13 CHEMICAL TERMITE CONTROL 08/16 PART 1 GENERAL 1.1 REFERENCES The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. U.S. DEPARTMENT OF DEFENSE (DOD) DODI 4150.07 (2008; Change 1-2017) DOD Pest Management Program 1.2 ADMINISTRATIVE REQUIREMENTS Coordinate work related to final grades, landscape plantings, foundations, or any other alterations to finished construction which might alter the condition of treated soils with this specification. 1.3 SUBMITTALS Government approval is required for submittals with a "G" designation; submittals not having a "G" designation are for information only. Submittals with an "S" are for inclusion in the Sustainability eNotebook, in conformance with Section 01 33 29 SUSTAINABILITY REPORTING. Submit the following in accordance with Section 01 33 00 SUBMITTAL PROCEDURES: SD-01 Preconstruction Submittals Termiticide Application Plan; G SD-03 Product Data Termiticides SD-05 Design Data Mixing Formulation SD-06 Test Reports Soil Moisture Calibration Test SD-07 Certificates Qualifications; G SD-08 Manufacturer's Instructions SECTION 31 31 16.13 Page 3 SOF Battalion Administration Facility Fort Bragg, North Carolina Termiticides SD-11 Closeout Submittals Warranty Pest Management Report 1.4 QUALITY CONTROL 1.4.1 Regulatory Requirements PN63850 W912PM-18-C-0015 Comply with DODI 4150.07 for requirements on Contractor's licensing, certification, and record keeping. Maintain daily records using the Pest Management Maintenance Record, DD Form 1532-1, or a computer generated equivalent, and submit copies of records when requested by the Contracting Officer. These forms may be obtained from the main web site: http://www.dtic.mil/whs/directives/forms/eforms/ddl532-l.pdf 1.4.2 Qualifications For the application of pesticides, use the services of an applicator whose principal business is pest control. The applicator must be commercially certified in the state where the work is to be performed as required by DODI 4150.07. Termiticide applicators must also be certified in the U.S. Environmental Protection Agency (EPA) pesticide applicator category which includes structural pest control. Submit a copy of the pest control business license and pesticide applicator certificates. 1.4.3 Safety Requirements Formulate, treat, and dispose of termiticides and their containers in accordance with label directions. Draw water for formulating only from sites designated by the Contracting Officer, and fit the filling hose with a backflow preventer meeting local plumbing codes or standards. Perform filling operations under the direct and continuous observation of a contractor's representative to prevent overflow. Secure pesticides and related materials under lock and key when unattended. Ensure that proper protective clothing and equipment are worn and used during all phases of termiticide application. Dispose of used pesticide containers off Government property. 1.5 DELIVERY, STORAGE, AND HANDLING 1.5.1 Delivery Deliver termiticide material to the site in the original unopened containers bearing legible labels indicating the EPA registration number, manufacturer's registered uses and in new or otherwise good condition as supplied by the manufacturer or formulator. 1.5.2 Inspection Inspect termiticides upon arrival at the job site for conformity to type and quality in accordance with paragraph TERMITICIDES. Each label must bear evidence of registration under the Federal Insecticide, Fungicide, and SECTION 31 31 16.13 Page 4 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 Rodenticide Act (FIFRA), as amended or under appropriate regulations of the host county. Inspect other materials for conformance with specified requirements. Remove unacceptable materials from the job site. 1.5.3 Storage Storage of pesticides on the installation will not be permitted unless it is written into the contract. 1.5.4 Handling Handle and mix termiticides in accordance with the manufacturer's label and SDS, preventing contamination by dirt, water, and organic material. Protect termiticides from weather elements as recommended by the manufacturer's label and SDS. Spill kits must be maintained on pest control vehicles and must be available at the mixing site. Conduct termiticide mixing in an area with adequate spill containment. 1.6 SITE CONDITIONS The following site conditions determine the acceptable time of application. 1.6.1 Soil Moisture Test soils to be treated immediately before application. Test soil moisture content to a minimum depth of 3 inches. The soil moisture must be as recommended by the termiticide manufacturer. Application of thetermiticide is not permitted when soil moisture content exceeds manufacturer's recommendations. 1.6.2 Runoff and Wind Drift Application of termiticide will not be permitted during or immediately following heavy rains, when conditions may allow runoff, or create an environmental hazard or when average wind speed exceeds 10 miles per hour. Termiticide is not permitted to enter water systems, aquifers, or endanger humans or animals. 1.7 WARRANTY Provide a 5 year written warranty against infestations or reinfestations by subterranean termites of the buildings or building additions constructed under this contract. Include in the warranty annual inspections of the buildings or building additions during the warranty period. If live subterranean termite infestation or subterranean termite damage is discovered during the warranty period, and the soil and building conditions have not been altered in the interim: a. Retreat the site and perform other treatment as may be necessary for elimination of subterranean termite infestation; b. Repair damage caused by termite infestation; and C. Reinspect the building approximately 180 days after the re -treatment. SECTION 31 31 16.13 Page 5 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 PART 2 PRODUCTS 2.1 SYSTEM DESCRIPTION Chemical termite control uses liquid termiticide treatments applied to the soil to form a continuous chemical barrier in the soil around both sides of the foundation. The application can be surface applied or rodded and trenched. This barrier prevents foraging termites from reaching the foundation and piers. Only the soil adjacent to these foundation elements is treated. For slab construction (including foundations, patios and garages), the entire soil (or gravel) surface is treated before the vapor barrier is installed and the slab poured over it. Soil treatment is coordinated with all building activities from foundation construction through final grading of the soil around the building's exterior. In order for the treatment to be effective, the final phase of the application must be done after final grading and sometimes after landscaping is completed so that the treated soil is not disturbed. 2.2 MATERIALS 2.2.1 Termiticides Provide termiticides currently registered by the EPA or approved for such use by the appropriate agency of the host county and as approved by the Contracting Officer. Select non -repellant termiticides for maximum effectiveness and duration after application. Select a termiticide that is suitable for the soil and climatic conditions at the project site and apply at the highest labeled rate. Submit manufacturer's label and Safety Data Sheet (SDS) for termiticides proposed for use. PART 3 EXECUTION 3.1 PREPARATION Eliminate food sources by removing debris from clearing and grubbing and post construction wood scraps such as ground stakes, form boards, and scrap lumber from the site, before termiticide application begins. 3.1.1 Verification Before work starts, verify that final grades are as indicated and smooth grading has been completed in accordance with Section 31 00 00 EARTHWORK. Finely grade soil and remove particles larger than 1 inch. Compact soil particles to eliminate soil movement. 3.1.2 Foundation Exterior If the exterior perimeter treatment is applied when the horizontal barrier is applied it will be damaged or removed before construction is completed. The exterior foundation perimeter treatment will have to occur in phases when any pads, porches, aprons, sidewalks, final grading or landscape planting are simultaneously involved adjacent to the building foundation. This treatment area should be coordinated after all major construction but before any pads, porches, or other items requiring special consideration are poured adjacent to the foundation walls. Submit written verification that final grading, landscape planting and other items adjacent to the foundation will not disturb treatment of the soil on the exterior sides of foundation walls, grade beams, and similar structures. SECTION 31 31 16.13 Page 6 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.1.3 Utilities and Vents PN63850 W912PM-18-C-0015 Turn off and block HVAC ducts and vents located in treatment area prior to application, to protect people and animals from termiticide. Submit written verification that the HVAC ducts and vents, water and sewer lines, and plumbing have been turned off or blocked prior to applying termiticide. 3.1.4 Crawl and Plenum Air Spaces Submit written verification that crawl and plenum air spaces have been located and identified prior to applying termiticide. 3.1.5 Application Plan Prior to commencing application of termiticide, submit a Termiticide Application Plan addressing the following items: a. proposed sequence of treatment work including dates and times of application b. termiticide trade name C. EPA registration number d. chemical composition e. concentration of original and diluted material f. formulation g. manufacturer's recommended application rates h. regional requirements i. application rate of active ingredients j. method of application k. area or volume to be treated 1. amount to be applied M. copy of the pest control business license n. copy of the pesticide applicator certificates 3.2 APPLICATION For areas to be treated, establish complete and unbroken vertical and horizontal soil poison barriers between the soil and all portions of the intended structure which may allow termite access to wood and wood related products. Make applications to crawl spaces in accordance with label directions. Applications to crawl space areas that are used as plenum air spaces will not be permitted. 3.2.1 Equipment Calibration and Tank Measurement Submit a list of equipment to be used. Conduct calibration test on the application equipment to be used immediately prior to commencement of termiticide application. Measure the volume and contents of the application tank. Testing must confirm that the application equipment is operating within the manufacturer's specifications and meets the specified requirements. Submit written certification of the equipment calibration test results within 1 week of testing. Where results from the equipment calibration and tank measurements tests are unsatisfactory, re -treatment will be required. 3.2.2 Mixing and Application Perform all work related to formulating, mixing, and application in the presence of the Contracting Officer and a DOD certified pesticide applicator, Pest Management QAE/PAR, or Integrated Pest Management Coordinator. Submit mixing formulation: SECTION 31 31 16.13 Page 7 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 a. Quantity of pesticide used. b. Rate of dispersion. C. Percent of use. d. Total amount used. A closed system is recommended as it prevents the termiticide from coming into contact with the applicator or other persons. Only use water from designated locations. Fit filling hoses with a backflow preventer meeting local plumbing codes or standards. Prevent overflow during the filling operation. Spill kits must be maintained on pest control vehicles and must be available at the mixing site. Termiticide mixing must be conducted in an area that has been designated by the Government representative and that has adequate spill containment. Inspect the application equipment for applying termiticides prior to each day of use for leaks, clogging, wear, or damage. Immediately perform repairs on the application equipment to prevent or eliminate leaks and clogging. 3.2.2.1 Application Method 3.2.2.1.1 Surface Application Use surface application for establishing horizontal barriers. Apply surface applicants as a coarse spray and provide uniform distribution over the soil surface. Termiticide must penetrate a minimum of 1 inch into the soil, or as recommended by the manufacturer. If soils are treated to a depth less than specified or approved, repeat work performed to the depth specified at no additional cost to the Government. 3.2.3 Sampling The Contracting Officer may draw samples for analysis, at any time and without prior notice, from stocks at the job site to determine if the amount of active ingredient specified on the label is being applied. When analysis, performed by the Government, indicates samples contain less than the amount of active ingredient specified on the label, repeat work performed with pesticides conforming to this specification at no additional cost to the Government. 3.2.4 Vapor Barriers and Waterproof Membranes Apply termiticide prior to placement of a vapor barrier or waterproof membrane. 3.2.5 Placement of Concrete Place concrete covering treated soils as soon as the termiticide has reached maximum penetration into the soil as recommended by the manufacturer. 3.2.6 Clean Up, Disposal, And Protection Once application has been completed, proceed with clean up and protection of the site without delay. SECTION 31 31 16.13 Page 8 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.2.6.1 Clean Up PN63850 W912PM-18-C-0015 Clean the site of all material associated with the treatment measures, according to label instructions, and as indicated. Remove and dispose of excess and waste material off Government property. 3.2.6.2 Disposal of Termiticide Dispose of residual termiticides and containers off Government property, and in accordance with label instructions and EPA criteria. 3.3 FIELD QUALITY CONTROL 3.3.1 Verification of Measurement Once termiticide application has been completed, measure tank contents to determine the remaining volume. The total volume measurement of used contents for the application must equal the application rate established in the application plan. Submit written verification that the volume of termiticide used meets the application rate established in the application plan. 3.3.2 Inspection 3.3.2.1 Technical Representative Provide a technical representative who is a DOD certified pesticide applicator or Pest Management Quality Assurance Evaluator (QAE)/Performance Assessment Representative (PAR). The technical representative must be present at all meetings concerning treatment measures for subterranean termites and during treatment application. Contact the Integrated Pest Management Coordinator prior to starting work. 3.4 CLOSEOUT ACTIVITIES Upon completion of this work, submit the Pest Management Report DD Form 1532, or an equivalent computer product, to the Integrated Pest Management Coordinator. This form identifies the target pest, type of operation, brand name and manufacturer of pesticide, formulation, concentration or rate of application used. 3.5 PROTECTION 3.5.1 Protection of Treated Area Immediately after the application, protect the area from other use by erecting barricades as required or directed. Provide signage in accordance with Section 10 14 00.10 EXTERIOR SIGNAGE. Place signage inside the entrances to crawl spaces and identify the space as treated with termiticide and not safe for children or animals. Cover treated areas with plastic if slab is not to be poured immediately following termiticide application. 3.5.2 Disturbance of Treated Soils Re -treat soil and fill material disturbed after treatment before placement of slabs or other covering structures. -- End of Section -- SECTION 31 31 16.13 Page 9 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 SECTION 31 31 16.13 Page 10 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 32 - EXTERIOR IMPROVEMENTS SECTION 32 05 33 LANDSCAPE ESTABLISHMENT 08/17 PN63850 W912PM-18-C-0015 plant material and irrigation during the establishment period PART 1 GENERAL 1.1 REFERENCES 1.2 DEFINITIONS 1.2.1 Pesticide 1.2.2 Stand of Turf 1.2.3 Planter Beds 1.3 RELATED REQUIREMENTS 1.4 SUBMITTALS 1.5 DELIVERY, STORAGE AND HANDLING 1.5.1 Delivery 1.5.2 Storage 1.5.2.1 Fertilizer Storage 1.5.2.2 Antidesiccant's Storage 1.5.3 Handling 1.6 SUSTAINABLE DESIGN REQUIREMENTS 1.6.1 Local/Regional Materials PART 2 PRODUCTS 2.1 POST -PLANT FERTILIZER 2.1.1 Granular Fertilizer 2.2 WATER 2.2.1 Hose 2.3 MULCHES TOPDRESSING 2.3.1 Organic Mulch Materials 2.3.2 Recycled Organic Mulch 2.4 PESTICIDES PART 3 EXECUTION 3.1 EXTENT OF WORK 3.1.1 Policing 3.1.2 Drainage System Maintenance 3.2 IRRIGATION ESTABLISHMENT PERIOD 3.2.1 Fire Hydrants 3.3 GROUNDCOVER ESTABLISHMENT PERIOD 3.3.1 Frequency of Maintenance 3.3.2 Promotion of Growth 3.3.3 Mowing 3.3.3.1 Turf 3.3.3.2 Native Grasses 3.3.3.3 Wildflowers SECTION 32 05 33 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.3.4 Turf Edging and Trimming 3.3.5 Post -Fertilizer Application 3.3.6 Turf Watering 3.3.7 Turf Aeration 3.3.8 Turf Clearance Area 3.3.9 Replanting 3.3.10 Final Inspection and Acceptance 3.4 EXTERIOR PLANT ESTABLISHMENT PERIOD 3.4.1 Frequency of Maintenance 3.4.2 Promotion of Plant Growth and Vigor 3.4.3 Planter Bed Maintenance 3.4.3.1 Shrub Selective Maintenance 3.4.3.2 Tree Maintenance 3.4.4 Slope Erosion Control Maintenance 3.4.5 Removal of Dying or Dead Plants 3.4.6 Tracking of Unhealthy Plants 3.4.7 Final Inspection 3.4.7.1 Total Plants on Site 3.4.7.2 Mulching and Weeding 3.4.7.3 Tree Supports 3.4.7.4 Remedial Work 3.5 FIELD QUALITY CONTROL 3.5.1 Maintenance Inspection Report 3.5.2 Plant Quantities 3.5.3 Tree Staking and Guying Removal -- End of Section Table of Contents -- PN63850 W912PM-18-C-0015 SECTION 32 05 33 Page 2 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 SECTION 32 05 33 LANDSCAPE ESTABLISHMENT 08/17 PART 1 GENERAL 1.1 REFERENCES The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. TREE CARE INDUSTRY ASSOCIATION (TCIA) TCIA Z133 (2017) American National Standard for Arboricultural Operations - Pruning, Repairing, Maintaining, and Removing Trees, and Cutting Brush - Safety Requirements U.S. GREEN BUILDING COUNCIL (USGBC) LEED NC (2009) Leadership in Energy and Environmental Design(tm) New Construction Rating System 1.2 DEFINITIONS 1.2.1 Pesticide Any substance or mixture of substances, including biological control agents, that may prevent, destroy, repel, or mitigate pests and are specifically labeled for use by the U.S. Environmental Protection Agency (EPA). Also, any substance used as a plant regulator, defoliant, disinfectant, or biocide. Examples of pesticides include fumigants, herbicides, insecticides, fungicides, nematicides, molluscicides and rodenticides. 1.2.2 Stand of Turf 100 percent ground cover of the established species. 1.2.3 Planter Beds A planter bed is defined as an area containing one or a combination of the following plant types: shrubs, vines, wildflowers, annuals, perennials, ground cover, and a mulch topdressing excluding turf. Trees may also be found in planter beds. 1.3 RELATED REQUIREMENTS Section 32 92 19 SEEDING applies to this section for installation of seed requirements, with additions and modifications herein. SECTION 32 05 33 Page 3 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 Section 32 93 00 EXTERIOR PLANTS applies to this section for installation of trees, shrubs, ground cover, and wildflower, with additions and modifications herein. 1.4 SUBMITTALS Government approval is required for submittals with a "G" designation; submittals not having a "G" designation are [for Contractor Quality Control approval.][for information only. When used, a designation following the "G" designation identifies the office that will review the submittal for the Government.] Submittals with an "S" are for inclusion in the Sustainability eNotebook, in conformance with Section 01 33 29 SUSTAINABILITY REPORTING. Submit the following in accordance with Section O1 33 00 SUBMITTAL PROCEDURES: SD-01 Preconstruction Submittals Integrated Pest Management Plan; G[, [ ]] SD-03 Product Data Local/Regional Materials (LEED NC) Submit documentation indicating distance between manufacturing facility and the project site. Indicate distance of raw material origin from the project site. Indicate relative dollar value of products included in project. Fertilizer; G Mulches Topdressing (LEED NC) Submit documentation indicating percentage of post-industrial and post -consumer recycled content per unit of product. Indicate relative dollar value of recycled content products to total dollar value of products included in project Organic Mulch Materials Submit documentation indicating type of biobased material in product and biobased content. Indicate relative dollar value of biobased content products to total dollar value of products included in project. Hose (LEED NC) SD-07 Certificates Maintenance Inspection Report Plant Quantities; G SD-10 Operation and Maintenance Data Maintenance SD-11 Closeout Submittals Tree Staking and Guying Removal SECTION 32 05 33 Page 4 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 1.5 DELIVERY, STORAGE AND HANDLING 1.5.1 Delivery Deliver fertilizer, to the site in original containers bearing manufacturer's chemical analysis, name, trade name, or trademark, and indication of conformance to state and federal laws. Instead of containers, fertilizer, may be furnished in bulk with a certificate indicating the above information. 1.5.2 Storage 1.5.2.1 Fertilizer Storage Store material in designated areas. Fertilizer shall be stored in cool, dry locations away from contaminants. 1.5.2.2 Antidesiccant's Storage Do not store with fertilizers or other landscape maintenance materials. 1.5.3 Handling Do not drop or dump materials from vehicles. 1.6 SUSTAINABLE DESIGN REQUIREMENTS 1.6.1 Local/Regional Materials Use materials or products extracted, havested, or recovered, as well as manufactured, within a 500 mile radius from the project site, if available from a minimum of three sources. See Section 01 33 29 LEED (tm) DOCUMENTATION dor cumulative total material requirements. Landscaping materials may be locally available. PART 2 PRODUCTS 2.1 POST -PLANT FERTILIZER 2.1.1 Granular Fertilizer Organic, granular controlled release fertilizer containing the following minimum percentages, by weight, of plant food nutrients: 20 percent available nitrogen 10 percent available phosphorus 10 percent available potassium 2.2 WATER Source of water must be approved by the Contracting Officer, and be of suitable quality for irrigation. SECTION 32 05 33 Page 5 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.2.1 Hose PN63850 W912PM-18-C-0015 Hoses used for watering shall be a minimum of 70 percent post -consumer rubber or plastic. 2.3 MULCHES TOPDRESSING Free from noxious weeds, mold, or other deleterious materials. 2.3.1 Organic Mulch Materials Provide ground or shredded bark from site when available. Biobased content shall be a minimum of 100 percent. Wood cellulose fiber must be processed to contain no growth or germination -inhibiting factors, dyed with non -toxic, biodegradable dye to an appropriate color to facilitate visual metering of materials application. Paper -based hydraulic mulch must contain a minimum of 100 percent post -consumer recycled content. Wood -based hydraulic mulch must contain a minimum of 100 percent recycled materials. 2.3.2 Recycled Organic Mulch Recycled mulch may include compost, tree trimmings, or pine needles with a gradation that passes through a 2-1/2 by 2-1/2 inch screen. Clean recycled mulch of all sticks a minimum one inch in diameter and plastic materials a minimum 3 inch length. The material must be treated to retard the growth of mold and fungi. 2.4 PESTICIDES Submit an Integrated Pest Management Plan, including proposed alternatives to herbicides and pesticides. Use biological pest controls as approved in the Plan. PART 3 EXECUTION 3.1 EXTENT OF WORK Provide landscape construction maintenance to include mowing, edging, overseeding, aeration, fertilizing, watering, weeding, pruning, stake and guy adjusting, for all newly installed landscape areas and existing plant material, unless indicated otherwise, and at all areas inside or outside the limits of the construction that are disturbed by the Contractor's operations. 3.1.1 Policing Police all landscaped areas. Policing includes removal of leaves, branches and limbs regardless of length or diameter, dead vegetation, paper, trash, cigarette butts, garbage, rocks or other debris. Collected debris must be promptly removed and disposed of at an approved disposal site. ][3.1.2 Drainage System Maintenance Remove all obstructions from surface and subsurface drain lines to allow water to flow unrestricted in swales, gutters, catch basins, storm drain curb inlets, and yard drains. Remove grates and clear debris in catch basins. Open drainage channels are to be maintained free of all debris and vegetation at all times. Edges of these channels must be clear of any SECTION 32 05 33 Page 6 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 encroachment by vegetation. 3.2 IRRIGATION ESTABLISHMENT PERIOD 3.2.1 Fire Hydrants To use a fire hydrant for irrigation, obtain prior clearance from the Contracting Officer and provide the tools and connections approved for use on fire hydrants. If a fire hydrant is used, Provide a reduced pressure backflow preventer for each connection between hose and fire hydrant. Backflow preventer used must be tested once per month by a certified backflow preventer tester. 3.3 GROUNDCOVER ESTABLISHMENT PERIOD Groundcover establishment period will commence on the date that inspection by the Contracting Officer shows that the new turf furnished under this contract has been satisfactorily installed to a 95 percent stand of coverage. The establishment period must continue for a period of 365 days. 3.3.1 Frequency of Maintenance Begin maintenance immediately after turf has been installed. Inspect areas once a week during the installation and establishment period and perform needed maintenance promptly. 3.3.2 Promotion of Growth Maintain groundcover in a manner that promotes proper health, growth, natural color. Turf must have a neat uniform manicured appearance, free of bare areas, ruts, holes, weeds, pests, dead vegetation, debris, and unwanted vegetation that present an unsightly appearance. Mow, remove excess clippings, eradicate weeds, water, fertilize, overseed, aerate, topdress and perform other operations necessary to promote growth, as approved by Contracting Officer and consistent with approved Integrated Pest Management Plan. Remove noxious weeds common to the area from planting areas by mechanical means. 3.3.3 Mowing 3.3.3.1 Turf Mow turf at a uniform finished height. Mow turfed areas to a minimum average height of 4 inches when average height of grass becomes 6 inches for spring/summer maintenance and to a minimum average height of 3 inches when the average height of grass reaches 5 inches for fall maintenance. The height of turf is measured from the soil. Perform mowing of turf in a manner that prevents scalping, rutting, bruising, uneven and rough cutting. Prior to mowing, all rubbish, debris, trash, leaves, rocks, paper, and limbs or branches on a turf area must be picked up and disposed. Adjacent paved areas must be swept/vacuumed clean. 3.3.3.2 Native Grasses Mow above height of native grass seedlings (approximately 3.5 to 4 inches ). Mow during spring or early summer. Do not mow after early summer during the second growing season. SECTION 32 05 33 Page 7 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.3.3.3 Wildflowers Mow three times per season above height of the wildflowers (approximately 12 to 15 inches). 3.3.4 Turf Edging and Trimming Perimeter of planter bed edges, sidewalks, driveways, curbs, and other paved surfaces must be edged. Uniformly edge these areas to prevent encroachment of vegetation onto paved surfaces and to provide a clear cut division line between planter beds, turf, and ground cover. Edging is to be accomplished in a manner that prevents scalping, rutting, bruising, uneven and rough cutting. Perform edging on the same day that turf is mowed. Use of string line trimmers is permitted in "soft" areas such as an edge between turfgrass and a planter bed. Exercise care to avoid damage to any plant materials, structures, and other landscape features. Trimming around trees, fences, poles, walls, and other similar objects is to be accomplished to match the height and appearance of surrounding mowed turf growth. Trimming must be performed on the same day the turf's mowed. Care must be exercised to avoid "Girdling" trees located in turf areas. The use of protective tree collars on trees in turf areas may be utilized as a temporary means to avoid injury to tree trunks. At the end of the plant establishment period Contractor will be responsible for removing all protective tree collars. 3.3.5 Post -Fertilizer Application Apply turf fertilizer in a manner that promotes health, growth, vigor, color and appearance of cultivated turf areas. The method of application, fertilizer type and frequencies must be determined by the laboratory soil analysis results the requirements of the particular turf species. Organic fertilizer must be used. In the event that organic fertilizer is not producing the desired effect, the Contractor must contract the Contracting Officer for approval prior to the use of a synthetic type of fertilizer. Apply fertilizer by approved methods in accordance with the manufacturer's recommendations. 3.3.6 Turf Watering Perform irrigation in a manner that promotes the health, growth, color and appearance of cultivated vegetation and that complies with all Federal, State, and local water agencies and authorities directives. The Contractor must be responsible to prevent over watering, water run-off, erosion, and ponding due to excessive quantities or rate of application. Abide by state, local or other water conservation regulations or restrictions in force during the establishment period.. 3.3.7 Turf Aeration Upon completion of weed eradication operations and Contracting Officer's approval to proceed, aerate turf areas by approved device. Core, by pulling soil plugs, to a minimum depth of 2 inches. Leave all soil plugs that are produced in the turf area.[ After aeration operations are complete, topdress entire area 1/2 inch depth with the following mixture: 30 percent sand 30 percent humus SECTION 32 05 33 Page 8 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 20 percent gypsum 20 percent lime Blend all parts of topdressing mixture to a uniform consistency throughout. Keep clean at all times at least one paved pedestrian access route and one paved vehicular access route to each building. Clean all soil plugs off of other paving when work is complete. This work must commence 15 days prior final acceptance of the maintenance establishment period. 3.3.8 Turf Clearance Area Trees located in turf areas must be maintained with a growth free clearance of 18 inches from the tree trunk base. The use of mechanical weed whips to accomplish the turf growth free bed area is prohibited. 3.3.9 Replanting Replant in accordance with Section 32 92 19 SEEDING and within specified planting dates areas which do not have a satisfactory stand of turf. 3.3.10 Final Inspection and Acceptance Final inspection will be made upon written request from the Contractor at least 10 days prior to the last day of the turf establishment period. Final turf acceptance will be based upon a satisfactory stand of turf. 3.4 EXTERIOR PLANT ESTABLISHMENT PERIOD The exterior plant establishment period will commence on the date that inspection by the Contracting Officer shows that the new plants furnished under this contract have been satisfactorily installed and must continue for a period of 365 days. 3.4.1 Frequency of Maintenance Begin maintenance immediately after plants have been installed. Inspect exterior plants at least once a week during the installation and establishment period and perform needed maintenance promptly. 3.4.2 Promotion of Plant Growth and Vigor Water, prune, fertilize, mulch, adjust stakes, guys and turnbuckles, eradicate weeds and perform other operations necessary to promote plant growth, and vigor. 3.4.3 Planter Bed Maintenance Planter beds must be weeded, fertilized, irrigated, kept pest free, turf free, pruned, and mulch levels maintained. Planter beds will not be allowed to encroach into turf areas. A definite break must be maintained between turf areas and planter beds. 3.4.3.1 Shrub Selective Maintenance In addition to the above requirements, shrubs must be selectively pruned, and shaped for health and safety when the following conditions exist: Remove growth in front of windows, over entrance ways or walks, and any growth which will obstruct vision at street intersections or of security personnel; Remove dead, damaged or diseased branches or limbs; where shrub SECTION 32 05 33 Page 9 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 growth obstructs pedestrian walkways; where shrub growth is found growing against or over structures; where shrub growth permits concealment of unauthorized persons. Dispose of all pruning debris in a proper manner. 3.4.3.2 Tree Maintenance Tree maintenance must include adjustment of stakes, ties, guy supports and turnbuckles, watering, fertilizing, pest control, mulching, pruning for health and safety. Inspect and adjust stakes, ties, guy supports and turnbuckles to avoid girdling and promote natural development. All trees within the project boundaries, regardless of caliper, must be selectively pruned for safety and health reasons. These include but are not limited to removal of dead and broken branches and correction of structural defects. Prune trees according to their natural growth characteristics leaving trees well shaped and balanced. Pruning of all trees including palm trees must be accomplished by or in the presence of a certified member of the International Society of Arboriculture and in accordance with TCIA Z133. All pruning debris generated must be disposed of in a proper manner. 3.4.4 Slope Erosion Control Maintenance Provide slope erosion control maintenance to prevent undermining of all slopes in newly landscaped and natural growth areas. Maintenance tasks include immediate repairs to weak spots in sloped areas, and graded berms, and terraces to intercept and direct water flow to prevent development of large gullies and slope erosion . Eroded areas must be filled with amended topsoil and replanted with the same plant species. Erosion control netting blankets damaged due to slope erosion must be reinstalled. 3.4.5 Removal of Dying or Dead Plants Remove dead and dying plants and provide new plants immediately upon commencement of the specified planting season, and replace stakes, guys, mulch and eroded earth mound water basins. Provide an additional 90 day establishment period for replacement plants beyond the original warranty period. A tree must be considered dying or dead when the main leader has died back, or a minimum of 20 percent of the crown has died. A shrub or ground cover must be considered dying or dead when a minimum of 20 percent of the plant has died. This condition must be determined by scraping on a branch an area 1/16 inch square, maximum, to determine the cause for dying plant material and must provide recommendations for replacement. The Contractor must determine the cause for dying plant material and provide recommendations for replacement. 3.4.6 Tracking of Unhealthy Plants Note plants not in healthy growing condition, as determined by the Contracting Officer, and as soon as seasonal conditions permit, remove and replace with plants of the same species and sizes as originally specified. Install replacement plantings in accordance with Section 32 93 00 EXTERIOR PLANTS. 3.4.7 Final Inspection Final inspection will be made upon written request from the Contractor at least 10 days prior to the last day of the establishment period. Final inspection will be based upon satisfactory health and growth of plants and on the following: SECTION 32 05 33 Page 10 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.4.7.1 Total Plants on Site PN63850 W912PM-18-C-0015 Plants have been accepted and required number of replacements have been installed. 3.4.7.2 Mulching and Weeding Planter beds and earth mound water basins are properly mulched and free of weeds. 3.4.7.3 Tree Supports Stakes guys and turnbuckles are in good condition. ]3.4.7.4 Remedial Work Remedial measures directed by the Contracting Officer to ensure plant material survival and promote healthy growth have been completed. 3.5 FIELD QUALITY CONTROL 3.5.1 Maintenance Inspection Report Provide maintenance inspection report to assure that landscape maintenance is being performed in accordance with the specifications and in the best interest of plant growth and survivability. Site observations must be documented at the start of the establishment period, then quarterly following the start, and at the end of establishment period. Submit results of site observation visits to the Contracting Officer within 7 calendar days of each site observation visit. 3.5.2 Plant Quantities Provide Contracting Officer with the number of plant quantities. In addition, provide total exterior area of hardscape and landscaping such as turf and total number of shrubs. 3.5.3 Tree Staking and Guying Removal Provide a certified letter that all stakes and guys are removed from all project trees at the end of the establishment period. -- End of Section -- SECTION 32 05 33 Page 11 This Page Intentionally Left Blank SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 32 - EXTERIOR IMPROVEMENTS SECTION 32 11 23 AGGREGATE BASE COURSES 08/17 PN63850 W912PM-18-C-0015 base course to be used directly under bituminous pavement courses PART 1 GENERAL 1.1 REFERENCES 1.2 DEFINITIONS 1.2.1 Aggregate Base Course 1.2.2 Graded -Crushed Aggregate Base Course 1.2.3 Degree of Compaction 1.3 SUBMITTALS 1.4 EQUIPMENT, TOOLS, AND MACHINES 1.5 QUALITY ASSURANCE 1.5.1 Sampling 1.5.2 Tests 1.5.2.1 Sieve Analysis 1.5.2.2 Liquid Limit and Plasticity Index 1.5.2.3 Moisture -Density Determinations 1.5.2.4 Field Density Tests 1.5.2.5 Soundness 1.6 ENVIRONMENTAL REQUIREMENTS PART 2 PRODUCTS 2.1 AGGREGATES 2.1.1 Coarse Aggregate 2.1.1.1 Aggregate Base Course 2.1.1.2 Graded -Crushed Aggregate Base Course 2.1.2 Fine Aggregate 2.1.2.1 Aggregate Base Course 2.1.2.2 Graded -Crushed Aggregate Base Course 2.1.3 Gradation Requirements 2.2 LIQUID LIMIT AND PLASTICITY INDEX 2.3 TESTS, INSPECTIONS, AND VERIFICATIONS 2.3.1 Initial Tests 2.3.2 Approval of Material PART 3 EXECUTION 3.1 GENERAL REQUIREMENTS 3.2 STOCKPILING MATERIAL 3.3 PREPARATION OF UNDERLYING COURSE OR SUBGRADE 3.4 GRADE CONTROL 3.5 LAYER THICKNESS 3.6 COMPACTION 3.7 PROOF ROLLING SECTION 32 11 23 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.8 EDGES OF BASE COURSE 3.9 FINISHING 3.10 SMOOTHNESS TEST 3.11 FIELD QUALITY CONTROL 3.11.1 In -Place Tests 3.11.2 Approval of Material 3.12 TRAFFIC 3.13 MAINTENANCE 3.14 DISPOSAL OF UNSATISFACTORY MATERIALS -- End of Section Table of Contents -- PN63850 W912PM-18-C-0015 SECTION 32 11 23 Page 2 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION 32 11 23 AGGREGATE BASE COURSES 08/17 PART 1 GENERAL 1.1 REFERENCES PN63850 W912PM-18-C-0015 The publications listed below form a part of this specification to the extent referenced. The publications are referred to in the text by basic designation only. AMERICAN ASSOCIATION OF STATE HIGHWAY AND TRANSPORTATION OFFICIALS (AASHTO) AASHTO T 180 (2017) Standard Method of Test for Moisture -Density Relations of Soils Using a 4.54-kg (10-1b) Rammer and a 457-mm (18-in.) Drop AASHTO T 224 (2010) Standard Method of Test for Correction for Coarse Particles in the Soil Compaction Test AASHTO T 88 (2013) Standard Method of Test for Particle Size Analysis of Soils ASTM INTERNATIONAL (ASTM) ASTM C117 (2017) Standard Test Method for Materials Finer than 75-um (No. 200) Sieve in Mineral Aggregates by Washing ASTM C127 (2015) Standard Test Method for Density, Relative Density (Specific Gravity), and Absorption of Coarse Aggregate ASTM C128 (2015) Standard Test Method for Density, Relative Density (Specific Gravity), and Absorption of Fine Aggregate ASTM C131/C131M (2014) Standard Test Method for Resistance to Degradation of Small -Size Coarse Aggregate by Abrasion and Impact in the Los Angeles Machine ASTM C136/C136M (2014) Standard Test Method for Sieve Analysis of Fine and Coarse Aggregates ASTM C29/C29M (2017a) Standard Test Method for Bulk Density ("Unit Weight") and Voids in Aggregate ASTM C88 (2013) Standard Test Method for Soundness of Aggregates by Use of Sodium Sulfate or SECTION 32 11 23 Page 3 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 Magnesium Sulfate ASTM D1556/D1556M (2015; E 2016) Standard Test Method for Density and Unit Weight of Soil in Place by Sand -Cone Method ASTM D1557 (2012; E 2015) Standard Test Methods for Laboratory Compaction Characteristics of Soil Using Modified Effort (56,000 ft-lbf/ft3) (2700 kN-m/m3) ASTM D2167 (2015) Density and Unit Weight of Soil in Place by the Rubber Balloon Method ASTM D2487 (2017) Standard Practice for Classification of Soils for Engineering Purposes (Unified Soil Classification System) ASTM D4318 (2017; E 2018) Standard Test Methods for Liquid Limit, Plastic Limit, and Plasticity Index of Soils ASTM D5821 (2013; R 2017) Standard Test Method for Determining the Percentage of Fractured Particles in Coarse Aggregate ASTM D6938 (2017a) Standard Test Method for In -Place Density and Water Content of Soil and Soil -Aggregate by Nuclear Methods (Shallow Depth) ASTM D75/D75M (2014) Standard Practice for Sampling Aggregates ASTM Ell (2016) Standard Specification for Woven Wire Test Sieve Cloth and Test Sieves 1.2 DEFINITIONS For the purposes of this specification, the following definitions apply. 1.2.1 Aggregate Base Course Aggregate base course (ABC) is well graded, durable aggregate uniformly moistened and mechanically stabilized by compaction. 1.2.2 Graded -Crushed Aggregate Base Course Graded -crushed aggregate (GCA) base course is well graded, crushed, durable aggregate uniformly moistened and mechanically stabilized by compaction. 1.2.3 Degree of Compaction Degree of compaction required, except as noted in the second sentence, is expressed as a percentage of the maximum laboratory dry density obtained by the test procedure presented in ASTM D1557 abbreviated as a percent of laboratory maximum dry density. Since ASTM D1557 applies only to soils that have 30 percent or less by weight of their particles retained on the SECTION 32 11 23 Page 4 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 3/4 inch sieve, the degree of compaction for material having more than 30 percent by weight of their particles retained on the 3/4 inch sieve will be expressed as a percentage of the laboratory maximum dry density in accordance with AASHTO T 180 Method D and corrected with AASHTO T 224. 1.3 SUBMITTALS Government approval is required for submittals with a "G" designation; submittals not having a "G" designation are for information only. When used, a designation following the "G" designation identifies the office that will review the submittal for the Government. Submittals with an "S" are for inclusion in the Sustainability eNotebook, in conformance to Section 01 33 29 SUSTAINABILITY REPORTING. Submit the following in accordance with Section 01 33 00 SUBMITTAL PROCEDURES: SD-06 Test Reports Initial Tests; G In -Place Tests; G 1.4 EQUIPMENT, TOOLS, AND MACHINES All plant, equipment, and tools used in the performance of the work will be subject to approval by the Contracting Officer before the work is started. Maintain all plant, equipment, and tools in satisfactory working condition at all times. Submit a list of proposed equipment, including descriptive data. Use equipment capable of minimizing segregation, producing the required compaction, meeting grade controls, thickness control, and smoothness requirements as set forth herein. 1.5 QUALITY ASSURANCE Sampling and testing are the responsibility of the Contractor. Perform sampling and testing using a laboratory approved in accordance with Section O1 45 00.00 10 QUALITY CONTROL. Work requiring testing will not be permitted until the testing laboratory has been inspected and approved. Test the materials to establish compliance with the specified requirements and perform testing at the specified frequency. The Contracting Officer may specify the time and location of the tests. Furnish copies of test results to the Contracting Officer within 24 hours of completion of the tests. 1.5.1 Sampling Take samples for laboratory testing in conformance with ASTM D75/D75M. When deemed necessary, the sampling will be observed by the Contracting Officer. 1.5.2 Tests 1.5.2.1 Sieve Analysis Perform sieve analysis in conformance with ASTM C117 and ASTM C136/C136M using sieves conforming to ASTM Ell. . SECTION 32 11 23 Page 5 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 1.5.2.2 Liquid Limit and Plasticity Index Determine liquid limit and plasticity index in accordance with ASTM D4318. 1.5.2.3 Moisture -Density Determinations Determine the laboratory maximum dry density and optimum moisture content in accordance with paragraph DEGREE OF COMPACTION. 1.5.2.4 Field Density Tests Measure field density in accordance with ASTM D1556/D1556M, ASTM D2167 or ASTM D6938. For the method presented in ASTM D1556/D1556M use the base plate as shown in the drawing. For the method presented in ASTM D6938 check the calibration curves and adjust them, if necessary, using only the sand cone method as described in paragraph Calibration, of the ASTM publication. Tests performed in accordance with ASTM D6938 result in a wet unit weight of soil and ASTM D6938 will be used to determine the moisture content of the soil. Also check the calibration curves furnished with the moisture gauges along with density calibration checks as described in ASTM D6938. Make the calibration checks of both the density and moisture gauges using the prepared containers of material method, as described in paragraph Calibration of ASTM D6938, on each different type of material being tested at the beginning of a job and at intervals as directed. Submit calibration curves and related test results prior to using the device or equipment being calibrated. 1.5.2.5 Soundness Perform soundness tests on GCA in accordance with ASTM C88. 1.6 ENVIRONMENTAL REQUIREMENTS Perform construction when the atmospheric temperature is above 35 degrees F. When the temperature falls below 35 degrees F, protect all completed areas by approved methods against detrimental effects of freezing. Correct completed areas damaged by freezing, rainfall, or other weather conditions to meet specified requirements. PART 2 PRODUCTS 2.1 AGGREGATES Provide ABC consisting of clean, sound, durable particles of crushed stone, crushed gravel, angular sand, or other approved material. Provide ABC that is free of lumps of clay, organic matter, and other objectionable materials or coatings. The portion retained on the No. 4 sieve is known as coarse aggregate; that portion passing the No. 4 sieve is known as fine aggregate. When the coarse and fine aggregate is supplied form more than one source, provide aggregate from each source that meets the specified requirements. SECTION 32 11 23 Page 6 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.1.1 Coarse Aggregate PN63850 W912PM-18-C-0015 Provide coarse aggregates with angular particles of uniform density. Separately stockpile coarse aggregate supplied from more than one source. a. Crushed Gravel: Provide crushed gravel that has been manufactured by crushing gravels and that meets all the requirements specified below. b. Crushed Stone: Provide crushed stone consisting of freshly mined quarry rock, meeting all the requirements specified below. C. Crushed Recycled Concrete: Provide crushed recycled concrete consisting of previously hardened portland cement concrete or other concrete containing pozzolanic binder material. Provide recycled concrete that is free of all reinforcing steel, bituminous concrete surfacing, and any other foreign material and that has been crushed and processed to meet the required gradations for coarse aggregate. Reject recycled concrete aggregate exceeding this value. Provide crushed recycled concrete that meets all other applicable requirements specified below. d. Crushed Slag: Provide crushed slag that is an air-cooled blast -furnace product having an air dry unit weight of not less than 70 pcf as determined by ASTM C29/C29M, and meets all the requirements specified below. 2.1.1.1 Aggregate Base Course The percentage of loss of ABC coarse aggregate must not exceed 50 percent when tested in accordance with ASTM C131/C131M. Provide aggregate that contains no more than 30 percent flat and elongated particles. A flat particle is one having a ratio of width to thickness greater than 3; an elongated particle is one having a ratio of length to width greater than 3. In the portion retained on each sieve specified, the crushed aggregates must contain at least 50 percent by weight of crushed pieces having two or more freshly fractured faces determined in accordance with ASTM D5821. When two fractures are contiguous, the angle between planes of the fractures must be at least 30 degrees in order to count as two fractured faces. Manufacture crushed gravel from gravel particles 50 percent of which, by weight, are retained on the maximum size sieve listed in TABLE 1. 2.1.1.2 Graded -Crushed Aggregate Base Course The percentage of loss of GCA coarse aggregate must not exceed 40 percent loss when tested in accordance with ASTM C131/C131M. Provide GCA coarse aggregate that does not exhibit a loss greater than 18 percent weighted average, at five cycles, when tested for soundness in magnesium sulfate, or 12 percent weighted average, at five cycles, when tested in sodium sulfate in accordance with ASTM C88. Provide aggregate that contains no more than 20 percent flat and elongated particles for the fraction retained on the 1/2 inch sieve nor 20 percent for the fraction passing the 1/2 inch sieve. A flat particle is one having a ratio of width to thickness greater than 3; an elongated particle is one having a ratio of length to width greater than 3. In the portion retained on each sieve specified, the crushed aggregate must contain at least 90 percent by weight of crushed pieces having two or more freshly fractured faces determined in accordance with ASTM D5821. When two fractures are contiguous, the angle between planes of the fractures must be at least 30 degrees in order to count as two fractured faces. Manufacture crushed gravel from gravel particles 90 percent of SECTION 32 11 23 Page 7 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 which by weight are retained on the maximum size sieve listed in TABLE 1. 2.1.2 Fine Aggregate Provide fine aggregates consisting of angular particles of uniform density. 2.1.2.1 Aggregate Base Course Provide ABC fine aggregate that consists of screenings, angular sand, crushed recycled concrete fines, or other finely divided mineral matter processed or naturally combined with the coarse aggregate. 2.1.2.2 Graded -Crushed Aggregate Base Course Provide GCA fine aggregate consisting of angular particles produced by crushing stone, or gravel that meets the requirements for wear and soundness specified for GCA coarse aggregate. Produce fine aggregate by crushing only particles larger than No. 4 sieve in size. Provide fine aggregate that contains at least 90 percent by weight of particles having two or more freshly fractured faces in the portion passing the No. 4 sieve and retained on the No. 10 sieve, and in the portion passing the No. 10 sieve and retained on the No. 40 sieve. 2.1.3 Gradation Requirements Apply the specified gradation requirements to the completed base course. Provide aggregates that are continuously well graded within the limits specified in TABLE 1. Use sieves that conform to ASTM Ell. TABLE 1. GRADATION OF AGGREGATES Percentage by Weight Passing Square -Mesh Sieve Sieve Designation No. 1 No. 2 No. 3 ------------------------------------------------------- 2 inch 100 ---- ---- 1-1/2 inch 70-100 100 ---- 1 inch 45-80 60-100 100 1/2 inch 30-60 30-65 40-70 No. 4 20-50 20-50 20-50 No. 10 15-40 15-40 15-40 No. 40 5-25 5-25 5-25 No. 200 0-8 0-8 0-8 NOTE 1: Particles having diameters less than 0.02 mm must not be in excess of 3 percent by weight of the total sample tested as determined in accordance with AASHTO T 88. NOTE 2: The values are based on aggregates of uniform specific gravity. If materials from different sources are used for the coarse and fine aggregates, test the materials in accordance with ASTM C127 and ASTM C128 to determine their specific gravities. Correct the percentages passing the various sieves as directed by the Contracting Officer if the specific gravities vary by more than 10 percent. SECTION 32 11 23 Page 8 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.2 LIQUID LIMIT AND PLASTICITY INDEX PN63850 W912PM-18-C-0015 Apply liquid limit and plasticity index requirements to the completed course and to any component that is blended to meet the required gradation. The portion of any component or of the completed course passing the No. 40 sieve must be either nonplastic or have a liquid limit not greater than 25 and a plasticity index not greater than 5. 2.3 TESTS, INSPECTIONS, AND VERIFICATIONS 2.3.1 Initial Tests Perform one of each of the following tests, on the proposed material prior to commencing construction, to demonstrate that the proposed material meets all specified requirements when furnished. Complete this testing for each source if materials from more than one source are proposed. a. Sieve Analysis including 0.02 mm material. b. Liquid limit and plasticity index. C. Moisture -density relationship. d. Wear. e. Soundness. f g. Submit certified copies of test results for approval not less than 30 days before material is required for the work. 2.3.2 Approval of Material Tentative approval of material will be based on initial test results. PART 3 EXECUTION 3.1 GENERAL REQUIREMENTS When the ABC is constructed in more than one layer, clean the previously constructed layer of loose and foreign matter by sweeping with power sweepers or power brooms, except that hand brooms may be used in areas where power cleaning is not practicable. Provide adequate drainage during the entire period of construction to prevent water from collecting or standing on the working area. 3.2 STOCKPILING MATERIAL Clear and level storage sites prior to stockpiling of material. Stockpile all materials, including approved material available from excavation and grading, in the manner and at the locations designated. Stockpile aggregates on the cleared and leveled areas designated by the Contracting Officer to prevent segregation. Stockpile materials obtained from different sources separately. SECTION 32 11 23 Page 9 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.3 PREPARATION OF UNDERLYING COURSE OR SUBGRADE Clean the underlying course or subgrade of all foreign substances prior to constructing the base course(s). Do not construct base course(s) on underlying course or subgrade that is frozen. Construct the surface of the underlying course or subgrade to meet specified compaction and surface tolerances. Correct ruts or soft yielding spots in the underlying courses, areas having inadequate compaction, and deviations of the surface from the specified requirements set forth herein by loosening and removing soft or unsatisfactory material and adding approved material, reshaping to line and grade, and recompacting to specified density requirements. For cohesionless underlying courses or subgrades containing sands or gravels, as defined in ASTM D2487, stabilize the surface prior to placement of the base course(s). Stabilize by mixing ABC into the underlying course and compacting by approved methods. Consider the stabilized material as part of the underlying course and meet all requirements of the underlying course. Do not allow traffic or other operations to disturb the finished underlying course and maintain in a satisfactory condition until the base course is placed. 3.4 GRADE CONTROL Provide a finished and completed base course conforming to the lines, grades, and cross sections shown. Place line and grade stakes as necessary for control. 3.5 LAYER THICKNESS Compact the completed base course to the thickness indicated. No individual layer may be thicker than 6 inches nor be thinner than 3 inches in compacted thickness. Compact the base course(s) to a total thickness that is within 1/2 inch of the thickness indicated. Where the measured thickness is more than 1/2 inch deficient, correct such areas by scarifying, adding new material of proper gradation, reblading, and recompacting as directed. Where the measured thickness is more than 1/2 inch thicker than indicated, the course will be considered as conforming to the specified thickness requirements. The average job thickness will be the average of all thickness measurements taken for the job and must be within 1/4 inch of the thickness indicated. Measure the total thickness of the base course at intervals of one measurement for each 500 square yards of base course. Measure total thickness using 3 inch diameter test holes penetrating the base course. 3.6 COMPACTION Compact each layer of the base course, as specified, with approved compaction equipment. Maintain water content during the compaction procedure to within plus or minus 2 percent of the optimum water content determined from laboratory tests as specified in this Section. Begin rolling at the outside edge of the surface and proceed to the center, overlapping on successive trips at least one-half the width of the roller. Slightly vary the length of alternate trips of the roller. Adjust speed of the roller as needed so that displacement of the aggregate does not occur. Compact mixture with hand -operated power tampers in all places not accessible to the rollers. Continue compaction until each layer is compacted through the full depth to at least 100 percent of laboratory maximum density. Make such adjustments in compacting or finishing procedures as may be directed by the Contracting Officer to obtain true grades, to minimize segregation and degradation, to reduce or increase SECTION 32 11 23 Page 10 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 water content, and to ensure a satisfactory base course. Remove any materials found to be unsatisfactory and replace with satisfactory material or rework, as directed, to meet the requirements of this specification. 3.7 PROOF ROLLING In addition to the compaction specified, proof roll areas designated on the drawings by application of as required coverages of a heavy pneumatic -tired roller having four or more tires abreast, each tire loaded to a minimum of 30,000 pounds and inflated to a minimum of 125 psi. A coverage is defined as the application of one tire print over the designated area. In the areas designated, apply proof rolling to the top of the underlying material on which the base course is laid and to the top of the completed base course. Maintain water content of the underlying material and each layer of the base course as specified in Paragraph COMPACTION from start of compaction to completion of proof rolling of that layer. Remove any base course materials or any underlying materials that produce unsatisfactory results by proof rolling and replace with satisfactory materials. Then recompact and proof roll to meet these specifications. 3.8 EDGES OF BASE COURSE Place the base course(s) so that the completed section will be a minimum of 2 feet wider, on all sides, than the next layer that will be placed above it. Place approved material along the outer edges of the base course in sufficient quantity to compact to the thickness of the course being constructed. When the course is being constructed in two or more layers, simultaneously roll and compact at least a 2 foot width of this shoulder material with the rolling and compacting of each layer of the base course, as directed. 3.9 FINISHING Finish the surface of the top layer of base course after final compaction and proof rolling by cutting any overbuild to grade and rolling with a steel -wheeled roller. Do not add thin layers of material to the top layer of base course to meet grade. If the elevation of the top layer of base course is 1/2 inch or more below grade, scarify the top layer to a depth of at least 3 inches and blend new material in and compact and proof roll to bring to grade. Make adjustments to rolling and finishing procedures as directed by the Contracting Officer to minimize segregation and degradation, obtain grades, maintain moisture content, and insure an acceptable base course. Should the surface become rough, corrugated, uneven in texture, or traffic marked prior to completion, scarify the unsatisfactory portion and rework and recompact it or replace as directed. 3.10 SMOOTHNESS TEST Construct the top layer so that the surface shows no deviations in excess of 3/8 inch when tested with a 12 foot straightedge. Take measurements in successive positions parallel to the centerline of the area to be paved. Also take measurements perpendicular to the centerline at 50 foot intervals. Correct deviations exceeding this amount by removing material and replacing with new material, or by reworking existing material and compacting it to meet these specifications. SECTION 32 11 23 Page 11 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.11 FIELD QUALITY CONTROL 3.11.1 In -Place Tests Perform each of the following tests on samples taken from the placed and compacted ABC . Take samples and test at the rates indicated. a. Perform density tests on every lift of material placed and at a frequency of one set of tests for every 250 square yards, or portion thereof, of completed area. b. Perform sieve analysis including 0.02 mm size material on every lift of material placed and at a frequency of one sieve analysis for every 500 square yards, or portion thereof, of material placed. C. Perform liquid limit and plasticity index tests at the same frequency as the sieve analysis. d. Measure the thickness of the base course at intervals providing at least one measurement for each 500 square yards of base course or part thereof. Measure the thickness using test holes, at least 3 inch in diameter through the base course. 3.11.2 Approval of Material Final approval of the materials will be based on tests for gradation, liquid limit, and plasticity index performed on samples taken from the completed and fully compacted course(s). 3.12 TRAFFIC Completed portions of the base course may be opened to limited traffic, provided there is no marring or distorting of the surface by the traffic. Do not allow heavy equipment on the completed base course except when necessary for construction. When it is necessary for heavy equipment to travel on the completed base course, protect the area against marring or damage to the completed work. 3.13 MAINTENANCE Maintain the base course in a satisfactory condition until the full pavement section is completed and accepted. Immediately repair any defects and repeat repairs as often as necessary to keep the area intact. Retest any base course that was not paved over prior to the onset of winter to verify that it still complies with the requirements of this specification. Rework or replace any area of base course that is damaged as necessary to comply with this specification. 3.14 DISPOSAL OF UNSATISFACTORY MATERIALS Dispose of any unsuitable materials that have been removed outside the limits of Government -controlled land . No additional payments will be made for materials that have to be replaced. -- End of Section -- SECTION 32 11 23 Page 12 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 32 - EXTERIOR IMPROVEMENTS SECTION 32 92 19 SEEDING 08/17 seeding PART 1 GENERAL 1.1 REFERENCES 1.2 DEFINITIONS 1.2.1 Stand of Turf 1.3 RELATED REQUIREMENTS 1.4 SUBMITTALS 1.5 DELIVERY, STORAGE, AND HANDLING 1.5.1 Delivery 1.5.1.1 Seed Protection 1.5.1.2 Fertilizer Delivery 1.5.2 Storage 1.5.2.1 Seed, and Fertilizer Storage 1.5.2.2 Topsoil 1.5.2.3 Handling 1.6 TIME RESTRICTIONS AND PLANTING CONDITIONS 1.6.1 Restrictions 1.7 TIME LIMITATIONS 1.7.1 Seed PART 2 PRODUCTS 2.1 SEED 2.1.1 Classification 2.1.2 Planting Dates 2.1.3 Seed Purity 2.1.4 Seed Mixture by Weight 2.2 TOPSOIL 2.2.1 On -Site Topsoil 2.2.2 Off -Site Topsoil 2.2.3 Composition 2.3 SOIL CONDITIONERS 2.3.1 Lime 2.3.2 Aluminum Sulfate 2.3.3 Sulfur 2.3.4 Iron 2.3.5 Peat 2.3.6 Sand 2.3.7 Perlite 2.3.8 Composted Derivatives 2.3.8.1 Particle Size 2.3.8.2 Nitrogen Content 2.3.9 Gypsum PN63850 W912PM-18-C-0015 SECTION 32 92 19 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.3.10 Calcined Clay 2.4 FERTILIZER 2.4.1 Granular Fertilizer 2.4.2 Hydroseeding Fertilizer 2.5 MULCH 2.5.1 Straw 2.5.2 Hay 2.5.3 Wood Cellulose Fiber Mulch 2.6 WATER 2.7 EROSION CONTROL MATERIALS 2.7.1 Erosion Control Blanket 2.7.2 Erosion Control Fabric 2.7.3 Erosion Control Net 2.7.4 Hydrophilic Colloids 2.7.5 Erosion Control Material Anchors PART 3 EXECUTION 3.1 PREPARATION 3.1.1 EXTENT OF WORK 3.1.1.1 Topsoil 3.1.1.2 Soil Conditioner Application Rates 3.1.1.3 Fertilizer Application Rates 3.2 SEEDING 3.2.1 Seed Application Seasons and Conditions 3.2.2 Seed Application Method 3.2.2.1 Broadcast and Drop Seeding 3.2.3 Mulching 3.2.3.1 Hay or Straw Mulch 3.2.3.2 Mechanical Anchor 3.2.3.3 Asphalt Adhesive Tackifier 3.2.3.4 Non -Asphaltic Tackifier 3.2.3.5 Asphalt Adhesive Coated Mulch 3.2.4 Rolling 3.2.5 Erosion Control Material 3.2.6 Watering 3.3 PROTECTION OF TURF AREAS 3.4 RENOVATION OF EXISTING TURF AREA 3.4.1 Overseeding 3.5 RESTORATION -- End of Section Table of Contents -- PN63850 W912PM-18-C-0015 SECTION 32 92 19 Page 2 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 SECTION 32 92 19 SEEDING 08/17 PART 1 GENERAL 1.1 REFERENCES The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. ASTM INTERNATIONAL (ASTM) ASTM C602 (2013a) Agricultural Liming Materials ASTM D4427 ASTM D4972 (2018) Standard Classification of Peat Samples by Laboratory Testing (2013) pH of Soils U.S. DEPARTMENT OF AGRICULTURE (USDA) AMS Seed Act (1940; R 1988; R 1998) Federal Seed Act DOA SSIR 42 1.2 DEFINITIONS 1.2.1 Stand of Turf (1996) Soil Survey Investigation Report No. 42, Soil Survey Laboratory Methods Manual, Version 3.0 95 percent ground cover of the established species. 1.3 RELATED REQUIREMENTS Section 31 00 00 EARTHWORK, Section 32 93 00 EXTERIOR PLANTS, and Section 32 05 33 LANDSCAPE ESTABLISHMENT applies to this section for pesticide use and plant establishment requirements, with additions and modifications herein. 1.4 SUBMITTALS Government approval is required for submittals with a "G" designation; submittals not having a "G" designation are [for Contractor Quality Control approval.][for information only. When used, a designation following the "G" designation identifies the office that will review the submittal for the Government.] Submittals with an "S" are for inclusion in the Sustainability eNotebook, in conformance with Section 01 33 29 SUSTAINABILITY REPORTING. Submit the following in accordance with Section O1 33 00 SUBMITTAL PROCEDURES: SD-03 Product Data Wood Cellulose Fiber Mulch SECTION 32 92 19 Page 3 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 Fertilizer Include physical characteristics, and recommendations. SD-06 Test Reports Topsoil Composition Tests (reports and recommendations). SD-07 Certificates State Certification and Approval for Seed SD-08 Manufacturer's Instructions Erosion Control Materials 1.5 DELIVERY, STORAGE, AND HANDLING 1.5.1 Delivery 1.5.1.1 Seed Protection Protect from drying out and from contamination during delivery, on -site storage, and handling. 1.5.1.2 Fertilizer Delivery Deliver to the site in original, unopened containers bearing manufacturer's chemical analysis, name, trade name, trademark, and indication of conformance to state and federal laws. Instead of containers, [fertilizer] [gypsum] [sulphur] [iron] [and] [lime] may be furnished in bulk with certificate indicating the above information. 1.5.2 Storage 1.5.2.1 Seed, and Fertilizer Storage Store in cool, dry locations away from contaminants. 1.5.2.2 Topsoil Prior to stockpiling topsoil, treat growing vegetation with application of appropriate specified non -selective herbicide. Clear and grub existing vegetation three to four weeks prior to stockpiling topsoil. 1.5.2.3 Handling Do not drop or dump materials from vehicles. 1.6 TIME RESTRICTIONS AND PLANTING CONDITIONS 1.6.1 Restrictions Do not plant when the ground is [frozen,] [snow covered,] muddy, or when air temperature exceeds 90 degrees Fahrenheit. SECTION 32 92 19 Page 4 SOF Battalion Administration Facility Fort Bragg, North Carolina 1.7 TIME LIMITATIONS 1.7.1 Seed PN63850 W912PM-18-C-0015 Apply seed within twenty four hours after seed bed preparation. PART 2 PRODUCTS 2.1 SEED 2.1.1 Classification Provide [State -certified] [State -approved] [Endophyte-enhanced] seed of the latest season's crop delivered in original sealed packages, bearing producer's guaranteed analysis for percentages of mixtures, purity, germination, weedseed content, and inert material. Label in conformance with AMS Seed Act and applicable state seed laws. Wet, moldy, or otherwise damaged seed will be rejected. Field mixes will be acceptable when field mix is performed on site in the presence of the Contracting Officer. 2.1.2 Planting Dates Planting Season Planting Dates Season 1 April 1st - May 15th 2.1.3 Seed Purity Botanical Common Minimum Minimum Maximum Name Name Percent Percent Percent Pure Seed Germination Weed Seed and Hard Seed Aristida Wiregrass 95 85 .5 Stricta JF New Stormwate 95 85 .5 2.1.4 Seed Mixture by Weight Proportion seed mixtures by weight. Temporary seeding must later be replaced by Season 1 plantings for a permanent stand of grass. The same requirements of turf establishment for Season 1 apply for temporary seeding. 2.2 TOPSOIL 2.2.1 On -Site Topsoil Surface soil stripped and stockpiled on site and modified as necessary to meet the requirements specified for topsoil in paragraph entitled SECTION 32 92 19 Page 5 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 "Composition". When available topsoil shall be existing surface soil stripped and stockpiled on -site in accordance with Section 31 00 00 EARTHWORK. 2.2.2 Off -Site Topsoil Conform to requirements specified in paragraph entitiled "Composition". Additional topsoil must be furnished by the Contractor. 2.2.3 Composition Containing from 5 to 10 percent organic matter as determined by the topsoil composition tests of the Organic Carbon, 6A, Chemical Analysis Method described in DOA SSIR 42. Maximum particle size, 3/4 inch, with maximum 3 percent retained on 1/4 inch screen. The pH must be tested in accordance with ASTM D4972. Topsoil must be free of sticks, stones, roots, and other debris and objectionable materials. Other components must conform to the following limits: Silt 25-50 percent Clay 10-30 percent Sand 20-35 percent pH 5.5 to 7.0 Soluble Salts 600 ppm maximum 2.3 SOIL CONDITIONERS Add conditioners to topsoil as required to bring into compliance with "composition" standard for topsoil as specified herein. 2.3.1 Lime Commercial grade hydrate limestone containing a calcium carbonate equivalent (C.C.E.) as specified in ASTM C602 of not less than 80 percent. 2.3.2 Aluminum Sulfate Commercial grade. 2.3.3 Sulfur 100 percent elemental 2.3.4 Iron 100 percent elemental 2.3.5 Peat Natural product of peat moss derived from a freshwater site and conforming to ASTM D4427. Shred and granulate peat to pass a 1/2 inch mesh screen and condition in storage pile for minimum 6 months after excavation. SECTION 32 92 19 Page 6 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 2.3.6 Sand Clean and free of materials harmful to plants. 2.3.7 Perlite Horticultural grade. 2.3.8 Composted Derivatives Ground bark, nitrolized sawdust, humus or other green wood waste material free of stones, sticks, and soil stabilized with nitrogen and having the following properties: 2.3.8.1 Particle Size Minimum percent by weight passing: No. 4 mesh screen 95 2.3.8.2 Nitrogen Content Minimum percent based on dry weight: Fir Sawdust 0.7 Fir or Pine Bark 1.0 2.3.9 Gypsum Coarsely ground gypsum comprised of calcium sulfate dihydrate 61 percent, calcium 22 percent, sulfur 17 percent; minimum 96 percent passing through 20 mesh screen, 100 percent passing thru 16 mesh screen. 2.3.10 Calcined Clay Calcined clay shall be granular particles produced from montmorillonite clay calcined to a minimum temperature of 1200 degrees F. Gradation: A minimum 90 percent shall pass a No. 8 sieve; a minimum 99 percent must be retained on a No. 60 sieve; and a maximum 2 percent shall pass a No. 100. Bulk density: A maximum 40 pounds per cubic foot. 2.4 FERTILIZER 2.4.1 Granular Fertilizer Organic, granular controlled release fertilizer containing the following minimum percentages, by weight, of plant food nutrients: 20 percent available nitrogen 10 percent available phosphorus 10 percent available potassium 2.4.2 Hydroseeding Fertilizer Controlled release fertilizer, to use with hydroseeding and composed of pills coated with plastic resin to provide a continuous release of nutrients for at least 6 months and containing the following minimum SECTION 32 92 19 Page 7 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 percentages, by weight, of plant food nutrients. 20 percent available nitrogen 10 percent available phosphorus 10 percent available potassium 2.5 MULCH Mulch must be free from noxious weeds, mold, and other deleterious materials. 2.5.1 Straw Stalks from oats, wheat, rye, barley, or rice. Furnish in air-dry condition and of proper consistency for placing with commercial mulch blowing equipment. Straw must contain no fertile seed. 2.5.2 Hay Air-dry condition and of proper consistency for placing with commercial mulch blowing equipment. Hay must be sterile, containing no fertile seed. 2.5.3 Wood Cellulose Fiber Mulch Use recovered materials of either paper -based (100 percent post -consumer content) or wood -based (100 percent total recovered content) hydraulic mulch. Processed to contain no growth or germination -inhibiting factors and dyed an appropriate color to facilitate visual metering of materials application. Composition on air-dry weight basis: 9 to 15 percent moisture, pH range from 5.5 to 8.2. Use with hydraulic application of grass seed and fertilizer. 2.6 WATER Source of water must be approved by Contracting Officer and of suitable quality for irrigation, containing no elements toxic to plant life. 2.7 EROSION CONTROL MATERIALS Erosion control material must conform to the following: 2.7.1 Erosion Control Blanket 100 percent agricultural straw stitched with a degradable nettings, designed to degrade within 12 months. 2.7.2 Erosion Control Fabric Fabric must be knitted construction of polypropylene yarn with uniform mesh openings 3/4 to 1 inch square with strips of biodegradable paper. Filler paper strips must have a minimum life of 6 months. 2.7.3 Erosion Control Net Net must be heavy, twisted jute mesh, weighing approximately 1.22 pounds per linear yard and 4 feet wide with mesh openings of approximately one inch square. SECTION 32 92 19 Page 8 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.7.4 Hydrophilic Colloids PN63850 W912PM-18-C-0015 Hydrophilic colloids must be physiologically harmless to plant and animal life without phytotoxic agents. Colloids must be naturally occurring, silicate powder based, and must form a water insoluble membrane after curing. Colloids must resist mold growth. 2.7.5 Erosion Control Material Anchors Erosion control anchors shall be as recommended by the manufacturer. ]PART 3 EXECUTION 3.1 PREPARATION 3.1.1 EXTENT OF WORK Provide soil preparation prior to planting (including soil conditioners as required), fertilizing, seeding, and surface topdressing of all newly graded finished earth surfaces, unless indicated otherwise, and at all areas inside or outside the limits of construction that are disturbed by the Contractor's operations. 3.1.1.1 Topsoil Provide 4 inches of off -site topsoil to meet indicated finish grade. After areas have been brought to indicated finish grade, incorporate fertilizer into soil a minimum depth of 4 inches by disking, harrowing, tilling or other method approved by the Contracting Officer. Remove debris and stones larger than 3/4 inch in any dimension remaining on the surface after finish grading. Correct irregularities in finish surfaces to eliminate depressions. Protect finished topsoil areas from damage by vehicular or pedestrian traffic. [3.1.1.2 Soil Conditioner Application Rates Apply soil conditioners at rates as determined by laboratory soil analysis of the soils at the job site. ][3.1.1.3 Fertilizer Application Rates Apply fertilizer at rates as determined by laboratory soil analysis of the soils at the job site. 3.2 SEEDING 3.2.1 Seed Application Seasons and Conditions Immediately before seeding, restore soil to proper grade. Do not seed when ground is muddy or in an unsatisfactory condition for seeding. If special conditions exist that may warrant a variance in the above seeding dates or conditions, submit a written request to the Contracting Officer stating the special conditions and proposed variance. Apply seed within twenty four hours after seedbed preparation. Sow seed by approved sowing equipment. Sow one-half the seed in one direction, and sow remainder at right angles to the first sowing. SECTION 32 92 19 Page 9 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.2.2 Seed Application Method Seeding method shall be broadcasted and drop seeding. 3.2.2.1 Broadcast and Drop Seeding Seed must be uniformly broadcast at the rate per seed supplier's recommendations. Use broadcast or drop seeders. Sow one-half the seed in one direction, and sow remainder at right angles to the first sowing. Cover seed uniformly to a maximum depth of 1/4 inch in clay soils and 1/2 inch in sandy soils by means of spike -tooth harrow, cultipacker, raking or other approved devices. 3.2.3 Mulching 3.2.3.1 Hay or Straw Mulch Hay or straw mulch must be spread uniformly at the rate of 2 tons per acre. Mulch must be spread by hand, blower -type mulch spreader, or other approved method. Mulching must be started on the windward side of relatively flat areas or on the upper part of steep slopes, and continued uniformly until the area is covered. The mulch must not be bunched or clumped. Sunlight must not be completely excluded from penetrating to the ground surface. All areas installed with seed must be mulched on the same day as the seeding. Mulch must be anchored immediately following spreading. 3.2.3.2 Mechanical Anchor Mechanical anchor must be a V-type-wheel land packer; a scalloped -disk land packer designed to force mulch into the soil surface; or other suitable equipment. ][3.2.3.3 Asphalt Adhesive Tackifier Asphalt adhesive tackifier must be sprayed at a rate between 10 to 13 gallons per 1000 square feet. Sunlight must not be completely excluded from penetrating to the ground surface. ][3.2.3.4 Non -Asphaltic Tackifier Hydrophilic colloid must be applied at the rate recommended by the manufacturer, using hydraulic equipment suitable for thoroughly mixing with water. A uniform mixture must be applied over the area. ][3.2.3.5 Asphalt Adhesive Coated Mulch Hay or straw mulch may be spread simultaneously with asphalt adhesive applied at a rate between 10 to 13 gallons per 1000 square feet, using power mulch equipment which must be equipped with suitable asphalt pump and nozzle. The adhesive -coated mulch must be applied evenly over the surface. Sunlight must not be completely excluded from penetrating to the ground surface. 3.2.4 Rolling Immediately after seeding, firm entire area except for slopes in excess of 3 to 1 with a roller not exceeding 90 pounds for each foot of roller width. SECTION 32 92 19 Page 10 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.2.5 Erosion Control Material PN63850 W912PM-18-C-0015 Install in accordance with manufacturer's instructions, where indicated or as directed by the Contracting Officer. 3.2.6 Watering Start watering areas seeded as required by temperature and wind conditions. Apply water at a rate sufficient to insure thorough wetting of soil to a depth of 2 inches without run off. During the germination process, seed is to be kept actively growing and not allowed to dry out. 3.3 PROTECTION OF TURF AREAS Immediately after turfing, protect area against traffic and other use. [3.4 RENOVATION OF EXISTING TURF AREA 3.4.1 Overseeding Apply seed in accordance with applicable portions of paragraph entitiled "Seed Application Method" at rates in accordance with paragraph entitled "Seed Composition".. 3.5 RESTORATION Restore to original condition existing turf areas which have been damaged during turf installation operations at the Contractor's expense. Keep clean at all times at least one paved pedestrian access route and one paved vehicular access route to each building. Clean other paving when work in adjacent areas is complete. -- End of Section -- SECTION 32 92 19 Page 11 This Page Intentionally Left Blank SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 32 - EXTERIOR IMPROVEMENTS SECTION 32 92 23 SODDING 04/06 sod PART 1 GENERAL 1.1 REFERENCES 1.2 DEFINITIONS 1.2.1 Stand of Turf 1.3 RELATED REQUIREMENTS 1.4 SUBMITTALS 1.5 DELIVERY, STORAGE, AND HANDLING 1.5.1 Delivery 1.5.1.1 Sod Protection 1.5.1.2 Fertilizer Delivery 1.5.2 Storage 1.5.2.1 Sod Storage 1.5.2.2 Topsoil 1.5.2.3 Handling 1.6 TIME RESTRICTIONS AND PLANTING CONDITIONS 1.6.1 Restrictions 1.7 TIME LIMITATIONS 1.7.1 Sod PART 2 PRODUCTS 2.1 SODS 2.1.1 Classification 2.1.2 Purity 2.1.3 Planting Dates 2.1.4 Composition 2.1.4.1 Proportion 2.1.4.2 Sod Farm Overseeding 2.2 TOPSOIL 2.2.1 On -Site Topsoil 2.2.2 Off -Site Topsoil 2.2.3 Composition 2.3 SOIL CONDITIONERS 2.3.1 Lime 2.3.2 Aluminum Sulfate 2.3.3 Sulfur 2.3.4 Iron 2.3.5 Peat 2.3.6 Sand 2.3.7 Perlite 2.3.8 Composted Derivatives 2.3.8.1 Particle Size PN63850 W912PM-18-C-0015 SECTION 32 92 23 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.3.8.2 Nitrogen Content 2.3.9 Gypsum 2.3.10 Calcined Clay 2.4 FERTILIZER 2.4.1 Granular Fertilizer 2.5 WATER PART 3 EXECUTION 3.1 PREPARATION 3.1.1 Extent Of Work 3.1.2 Soil Preparation 3.1.2.1 Soil Conditioner Application Rates 3.1.2.2 Fertilizer Application Rates 3.2 SODDING 3.2.1 Finished Grade and Topsoil 3.2.2 Placing 3.2.3 Sodding Slopes and Ditches 3.2.4 Finishing 3.2.5 Rolling 3.2.6 Watering 3.3 PROTECTION OF TURF AREAS 3.4 RENOVATION OF EXISTING TURF AREA 3.4.1 Aeration 3.4.2 Vertical Mowing 3.4.3 Dethatching 3.5 RESTORATION -- End of Section Table of Contents -- PN63850 W912PM-18-C-0015 SECTION 32 92 23 Page 2 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 SECTION 32 92 23 SODDING 04/06 PART 1 GENERAL 1.1 REFERENCES The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. ASTM INTERNATIONAL (ASTM) ASTM C602 (2013a) Agricultural Liming Materials ASTM D4427 (2018) Standard Classification of Peat Samples by Laboratory Testing ASTM D4972 (2013) pH of Soils TURFGRASS PRODUCERS INTERNATIONAL (TPI) TPI GSS (1995) Guideline Specifications to Turfgrass Sodding U.S. DEPARTMENT OF AGRICULTURE (USDA) DOA SSIR 42 1.2 DEFINITIONS 1.2.1 Stand of Turf (1996) Soil Survey Investigation Report No. 42, Soil Survey Laboratory Methods Manual, Version 3.0 100 percent ground cover of the established species. 1.3 RELATED REQUIREMENTS Section 32 92 19 SEEDING, and Section 32 05 33 LANDSCAPE ESTABLISHMENT applies to this section for pesticide use and plant establishment requirements, with additions and modifications herein. 1.4 SUBMITTALS Government approval is required for submittals with a "G" designation; submittals not having a "G" designation are [for Contractor Quality Control approval.][for information only. When used, a designation following the "G" designation identifies the office that will review the submittal for the Government.] Submittals with an "S" are for inclusion in the Sustainability eNotebook, in conformance to Section 01 33 29 SUSTAINABILITY REPORTING. Submit the following in accordance with Section 01 33 00 SUBMITTAL PROCEDURES: SD-03 Product Data SECTION 32 92 23 Page 3 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 Fertilizer Include physical characteristics, and recommendations. SD-06 Test Reports Topsoil composition tests (reports and recommendations). SD-07 Certificates Nursery certification for sods accordance with TPI GSS. 1.5 DELIVERY, STORAGE, AND HANDLING 1.5.1 Delivery 1.5.1.1 Sod Protection Indicate type of sod in Protect from drying out and from contamination during delivery, on -site storage, and handling. 1.5.1.2 Fertilizer Delivery Deliver to the site in original, unopened containers bearing manufacturer's chemical analysis, name, trade name, trademark, and indication of conformance to state and federal laws. Instead of containers, fertilizer, gypsum, sulphur, iron, andlime may be furnished in bulk with certificate indicating the above information. 1.5.2 Storage 1.5.2.1 Sod Storage Lightly sprinkle with water, cover with moist burlap, straw, or other approved covering; and protect from exposure to wind and direct sunlight until planted. Provide covering that will allow air to circulate so that internal heat will not develop. Do not store sod longer than 24 hours. Do not store directly on concrete or bituminous surfaces. 1.5.2.2 Topsoil Prior to stockpiling topsoil, treat growing vegetation with application of appropriate specified non -selective herbicide. Clear and grub existing vegetation three to four weeks prior to stockpiling topsoil. 1.5.2.3 Handling Do not drop or dump materials from vehicles. 1.6 TIME RESTRICTIONS AND PLANTING CONDITIONS 1.6.1 Restrictions Do not plant when the ground is frozen, muddy, or when air temperature exceeds 90 degrees Fahrenheit. SECTION 32 92 23 Page 4 SOF Battalion Administration Facility Fort Bragg, North Carolina 1.7 TIME LIMITATIONS 1.7.1 Sod PN63850 W912PM-18-C-0015 Place sod a maximum of thirty six hours after initial harvesting, in accordance with TPI GSS as modified herein. PART 2 PRODUCTS 2.1 SODS 2.1.1 Classification Nursery grown, certified as classified in the TPI GSS. Machine cut sod at a uniform thickness of 3/4 inch within a tolerance of 1/4 inch, excluding top growth and thatch. Each individual sod piece shall be strong enough to support its own weight when lifted by the ends. Broken pads, irregularly shaped pieces, and torn or uneven ends will be rejected.Wood pegs and wire staples for anchorage shall be as recommended by sod supplier. 2.1.2 Purity Sod species shall be genetically pure, free of weeds, pests, and disease. 2.1.3 Planting Dates Lay sod from April 1 to May 15 for warm season spring planting and from Semptember 1 to October 15 for cool season fall planting. 2.1.4 Composition 2.1.4.1 Proportion Proportion grass species as follows. Botanical Name Common Name Percent Cynodon Bermuda Grass 95 2.1.4.2 Sod Farm Overseeding At the sod farm provide sod with overseeding of type recommended by seed producer. 2.2 TOPSOIL 2.2.1 On -Site Topsoil Surface soil stripped and stockpiled on site and modified as necessary to meet the requirements specified for topsoil in paragraph entitled "Composition." When available topsoil shall be existing surface soil stripped and stockpiled on -site in accordance with Section 31 00 00 EARTHWORK. SECTION 32 92 23 Page 5 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.2.2 Off -Site Topsoil PN63850 W912PM-18-C-0015 Conform to requirements specified in paragraph entitled "Composition." Additional topsoil shall be furnished by the Contractor. 2.2.3 Composition Containing from 5 to 10 percent organic matter as determined by the topsoil composition tests of the Organic Carbon, 6A, Chemical Analysis Method described in DOA SSIR 42. Maximum particle size, 3/4 inch, with maximum 3 percent retained on 1/4 inch screen. The pH shall be tested in accordance with ASTM D4972. Topsoil shall be free of sticks, stones, roots, and other debris and objectionable materials. Other components shall conform to the following limits: Silt 25-50 percent Clay 10-30 percent Sand 20-35 percent pH 5.5 to 7.0 Soluble Salts 600 ppm maximum 2.3 SOIL CONDITIONERS Add conditioners to topsoil as required to bring into compliance with "composition" standard for topsoil as specified herein. 2.3.1 Lime Commercial grade hydrate limestone containing a calcium carbonate equivalent (C.C.E.) as specified in ASTM C602 of not less than 80 percent. 2.3.2 Aluminum Sulfate Commercial grade. 2.3.3 Sulfur 100 percent elemental 2.3.4 Iron 100 percent elemental 2.3.5 Peat Natural product of peat moss derived from a freshwater site and conforming to ASTM D4427. Shred and granulate peat to pass a 1/2 inch mesh screen and condition in storage pile for minimum 6 months after excavation. 2.3.6 Sand Clean and free of materials harmful to plants. SECTION 32 92 23 Page 6 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 2.3.7 Perlite Horticultural grade. 2.3.8 Composted Derivatives Ground bark, nitrolized sawdust, humus or other green wood waste material free of stones, sticks, and soil stabilized with nitrogen and having the following properties: 2.3.8.1 Particle Size Minimum percent by weight passing: No. 4 mesh screen 95 2.3.8.2 Nitrogen Content Minimum percent based on dry weight: Fir Sawdust 0.7 Fir or Pine Bark 1.0 2.3.9 Gypsum Coarsely ground gypsum comprised of calcium sulfate dihydrate 91 percent, calcium 22 percent, sulfur 17 percent; minimum 96 percent passing through 20 mesh screen, 100 percent passing thru 16 mesh screen. 2.3.10 Calcined Clay Calcined clay shall be granular particles produced from montmorillonite clay calcined to a minimum temperature of 1200 degrees F. Gradation: A minimum 90 percent shall pass a No. 8 sieve; a minimum 99 percent shall be retained on a No. 60 sieve; and a maximum 2 percent shall pass a No. 100 sieve. Bulk density: A maximum 40 pounds per cubic foot. 2.4 FERTILIZER 2.4.1 Granular Fertilizer Organic, granular controlled release fertilizer containing the following minimum percentages, by weight, of plant food nutrients: 20 percent available nitrogen 10 percent available phosphorus 10 percent available potassium 2.5 WATER Source of water shall be approved by Contracting Officer and of suitable quality for irrigation containing no element toxic to plant life. SECTION 32 92 23 Page 7 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 PART 3 EXECUTION 3.1 PREPARATION 3.1.1 Extent Of Work Provide soil preparation (including soil conditioners), fertilizing, and sodding of all newly graded finished earth surfaces, unless indicated otherwise, and at all areas inside or outside the limits of construction that are disturbed by the Contractor's operations. 3.1.2 Soil Preparation Provide 4 inches of off -site topsoil to meet indicated finish grade. After areas have been brought to indicated finish grade, incorporate fertilizer into soil a minimum depth of 4 inches by disking, harrowing, tilling or other method approved by the Contracting Officer. Remove debris and stones larger than 3/4 inch in any dimension remaining on the surface after finish grading. Correct irregularities in finish surfaces to eliminate depressions. Protect finished topsoil areas from damage by vehicular or pedestrian traffic. 3.1.2.1 Soil Conditioner Application Rates Apply soil conditioners at rates as determined by laboratory soil analysis of the soils at the job site. 3.1.2.2 Fertilizer Application Rates Apply fertilizer at rates as determined by laboratory soil analysis of the soils at the job site. 3.2 SODDING 3.2.1 Finished Grade and Topsoil Prior to the commencement of the sodding operation, the Contractor shall verify that finished grades are as indicated on drawings; the placing of topsoil, smooth grading, and compaction requirements have been completed in accordance with Section 31 00 00 EARTHWORK. The prepared surface shall be a maximum 1 inch below the adjoining grade of any surfaced area. New surfaces shall be blended to existing areas. The prepared surface shall be completed with a light raking to remove from the surface debris and stones over a minimum 5/8 inch in any dimension. 3.2.2 Placing Place sod a maximum of 36 hours after initial harvesting, in accordance with TPI GSS as modified herein. 3.2.3 Sodding Slopes and Ditches For slopes 2:1 and greater, lay sod with long edge perpendicular to the contour. For V-ditches and flat bottomed ditches, lay sod with long edge perpendicular to flow of water. Anchor each piece of sod with wood pegs or wire staples maximum 2 feet on center. On slope areas, start sodding at bottom of the slope. SECTION 32 92 23 Page 8 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.2.4 Finishing PN63850 W912PM-18-C-0015 After completing sodding, blend edges of sodded area smoothly into surrounding area. Air pockets shall be eliminated and a true and even surface shall be provided. Frayed edges shall be trimmed and holes and missing corners shall be patched with sod. 3.2.5 Rolling Immediately after sodding, firm entire area except for slopes in excess of 3 to 1 with a roller not exceeding 90 pounds for each foot of roller width. 3.2.6 Watering Start watering areas sodded as required by daily temperature and wind conditions. Apply water at a rate sufficient to ensure thorough wetting of soil to minimum depth of 6 inches. Run-off, puddling, and wilting shall be prevented. Unless otherwise directed, watering trucks shall not be driven over turf areas. Watering of other adjacent areas or plant material shall be prevented. 3.3 PROTECTION OF TURF AREAS Immediately after turfing, protect area against traffic and other use. 3.4 RENOVATION OF EXISTING TURF AREA 3.4.1 Aeration Upon completion of weed eradication operations and Contracting Officer's approval to proceed, aerate turf areas indicated , by approved device. Core, by pulling soil plugs, to a minimum depth of1.5 inches. Leave all soil plugs, that are produced, in the turf area. After aeration operations are complete, topdress entire area 1/2 inch depth with the following mixture: Per manufacturer's recommendations percent sand Per manufacturer's recommendations percent humus Per manufacturer's recommendations percent gypsum Per manufacturer's recommendations percent organic fertilizer Per manufacturer's recommendations percent synthetic fertilizer Blend all parts of topdressing mixture to a uniform consistency throughout. Keep clean at all times at least one paved pedestrian access route and one paved vehicular access route to each building. Clean all soil plugs off of other paving when work is complete. 3.4.2 Vertical Mowing Upon completion of aerating operation and Contracting Officer's approval to proceed, vertical mow turf areas indicated, by approved device, to a depth of 1/2 inch above existing soil level, to reduce thatch build-up, grain, and surface compaction. Keep clean at all times at least one paved pedestrian access route and one paved vehicular access route to each building. Clean other paving when work is complete. Remove all debris generated during this operation off site. SECTION 32 92 23 Page 9 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.4.3 Dethatching PN63850 W912PM-18-C-0015 Upon completion of aerating operation and Contracting Officer's approval to proceed, dethatch turf areas indicated, by approved device, to a depth of 1/4 inch below existing soil level, to reduce thatch build-up, grain, and surface compaction. Keep clean at all times at least one paved pedestrian access route and one paved vehicular access route to each building. Clean other paving when work is complete. Remove all debris generated during this operation off site. 3.5 RESTORATION Restore to original condition existing turf areas which have been damaged during turf installation operations. Keep clean at all times at least one paved pedestrian access route and one paved vehicular access route to each building. Clean other paving when work in adjacent areas is complete. -- End of Section -- SECTION 32 92 23 Page 10 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 32 - EXTERIOR IMPROVEMENTS SECTION 32 93 00 EXTERIOR PLANTS 08/17 exterior planting PART 1 GENERAL 1.1 REFERENCES 1.2 RELATED REQUIREMENTS 1.3 SUBMITTALS 1.4 QUALITY ASSURANCE 1.4.1 Topsoil Composition Tests 1.4.2 Nursery Certifications 1.4.3 State Landscape Contractor's License 1.4.4 Plant Material Photographs 1.4.5 Percolation Test 1.5 DELIVERY, STORAGE, AND HANDLING 1.5.1 Delivery 1.5.1.1 Branched Plant Delivery 1.5.1.2 Soil Amendment Delivery 1.5.1.3 Plant Labels 1.5.2 Storage 1.5.2.1 Plant Storage and Protection 1.5.2.2 Fertilizer, and Mulch Storage 1.5.2.3 Topsoil 1.5.3 Handling 1.5.4 TIME LIMITATION 1.6 TIME RESTRICTIONS AND PLANTING CONDITIONS 1.6.1 Planting Dates 1.6.1.1 Deciduous Material 1.6.2 Restrictions 1.7 GUARANTEE 1.8 SUSTAINABLE DESIGN REQUIREMENTS 1.8.1 Local/Regional Materials PART 2 PRODUCTS 2.1 PLANTS 2.1.1 Regulations and Varieties 2.1.2 Shape and Condition 2.1.2.1 Deciduous Trees and Shrubs 2.1.2.2 Evergreen Trees and Shrubs 2.1.2.3 Ground Covers and Vines 2.1.3 Plant Size 2.1.4 Root Ball Size 2.1.4.1 Mycorrhizal fungi inoculum 2.1.5 Growth of Trunk and Crown 2.1.5.1 Deciduous Trees PN63850 W912PM-18-C-0015 SECTION 32 93 00 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.1.5.2 Palms 2.1.5.3 Deciduous Shrubs 2.1.5.4 Coniferous Evergreen Plant Material 2.1.5.5 Broadleaf Evergreen Plant Material 2.1.5.6 Ground Cover and Vine Plant Material 2.2 TOPSOIL 2.2.1 Existing Soil 2.2.2 On -Site Topsoil 2.2.3 Off -Site Topsoil 2.2.4 Composition 2.3 SOIL CONDITIONERS 2.3.1 Lime 2.3.2 Aluminum Sulfate 2.3.3 Sulfur 2.3.4 Iron 2.3.5 Peat 2.3.6 Sand 2.3.7 Perlite 2.3.8 Composted Derivatives 2.3.8.1 Particle Size 2.3.8.2 Nitrogen Content 2.3.9 Gypsum 2.4 PLANTING SOIL MIXTURES 2.5 FERTILIZER 2.5.1 Granular Fertilizer 2.5.2 Fertilizer Tablets 2.6 MULCH 2.6.1 Organic Mulch Materials 2.6.2 Recycled Organic Mulch 2.7 STAKING AND GUYING MATERIAL 2.7.1 Turnbuckles 2.7.2 Deadmen 2.7.3 Metal Anchors 2.7.3.1 Driven Anchors 2.7.3.2 Screw Anchors 2.8 ANTIDESICCANTS 2.9 EROSION CONTROL MATERIALS 2.9.1 Erosion Control Blanket 2.9.2 Erosion Control Fabric 2.9.3 Erosion Control Net 2.9.4 Hydrophilic Colloids 2.9.5 Erosion Control Material Anchors 2.10 WATER 2.10.1 Hose 2.11 MYCORRHIZAL FUNGI INOCULUM 2.12 SOURCE QUALITY CONTROL PART 3 EXECUTION 3.1 EXTENT OF WORK 3.2 PREPARATION 3.2.1 Layout 3.2.2 Soil Preparation 3.2.2.1 pH Adjuster Application Rates 3.2.2.2 Soil Conditioner Application Rates 3.2.2.3 Fertilizer Application Rates 3.3 PLANT BED PREPARATION 3.4 PLANT INSTALLATION 3.4.1 Individual Plant Pit Excavation PN63850 W912PM-18-C-0015 SECTION 32 93 00 Page 2 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.4.2 Plant Beds with Multiple Plants 3.4.3 Handling and Setting 3.4.3.1 Balled and Burlapped Stock 3.4.3.2 Container Grown Stock 3.4.4 Earth Mounded Watering Basin for 3.4.5 Erosion Control Material 3.4.6 Placement of Mulch Topdressing 3.4.7 Mulch Topdressing 3.4.8 Fertilization 3.4.8.1 Fertilizer Tablets 3.4.8.2 Granular Fertilizer 3.4.9 Watering 3.4.10 Staking and Guying 3.4.10.1 Staking 3.4.10.2 Guying 3.4.10.3 Chafing Guards 3.4.10.4 Deadmen 3.4.10.5 Wood Ground Stakes 3.4.10.6 Flags 3.4.11 Pruning 3.4.11.1 Trees and Shrubs 3.4.11.2 Wound Dressing 3.5 RESTORATION AND CLEAN UP 3.5.1 Restoration 3.5.2 Clean Up 3.6 OPERATIONS AND MAINTENANCE MANUAL -- End of Section Table of Contents -- PN63850 W912PM-18-C-0015 Individual Plant Pits SECTION 32 93 00 Page 3 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 SECTION 32 93 00 EXTERIOR PLANTS 08/17 PART 1 GENERAL 1.1 REFERENCES The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. AMERICANHORT (AH) ANSI/ANLA Z60.1 (2004) American Standard for Nursery Stock ASTM INTERNATIONAL (ASTM) ASTM C602 (2013a) Agricultural Liming Materials ASTM D4427 (2018) Standard Classification of Peat Samples by Laboratory Testing ASTM D4972 (2013) pH of Soils ASTM D5268 (2013) Topsoil Used for Landscaping Purposes L.H. BAILEY HORTORIUM (LHBH) LHBH (1976) Hortus Third TREE CARE INDUSTRY ASSOCIATION (TCIA) TCIA A300P1 (2017) ANSI A300 Partl: Tree Care Operations - Trees, Shrubs and Other Woody Plant Maintenance Standard Practices - Pruning TCIA Z133 (2017) American National Standard for Arboricultural Operations - Pruning, Repairing, Maintaining, and Removing Trees, and Cutting Brush - Safety Requirements U.S. DEPARTMENT OF AGRICULTURE (USDA) DOA SSIR 42 (1996) Soil Survey Investigation Report No. 42, Soil Survey Laboratory Methods Manual, Version 3.0 U.S. GREEN BUILDING COUNCIL (USGBC) LEED NC (2009) Leadership in Energy and Environmental Design(tm) New Construction Rating System SECTION 32 93 00 Page 4 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 1.2 RELATED REQUIREMENTS Section 31 00 00 EARTHWORK, Section 32 92 23 SODDING, and Section 32 05 33 LANDSCAPE ESTABLISHMENT applies to this section for pesticide use and plant establishment requirements, with additions and modifications herein. 1.3 SUBMITTALS Government approval is required for submittals with a "G" designation; submittals not having a "G" designation are [for Contractor Quality Control approval.][for information only. When used, a designation following the "G" designation identifies the office that will review the submittal for the Government.] Submittals with an "S" are for inclusion in the Sustainability eNotebook, in conformance with Section 01 33 29 SUSTAINABILITY REPORTING. Submit the following in accordance with Section O1 33 00 SUBMITTAL PROCEDURES: SD-01 Preconstruction Submittals State Landscape Contractor's License Time Restrictions and Planting Conditions Indicate anticipated dates and locations for each type of planting. SD-03 Product Data Local/Regional Materials; (LEED NC) Submit documentation indication distance between manufacturing facility and the project site. Indicate distance of raw material origin from the project site. Indicate relative dollar value of local/regional materials to total dollar value of products included in project. Peat Composted Derivatives Rotted Manure Organic Mulch Materials Submit documentation indication type of biobased material in product and biobased content. Indicate relative dollar value of biobased content products to total dollar value of products included in project Gypsum Mulch; G (LEED NC) SECTION 32 93 00 Page 5 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 Hose (LEED NC) Submit documentation indicating percentage of post-industrial and post -consumer recycled content products to total dollar value of products included in project Fertilizer Metal Anchors Antidesiccants Erosion Control Materials Photographs; G SD-04 Samples Mulch; G Submit one pint of mulch. SD-06 Test Reports Topsoil Composition Tests; Soil Test of current growing area Percolation Test; Percolation Test of proposed area SD-07 Certificates Nursery Certifications Forest Stewardship Council (Fsc) Certification (LEED NC) Indicate names of plants in accordance with the LHBH, including type, quality, and size. SD-10 Operation and Maintenance Data Maintenance required on all plantings installed; CA Plastic Identification When not labeled, identify types in Operation and Maintenance Manual. SECTION 32 93 00 Page 6 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 1.4 QUALITY ASSURANCE 1.4.1 Topsoil Composition Tests Commercial test from an independent testing laboratory including basic soil groups (moisture and saturation percentages, Nitrogen -Phosphorus -Potassium (N-P-K) ratio, pH (ASTM D4972), soil salinity), secondary nutrient groups (calcium, magnesium, sodium, Sodium Absorption Ratio (SAR)), micronutrients (zinc, manganese, iron, copper), toxic soil elements (boron, chloride, sulfate), cation exchange and base saturation percentages, and soil amendment and fertilizer recommendations with quantities for plant material being transplanted. Soil required for each test must include a maximum depth of 18 inches of approximately one quart volume for each test. Areas sampled should not be larger than one acre and should contain at least 6-8 cores for each sample area and be thoroughly mixed. Problem areas should be sampled separately and compared with samples taken from adjacent non -problem areas. The location of the sample areas should be noted and marked on a parcel or planting map for future reference. 1.4.2 Nursery Certifications a. Indicate on nursery letterhead the name of plants in accordance with the LHBH, including botanical common names, quality, and size. b. Inspection certificate. C. Mycorrhizal fungi inoculum for plant material treated 1.4.3 State Landscape Contractor's License Construction company must hold a landscape contractors license in the state where the work is performed and have a minimum of five years landscape construction experience. Submit copy of license and three references for similar work completed in the last five years. [1.4.4 Plant Material Photographs Contractor must submit nursery photographs, for government approval prior to ordering, for each tree larger than 24-inch box/ 2-inch caliper size. 11.4.5 Percolation Test Immediately following rough grading operation, identify a typical location for one of the largest trees and or shrubs and excavate a pit per the project details. Fill the pit with water to a depth of 12 inches. The length of time required for the water to percolate into the soil, leaving the pit empty, must be measured by the project Landscape Architect and verified by the Contracting Officer. Within six hours of the time the water has drained from the pit, the Contractor, with the Contracting Officer and project Landscape Architect present, must again fill the pit with water to a depth of 12 inches. If the water does not completely percolate into the soil within 9 hours, a determination must be made whether a drainage system or a soil penetrant will be required for each tree and or shrub being transplanted. SECTION 32 93 00 Page 7 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 1.5 DELIVERY, STORAGE, AND HANDLING 1.5.1 Delivery 1.5.1.1 Branched Plant Delivery Deliver with branches tied and exposed branches covered with material which allows air circulation. Prevent damage to branches, trunks, root systems, and root balls and desiccation of leaves. 1.5.1.2 Soil Amendment Delivery Deliver to the site in original, unopened containers bearing manufacturer's chemical analysis, name, trade name, or trademark, and indication of conformance to state and federal laws. Instead of containers, fertilizer, may be furnished in bulk with a certificate indicating the above information. Store in dry locations away from contaminates. 1.5.1.3 Plant Labels Deliver plants with durable waterproof labels in weather -resistant ink. Provide labels stating the correct botanical and common plant name and variety as applicable and size as specified in the list of required plants. Attach to plants, bundles, and containers of plants. Groups of plants may be labeled by tagging one plant. Labels must be legible for a minimum of 60 days after delivery to the planting site. 1.5.2 Storage 1.5.2.1 Plant Storage and Protection Store and protect plants not planted on the day of arrival at the site as follows: a. Shade and protect plants in outside storage areas from the wind and direct sunlight until planted. b. Heel -in bare root plants. C. Protect balled and burlapped plants from freezing or drying out by covering the balls or roots with moist burlap, sawdust, wood chips, shredded bark, peat moss, or other approved material. Provide covering which allows air circulation. d. Keep plants in a moist condition until planted by watering with a fine mist spray. e. Do not store plant material directly on concrete or bituminous surfaces. 1.5.2.2 Fertilizer, and Mulch Storage Store in dry locations away from contaminants. 1.5.2.3 Topsoil Prior to stockpiling topsoil, eradicate on site undesirable growing vegetation. Clear and grub existing vegetation three to four weeks prior to stockpiling existing topsoil. SECTION 32 93 00 Page 8 SOF Battalion Administration Facility Fort Bragg, North Carolina 1.5.3 Handling PN63850 W912PM-18-C-0015 Do not drop or dump plants from vehicles. Avoid damaging plants being moved from nursery or storage area to planting site. Handle balled and burlapped container plants carefully to avoid damaging or breaking the earth ball or root structure. Do not handle plants by the trunk or stem. Remove damaged plants from the site. 1.5.4 TIME LIMITATION Except for container -grown plant material, the time limitation from digging to installing plant material must be a maximum of 90 days. The time limitation between installing the plant material and placing the mulch must be a maximum of 24 hours. 1.6 TIME RESTRICTIONS AND PLANTING CONDITIONS 1.6.1 Planting Dates 1.6.1.1 Deciduous Material Deciduous material from April 1 to May 15 for spring planting and from September 1 to October 15 for fall [/winter] planting. 1.6.2 Restrictions Do not plant when ground is frozen, muddy, or when air temperature exceeds 90 degrees Fahrenheit 1.7 GUARANTEE All plants must be guaranteed for one year beginning on the date of inspection by the Contracting Officer to commence the plant establishment period, against defects including death and unsatisfactory growth, except for defects resulting from lack of adequate maintenance, neglect, or abuse by the Government or by weather conditions unusual for the warranty period. At end of warranty period, replace planting materials that die or have 25 percent or more of their branches that die during the construction operations or the guarantee period. 1.8 SUSTAINABLE DESIGN REQUIREMENTS 1.8.1 Local/Regional Materials Use materials or products extracted, havested, or recovered, as well as manufactured, within a 500 mile radius from the project site, if available from a minimum of three sources. See Section 01 33 29 LEED (tm) DOCUMENTATION for cumulative total local material requirements. Landscaping materials may be locally available. SECTION 32 93 00 Page 9 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 PART 2 PRODUCTS 2.1 PLANTS 2.1.1 Regulations and Varieties Furnish nursery stock in accordance with ANSI/ANLA Z60.1, except as otherwise specified or indicated. Each plant or group of planting must have a "key" number indicated on the nursery certifications of the plant schedule. Furnish plants, including turf grass, grown under climatic conditions similar to those in the locality of the project. Spray plants budding into leaf or having soft growth with an antidesiccant before digging. Plants of the same specified size must be of uniform size and character of growth. All plants must comply with all Federal and State Laws requiring inspection for plant diseases and infestation. 2.1.2 Shape and Condition Well -branched, well -formed, sound, vigorous, healthy planting stock free from disease, sunscald, windburn, abrasion, and harmful insects or insect eggs and having a healthy, normal, and undamaged root system. 2.1.2.1 Deciduous Trees and Shrubs Symmetrically developed and of uniform habit of growth, with straight boles or stems, and free from objectionable disfigurements. 2.1.2.2 Evergreen Trees and Shrubs Well developed symmetrical tops with typical spread of branches for each particular species or variety. 2.1.2.3 Ground Covers and Vines Number and length of runners and clump sizes indicated, and of the proper age for the grade of plants indicated, furnished in removable containers, integral containers, or formed homogeneous soil section. 2.1.3 Plant Size Minimum sizes measured after pruning and with branches in normal position, must conform to measurements indicated, based on the average width or height of the plant for the species as specified in ANSI/ANLA Z60.1. Plants larger in size than specified may be provided with approval of the Contracting Officer. When larger plants are provided, increase the ball of earth or spread of roots in accordance with ANSI/ANLA Z60.1. 2.1.4 Root Ball Size All box -grown, field potted, field boxed, collected, plantation grown, bare root, balled and burlapped, container grown, processed -balled, and in -ground fabric bag -grown root balls must conform to ANSI/ANLA Z60.1. All wrappings and ties must be biodegradable. Root growth in container grown plants must be sufficient to hold earth intact when removed from containers. Root bound plants will not be accepted. 2.1.4.1 Mycorrhizal fungi inoculum Before shipment, root systems must contain mycorrhizal fungi inoculum. SECTION 32 93 00 Page 10 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 12.1.5 Growth of Trunk and Crown 2.1.5.1 Deciduous Trees A height to caliper relationship must be provided in accordance with ANSI/ANLA Z60.1. Height of branching must bear a relationship to the size and species of tree specified and with the crown in good balance with the trunk. The trees must not be "poled" or the leader removed. a. Single stem: The trunk must be reasonably straight and symmetrical with crown and have a persistent main leader. b. Multi -stem: All countable stems, in aggregate, must average the size specified. To be considered a stem, there must be no division of the trunk which branches more than 6 inches from ground level. 2.1.5.2 Palms Palms must have the specified height as measured from the base of the trunk to the base of the fronds or foliage in accordance with ANSI/ANLA Z60.1. The palm must have straight trunk and healthy fronds or foliage as typical for the variety grown in the region of the project. Palms trimmed or pruned for delivery must retain a minimum of 6 inches of foliage at the crown as a means of determining plant health. 2.1.5.3 Deciduous Shrubs Deciduous shrubs must have the height and number of primary stems recommended by ANSI/ANLA Z60.1. Acceptable plant material must be well shaped, with sufficient well -spaced side branches, and recognized by the trade as typical for the species grown in the region of the project. 2.1.5.4 Coniferous Evergreen Plant Material Coniferous Evergreen plant material must have the height -to -spread ratio recommended by ANSI/ANLA Z60.1. The coniferous evergreen trees must not be "poled" or the leader removed. Acceptable plant material must be exceptionally heavy, well shaped and trimmed to form a symmetrical and tightly knit plant. The form of growth desired must be as indicated. 2.1.5.5 Broadleaf Evergreen Plant Material Broadleaf evergreen plant material must have the height -to -spread ratio recommended by ANSI/ANLA Z60.1. Acceptable plant material must be well shaped and recognized by the trade as typical for the variety grown in the region of the project. 2.1.5.6 Ground Cover and Vine Plant Material Ground cover and vine plant material must have the minimum number of runners and length of runner recommended by ANSI/ANLA Z60.1. Plant material must have heavy, well developed and balanced crown with vigorous, well developed root system and must be furnished in containers. SECTION 32 93 00 Page 11 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.2 TOPSOIL 2.2.1 Existing Soil PN63850 W912PM-18-C-0015 Modify to conform to requirements specified in paragraph COMPOSITION. ][2.2.2 On -Site Topsoil Surface soil stripped and stockpiled on site and modified as necessary to meet the requirements specified for topsoil in paragraph COMPOSITION. When available topsoil must be existing surface soil stripped and stockpiled on -site in accordance with Section 31 00 00 EARTHWORK. ][2.2.3 Off -Site Topsoil Conform to requirements specified in paragraph COMPOSITION. Additional topsoil must be furnished by the Contractor. 12.2.4 Composition Evaluate soil for use as topsoil in accordance with ASTM D5268. From 5 to 10 percent organic matter as determined by the topsoil composition tests of the Organic Carbon, 6A, Chemical Analysis Method described in DOA SSIR 42. Maximum particle size, 3/4 inch, with maximum 3 percent retained on 1/4 inch screen. The pH must be tested in accordance with ASTM D4972. Topsoil must be free of sticks, stones, roots, plants, and other debris and objectionable materials. Other components must conform to the following limits: Silt 25-50 percent Clay 10-30 percent Sand 20-35 percent pH 5.5 to 7.0 Soluble Salts 600 ppm maximum 2.3 SOIL CONDITIONERS Provide singly or in combination as required to meet specified requirements for topsoil. Soil conditioners must be nontoxic to plants. 2.3.1 Lime Commercial grade hydrated limestone containing a calcium carbonate equivalent (C.C.E.) as specified in ASTM C602 of not less than 80 percent. 2.3.2 Aluminum Sulfate Commercial grade. 2.3.3 Sulfur 100 percent elemental SECTION 32 93 00 Page 12 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 2.3.4 Iron 100 percent elemental 2.3.5 Peat Natural product of peat moss derived from a freshwater site and conforming to ASTM D4427 as modified herein. Shred and granulate peat to pass a 1/2 inch mesh screen and condition in storage pile for minimum 6 months after excavation. Peat must not contain invasive species, including seeds. 2.3.6 Sand Clean and free of materials harmful to plants. 2.3.7 Perlite Horticultural grade. 2.3.8 Composted Derivatives Ground bark, nitrolized sawdust, humus or other green wood waste material free of stones, sticks, invasive species, including seeds, and soil stabilized with nitrogen and having the following properties: 2.3.8.1 Particle Size Minimum percent by weight passing: No. 4 mesh screen 95 No. 8 mesh screen 80 2.3.8.2 Nitrogen Content Minimum percent based on dry weight: Fir Sawdust 0.7 Fir or Pine Bark 1.0 2.3.9 Gypsum Coarsely ground gypsum comprised of calcium sulfate dihydrate 91 percent, calcium 22 percent, sulfur 17 percent; minimum 96 percent passing through 20 mesh screen, 100 percent passing thru 16 mesh screen. 2.4 PLANTING SOIL MIXTURES 100 percent topsoil as specified herein. 3 parts topsoil, 1 parts sand, and 1 parts peat. Thoroughly mix all parts of planting soil mixture to a uniform blend throughout. 2.5 FERTILIZER 2.5.1 Granular Fertilizer Organic, granular controlled release fertilizer containing the following SECTION 32 93 00 Page 13 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 minimum percentages, by weight, of plant food nutrients: 20 percent available nitrogen 10 percent available phosphorus 10 percent available potassium 2.5.2 Fertilizer Tablets Organic, plant tablets composed of tightly compressed fertilizer chips forming a tablet that is insoluble in water, is designed to provide a continuous release of nutrients for at least 24 months and contains the following minimum percentages, by weight, of plant food nutrients: 20 percent available nitrogen 10 percent available phosphorus 10 percent available potassium 2.6 MULCH Free from noxious weeds, mold, pesticides, or other deleterious materials. 2.6.1 Organic Mulch Materials Ground or shredded bark from site when available. Biobased content shall be a minimum of 100 percent. Wood cellulose fiber must be processed to contain no growth or germination -inhibiting factors, dyed with non -toxic, biodegradable dye to an appropriate color to facilitate visual metering of materials application. Paper -based hydraulic mulch must contain 100 percent post -consumer recycled content. Wood -based hydraulic mulch must contain 100 percent total recovered materials content. [2.6.2 Recycled Organic Mulch Recycled mulch may include compost, tree trimmings, or pine needles with a gradation that passes through a 2-1/2 by 2-1/2 inch screen. It must be cleaned of all sticks a minimum one inch in diameter and plastic materials a minimum 3 inches length. The material must be treated to retard the growth of mold and fungi. 12.7 STAKING AND GUYING MATERIAL 2.7.1 Turnbuckles Galvanized or cadmium -plated steel with minimum 3 inch long openings fitted with screw eyes. Eye bolts must be galvanized or cadmium -plated steel with one inch diameter eyes and screw length 1-1/2 inches, minimum. 2.7.2 Deadmen 4 by 8 inch rectangular or 8 inch diameter by 36 inch ] pine wood material. 2.7.3 Metal Anchors 2.7.3.1 Driven Anchors Malleable iron, arrow shaped, galvanized, sized as follows: SECTION 32 93 00 Page 14 SOF Battalion Administration Facility Fort Bragg, North Carolina Tree Caliper Anchor Size 2 inches and under 3 inches 3 to 6 inches 4 inches 6 to 8 inches 6 inches 8 to 10 inches 8 inches 10 to 12 inches 10 inches 2.7.3.2 Screw Anchors PN63850 W912PM-18-C-0015 Steel, screw type with welded -on 3 inch round helical steel plate, minimum 3/8 inch diameter, 15 inches long. 2.8 ANTIDESICCANTS Sprayable, water insoluble vinyl-vinledine complex which produce a moisture retarding barrier not removable by rain or snow. Film must form at temperatures commonly encountered out of doors during planting season and have a moisture vapor transmission rate (MVT) of the resultant film of maximum 10 grams per 24 hours at 70 percent humidity. 2.9 EROSION CONTROL MATERIALS Erosion control material must conform to the following: 2.9.1 Erosion Control Blanket 100 percent agricultural straw stitched with a degradable nettings, designed to degrade within 12 months. 2.9.2 Erosion Control Fabric Fabric must be knitted construction of polypropylene yarn with uniform mesh openings 3/4 to 1 inch square with strips of biodegradable paper. Filler paper strips must have a minimum life of 6 months. 2.9.3 Erosion Control Net Net must be heavy, twisted jute mesh, weighing approximately 1.22 pounds per linear yard and 4 feet wide with mesh openings of approximately one inch square. 2.9.4 Hydrophilic Colloids Hydrophilic colloids must be physiologically harmless to plant and animal life without phytotoxic agents. Colloids must be naturally occurring, silicate powder based, and must form a water insoluble membrane after curing. Colloids must resist mold growth. 2.9.5 Erosion Control Material Anchors Erosion control anchors must be as recommended by the manufacturer. SECTION 32 93 00 Page 15 SOF Battalion Administration Facility Fort Bragg, North Carolina 2.10 WATER PN63850 W912PM-18-C-0015 Source of water to be approved by Contracting Officer and suitable quality for irrigation and must not contain elements toxic to plant life. 2.10.1 Hose Hoses used for watering shall be a minimum of 65 percent post -consumer rubber or plastic 2.11 MYCORRHIZAL FUNGI INOCULUM Mycorrhizal fungi inoculum must be composed of multiple -fungus inoculum as recommended by the manufacturer for the plant material specified. 2.12 SOURCE QUALITY CONTROL The Contracting Officer will inspect plant materials at the project site and approve them. Tag plant materials for size and quality. PART 3 EXECUTION 3.1 EXTENT OF WORK Provide soil preparation, fertilizing, tree, shrub, groundcover, and planting, staking and guying, erosion control material and mulch topdressing of all newly graded finished earth surfaces, unless indicated otherwise, and at all areas inside or outside the limits of construction that are disturbed by the Contractor's operations.. 3.2 PREPARATION 3.2.1 Layout Stake out approved plant material locations and planter bed outlines on the project site before digging plant pits or beds. The Contracting Officer reserves the right to adjust plant material locations to meet field conditions. Do not plant closer than 12 inches to a building wall, pavement edge, fence or wall edge and other similar structures. 3.2.2 Soil Preparation 3.2.2.1 pH Adjuster Application Rates Apply pH adjuster at rates as determined by laboratory soil analysis of the soils at the job site. 3.2.2.2 Soil Conditioner Application Rates Apply soil conditioners at rates as determined by laboratory soil analysis of the soils at the job site. 3.2.2.3 Fertilizer Application Rates Apply fertilizer at rates as determined by laboratory soil analysis of the soils at the job site. SECTION 32 93 00 Page 16 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.3 PLANT BED PREPARATION PN63850 W912PM-18-C-0015 Verify location of underground utilities prior to excavation. Protect existing adjacent turf before excavations are made. Where planting beds occur in existing turf areas, remove turf to a depth that will ensure removal of entire root system. Measure depth of plant pits from finished grade. Depth of plant pit excavation must be as indicated and provide proper relation between top of root ball and finished grade. Install plant material as specified in paragraph PLANT INSTALLATION. Do not install trees within 10 feet of any utility lines or building walls. 3.4 PLANT INSTALLATION 3.4.1 Individual Plant Pit Excavation Excavate pits at least twice as large in diameter as the size of ball or container to depth shown. 3.4.2 Plant Beds with Multiple Plants Excavate plant beds continuously throughout entire bed as outlined to depth shown. 3.4.3 Handling and Setting Move plant materials only by supporting the root ball container. Set plants on hand compacted layer of prepared backfill soil mixture 6 inches thickSet plants on native soil and hold plumb in the center of the pit until soil has been tamped firmly around root ball. Set plant materials, in relation to surrounding finish grade, one to 2 inches above depth at which they were grown in the nursery, collecting field or container. Replace plant material whose root balls are cracked or damaged either before or during the planting process. Plant material must be set in plant beds according to the drawings. Backfill soil mixture must be placed on previously scarified subsoil to completely surround the root balls, and must be brought to a smooth and even surface, blending to existing areas. 3.4.3.1 Balled and Burlapped Stock Backfill with prepared soil mixture to approximately half the depth of ball and then tamp and water. Carefully remove or fold back excess burlap and tying materials from the top a minimum 1/3 depth from the top of the rootball. Tamp and complete backfill, place mulch topdressing, and water. Remove wires and non -biodegradable materials from plant pit prior to backfill operations. 3.4.3.2 Container Grown Stock Remove from container and prevent damage to plant or root system. 3.4.4 Earth Mounded Watering Basin for Individual Plant Pits Form with topsoil around each plant by replacing a mound of topsoil around the edge of each plant pit. Watering basins must be 6 inches deep for trees and 4 inches deep for shrubs. Construct watering basin in a 4 1/2 foot diameter circle around specimen (not planted in a close group) trees and shrubs.. SECTION 32 93 00 Page 17 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.4.5 Erosion Control Material Install in accordance with manufacturer's instructions. 3.4.6 Placement of Mulch Topdressing Place mulch topdressing to a depth of 3 inches. 3.4.7 Mulch Topdressing Provide mulch topdressing over entire planter bed surfaces and individual plant surfaces including earth mound watering basin around plants to a depth of 3 inches after completion of plant installation and before watering. Keep mulch out of the crowns of shrubs. Place mulch a minimum 2 to 3 inches away from trunk of shrub or tree. Place on top of any weed control fabric. 3.4.8 Fertilization 3.4.8.1 Fertilizer Tablets Place fertilizer planting tablets evenly spaced around the plant pits to the manufacturer's recommended depth. 3.4.8.2 Granular Fertilizer Apply granular fertilizer as a top coat prior to placing mulch layer and water thoroughly. 3.4.9 Watering Start watering areas planted as required by temperature and wind conditions. Apply water at a rate sufficient to ensure thorough wetting of soil to a depth of 12 inches without run off. 3.4.10 Staking and Guying 3.4.10.1 Staking Stake plants with the number of stakes indicated complete with double strand of 12 gage guy wire as detailed. Attach guy wire half the tree height but not more than 5 feet high. Drive stakes to a depth of 2-1/2 to 3 feet into the ground outside the plant pit. Do not injure the root ball. Use hose chafer guards where guy wire comes in contact with tree trunk. 3.4.10.2 Guying Guy plants as indicated. Attach two strands of guying wire around the tree trunk at an angle of 45 degrees at approximately 1/2 of the trunk height. Protect tree trunks with chafing guards where guying wire contacts the tree trunk. Anchor guys to wood ground stakes. Fasten flags to each guying wire approximately 2/3 of the distance up from ground level. Provide turnbuckles as indicated. 3.4.10.3 Chafing Guards Use hose chafing guards, as specified where guy wire will contact the plant. SECTION 32 93 00 Page 18 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.4.10.4 Deadmen Place deadmen minimum 18 inches below ground surface. Place equal distance from tree trunk and around the plant pit. 3.4.10.5 Wood Ground Stakes Drive wood ground stakes into firm ground outside of plant pit with top of stake flush with ground. Place equal distance from tree trunk and around the plant pit. 3.4.10.6 Flags Securely fasten flags on each guy wire approximately two-thirds of the distance up from ground level. 3.4.11 Pruning Prune in accordance with safety requirement of TCIA Z133. 3.4.11.1 Trees and Shrubs Remove dead and broken branches. Prune to correct structural defects only. Retain typical growth shape of individual plants with as much height and spread as practical. Do not cut central leader on trees. Make cuts with sharp instruments. Do not flush cut with trunk or adjacent branches. Collars must remain in place. Pruning must be accomplished by trained and experienced personnel and must be accordance with TCIA A300P1. 3.4.11.2 Wound Dressing Do not apply tree wound dressing to cuts. 3.5 RESTORATION AND CLEAN UP 3.5.1 Restoration Turf areas, pavements and facilities that have been damaged from the planting operation must be restored to original condition at the Contractor's expense. 3.5.2 Clean Up Excess and waste material must be removed from the installed area and must be disposed offsite at an approved landfill, recycling center, or composting center. Adjacent paved areas must be cleared. 3.6 OPERATIONS AND MAINTENANCE MANUAL Contractor shall supply an Operations and Maintenance manual for all plantings installed. The manual shall include all requirements for the long term sustainability of plants on site. -- End of Section -- SECTION 32 93 00 Page 19 This Page Intentionally Left Blank SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 33 - UTILITIES SECTION 33 40 00 STORM DRAINAGE UTILITIES 02/10 PN63850 W912PM-18-C-0015 storm drainage piping systems using concrete, clay, steel, ductile iron, aluminum, polyvinyl chloride (PVC), polyethylene (PE), polypropylene (PP) pipe and steel reinforced polyethylene (SRPE) pipe PART 1 GENERAL 1.1 REFERENCES 1.2 DELIVERY, STORAGE, AND HANDLING 1.2.1 Delivery and Storage 1.2.2 Handling PART 2 PRODUCTS 2.1 PIPE FOR CULVERTS AND STORM DRAINS 2.1.1 Concrete Pipe 2.1.1.1 Reinforced Arch Culvert and Storm Drainpipe 2.1.2 Poly Vinyl Chloride (PVC) Pipe 2.1.2.1 Type PSM PVC Pipe 2.1.2.2 Profile PVC Pipe 2.1.2.3 Smooth Wall PVC Pipe 2.2 PERFORATED PIPING 2.2.1 Concrete Pipe 2.2.2 Polyvinyl Chloride (PVC) Pipe 2.3 DRAINAGE STRUCTURES 2.3.1 Flared End Sections 2.3.2 Precast Reinforced Concrete Box 2.4 MISCELLANEOUS MATERIALS 2.4.1 Concrete 2.4.2 Mortar 2.4.3 Precast Reinforced Concrete Manholes 2.4.4 Frame and Cover for Gratings 2.4.5 Joints 2.4.5.1 Flexible Watertight Joints 2.4.5.2 External Sealing Bands 2.4.5.3 Flexible Watertight, Gasketed Joints 2.4.5.4 PVC Plastic Pipes 2.5 RESILIENT CONNECTORS 2.6 EROSION CONTROL RIP RAP PART 3 EXECUTION 3.1 INSTALLATION OF PIPE CULVERTS, STORM DRAINS, AND DRAINAGE STRUCTURES 3.1.1 Trenching 3.1.2 Removal of Rock 3.1.3 Removal of Unstable Material SECTION 33 40 00 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 3.2 BEDDING 3.2.1 Concrete Pipe Requirements 3.2.2 Plastic Pipe 3.3 PLACING PIPE 3.4 JOINTING 3.4.1 Concrete and Clay Pipe 3.4.1.1 Cement -Mortar Bell -and -Spigot Joint 3.4.1.2 Cement -Mortar Oakum Joint for Bell -and -Spigot Pipe 3.4.1.3 Cement -Mortar Diaper Joint for Bell -and -Spigot Pipe 3.4.1.4 Cement -Mortar Tongue -and -Groove Joint 3.4.1.5 Cement -Mortar Diaper Joint for Tongue -and -Groove Pipe 3.4.1.6 Plastic Sealing Compound Joints for Tongue -and -Grooved Pipe 3.4.1.7 Flexible Watertight Joints 3.4.1.8 External Sealing Band Joint for Noncircular Pipe 3.5 DRAINAGE STRUCTURES 3.5.1 Manholes and Inlets 3.5.2 Walls and Headwalls 3.6 BACKFILLING 3.6.1 Backfilling Pipe in Trenches 3.6.2 Backfilling Pipe in Fill Sections 3.6.3 Movement of Construction Machinery 3.6.4 Compaction 3.6.4.1 General Requirements 3.6.4.2 Minimum Density 3.7 FIELD PAINTING 3.7.1 Cast -Iron Covers, Frames, Gratings, And Steps 3.8 FIELD QUALITY CONTROL 3.8.1 Tests 3.8.1.1 HYDROSTATIC TEST ON WATERTIGHT JOINTS 3.8.1.1.1 Concrete, Clay, PVC, PE, SRPE and PP Pipe 3.8.1.1.2 Corrugated Steel and Aluminum Pipe 3.8.1.2 Determination of Density 3.8.2 Inspection 3.8.2.1 Post -Installation Inspection 3.8.2.1.1 Concrete 3.8.2.1.2 Flexible Pipe 3.8.2.1.3 Post -Installation Inspection Report 3.8.3 Repair Of Defects 3.8.3.1 Leakage Test 3.8.3.2 Deflection Testing 3.8.3.3 Inspection 3.8.3.3.1 Concrete 3.8.3.3.2 Flexible Pipe 3.9 PROTECTION 3.10 WARRANTY PERIOD -- End of Section Table of Contents -- SECTION 33 40 00 Page 2 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION 33 40 00 STORM DRAINAGE UTILITIES 02/10 PART 1 GENERAL 1.1 REFERENCES PN63850 W912PM-18-C-0015 The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. AMERICAN ASSOCIATION OF STATE HIGHWAY AND TRANSPORTATION OFFICIALS (AASHTO) AASHTO HB-17 (2002; Errata 2003; Errata 2005, 17th Edition) Standard Specifications for Highway Bridges ASTM INTERNATIONAL (ASTM) ASTM A48/A48M (2003; R 2012) Standard Specification for Gray Iron Castings ASTM A536 (1984; R 2014) Standard Specification for Ductile Iron Castings ASTM A929/A929M (2018) Standard Specification for Steel Sheet, Metallic -Coated by the Hot -Dip Process for Corrugated Steel Pipe ASTM B26/B26M (2014; E 2015) Standard Specification for Aluminum -Alloy Sand Castings ASTM C14 (2015) Standard Specification for Concrete Sewer, Storm Drain, and Culvert Pipe ASTM C1433 (2016b) Standard Specification for Precast Reinforced Concrete Monolithic Box Sections for Culverts, Storm Drains, and Sewers ASTM C231/C231M (2017a) Standard Test Method for Air Content of Freshly Mixed Concrete by the Pressure Method ASTM C270 (2014a) Standard Specification for Mortar for Unit Masonry ASTM C425 (2004; R 2013) Standard Specification for Compression Joints for Vitrified Clay Pipe and Fittings ASTM C443 (2012; R 2017) Standard Specification for Joints for Concrete Pipe and Manholes, SECTION 33 40 00 Page 3 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 Using Rubber Gaskets ASTM C444 (2017) Standard Specification for Perforated Concrete Pipe ASTM C478 (2018) Standard Specification for Circular Precast Reinforced Concrete Manhole Sections ASTM C506 (2016a) Standard Specification for Reinforced Concrete Arch Culvert, Storm Drain, and Sewer Pipe ASTM C76 (2018) Standard Specification for Reinforced Concrete Culvert, Storm Drain, and Sewer Pipe ASTM C877 (2008) External Sealing Bands for Concrete Pipe, Manholes, and Precast Box Sections ASTM C923 (2008; R 2013; E 2016) Standard Specification for Resilient Connectors Between Reinforced Concrete Manhole Structures, Pipes and Laterals ASTM C990 (2009; R 2014) Standard Specification for Joints for Concrete Pipe, Manholes and Precast Box Sections Using Preformed Flexible Joint Sealants ASTM D1056 (2014) Standard Specification for Flexible Cellular Materials - Sponge or Expanded Rubber ASTM D1171 (2016; E 2016) Standard Test Method for Rubber Deterioration - Surface Ozone Cracking Outdoors (Triangular Specimens) ASTM D1557 (2012; E 2015) Standard Test Methods for Laboratory Compaction Characteristics of Soil Using Modified Effort (56,000 ft-lbf/ft3) (2700 kN-m/m3) ASTM D1751 (2004; E 2013; R 2013) Standard Specification for Preformed Expansion Joint Filler for Concrete Paving and Structural Construction (Nonextruding and Resilient Bituminous Types) ASTM D1752 (2004a; R 2013) Standard Specification for Preformed Sponge Rubber Cork and Recycled PVC Expansion ASTM D1784 (2011) Standard Specification for Rigid Poly(Vinyl Chloride) (PVC) Compounds and Chlorinated Poly(Vinyl Chloride) (CPVC) Compounds ASTM D2167 (2015) Density and Unit Weight of Soil in SECTION 33 40 00 Page 4 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 Place by the Rubber Balloon Method ASTM D2321 (2018) Standard Practice for Underground Installation of Thermoplastic Pipe for Sewers and Other Gravity -Flow Applications ASTM D2729 (2017) Standard Specification for Poly(Vinyl Chloride) (PVC) Sewer Pipe and Fittings ASTM D3034 (2016) Standard Specification for Type PSM Poly(Vinyl Chloride) (PVC) Sewer Pipe and Fittings ASTM D3212 (2007; R 2013) Standard Specification for Joints for Drain and Sewer Plastic Pipes Using Flexible Elastomeric Seals ASTM D6938 (2017a) Standard Test Method for In -Place Density and Water Content of Soil and Soil -Aggregate by Nuclear Methods (Shallow Depth) ASTM F679 (2016) Standard Specification for Poly(Vinyl Chloride) (PVC) Large -Diameter Plastic Gravity Sewer Pipe and Fittings ASTM F794 (2003; R 2014) Standard Specification for Poly(Vinyl Chloride) (PVC) Profile Gravity Sewer Pipe and Fittings Based on Controlled Inside Diameter 1.2 DELIVERY, STORAGE, AND HANDLING 1.2.1 Delivery and Storage Materials delivered to site shall be inspected for damage, unloaded, and stored with a minimum of handling. Materials shall not be stored directly on the ground. The inside of pipes and fittings shall be kept free of dirt and debris. Before, during, and after installation, plastic pipe and fittings shall be protected from any environment that would result in damage or deterioration to the material. Keep a copy of the manufacturer's instructions available at the construction site at all times and follow these instructions unless directed otherwise by the Contracting Officer. Solvents, solvent compounds, lubricants, elastomeric gaskets, and any similar materials required to install plastic pipe shall be stored in accordance with the manufacturer's recommendations and shall be discarded if the storage period exceeds the recommended shelf life. Solvents in use shall be discarded when the recommended pot life is exceeded. 1.2.2 Handling Materials shall be handled in a manner that ensures delivery to the trench in sound, undamaged condition. Pipe shall be carried to the trench, not dragged. SECTION 33 40 00 Page 5 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 PART 2 PRODUCTS 2.1 PIPE FOR CULVERTS AND STORM DRAINS Pipe for culverts and storm drains shall be of the sizes indicated and shall conform to the requirements specified. 2.1.1 Concrete Pipe Manufactured in accordance with and conforming to ASTM C76, Class III 2.1.1.1 Reinforced Arch Culvert and Storm Drainpipe Manufactured in accordance with and conforming to ASTM C506, Class A -III 2.1.2 Poly Vinyl Chloride (PVC) Pipe Submit the pipe manufacturer's resin certification, indicating the cell classification of PVC used to manufacture the pipe, prior to installation of the pipe. 2.1.2.1 Type PSM PVC Pipe ASTM D3034, Type PSM, maximum SDR 35, produced from PVC certified by the Manufacturer as meeting the requirements of ASTM D1784, minimum cell class 12454-B. 2.1.2.2 Profile PVC Pipe ASTM F794, Series 46, produced from PVC certified by the Manufacturer as meeting the requirements of ASTM D1784, minimum cell class 12454-B. 2.1.2.3 Smooth Wall PVC Pipe ASTM F679 produced from PVC certified by the Manufacturer as meeting the requirements of ASTM D1784, minimum cell class 12454-B. 2.2 PERFORATED PIPING 2.2.1 Concrete Pipe Manufactured in accordance with and conforming to ASTM C444, and applicable requirements of ASTM C14, Class III. 2.2.2 Polyvinyl Chloride (PVC) Pipe ASTM D2729.2.3 DRAINAGE STRUCTURES 2.3.1 Flared End Sections Sections shall be of a standard design fabricated from zinc coated steel sheets meeting requirements of ASTM A929/A929M. 2.3.2 Precast Reinforced Concrete Box Manufactured in accordance with and conforming to ASTM C1433. SECTION 33 40 00 Page 6 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 2.4 MISCELLANEOUS MATERIALS 2.4.1 Concrete Unless otherwise specified, concrete and reinforced concrete shall conform to the requirements for 3,000 psi concrete under Section 03 30 53 MISCELLANEOUS CAST -IN -PLACE CONCRETE. The concrete mixture shall have air content by volume of concrete, based on measurements made immediately after discharge from the mixer, of 5 to 7 percent when maximum size of coarse aggregate exceeds 1-1/2 inches. Air content shall be determined in accordance with ASTM C231/C231M. The concrete covering over steel reinforcing shall not be less than 1 inch thick for covers and not less than 1-1/2 inches thick for walls and flooring. Concrete covering deposited directly against the ground shall have a thickness of at least 3 inches between steel and ground. Expansion -joint filler material shall conform to ASTM D1751, or ASTM D1752, or shall be resin -impregnated fiberboard conforming to the physical requirements of ASTM D1752. 2.4.2 Mortar Mortar for pipe joints, connections to other drainage structures, and brick or block construction shall conform to ASTM C270, Type M, except that the maximum placement time shall be 1 hour. The quantity of water in the mixture shall be sufficient to produce a stiff workable mortar . Water shall be clean and free of harmful acids, alkalis, and organic impurities. The mortar shall be used within 30 minutes after the ingredients are mixed with water. The inside of the joint shall be wiped clean and finished smooth. The mortar head on the outside shall be protected from air and sun with a proper covering until satisfactorily cured. 2.4.3 Precast Reinforced Concrete Manholes Conform to ASTM C478. Joints between precast concrete risers and tops shall be made with flexible watertight, rubber -type gaskets meeting the requirements of paragraph JOINTS. 2.4.4 Frame and Cover for Gratings Submit certification on the ability of frame and cover or gratings to carry the imposed live load. Frame and cover for gratings shall be cast gray iron, ASTM A48/A48M, Class 35B; cast ductile iron, ASTM A536, Grade 65-45-12; or cast aluminum, ASTM B26/B26M, Alloy 356.0-T6. Weight, shape, size, and waterway openings for grates and curb inlets shall be as indicated on the plans. The word "Storm Sewer" shall be stamped or cast into covers so that it is plainly visible. 2.4.5 Joints 2.4.5.1 Flexible Watertight Joints a. Flexible watertight joints shall be made with plastic or rubber -type gaskets for concrete pipe and with factory -fabricated resilient materials for clay pipe. The design of joints and the physical requirements for preformed flexible joint sealants shall conform to ASTM C990, and rubber -type gaskets shall conform to ASTM C443. Factory -fabricated resilient joint materials shall conform to ASTM C425. Gaskets shall have not more than one factory -fabricated splice, except that two factory -fabricated splices of the rubber -type gasket are permitted if the nominal diameter of the pipe being gasketed exceeds 54 SECTION 33 40 00 Page 7 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 inches. b. Rubber gaskets shall comply with the oil resistant gasket requirements of ASTM C443. Certified copies of test results shall be delivered to the Contracting Officer before gaskets or jointing materials are installed. Alternate types of watertight joint may be furnished, if specifically approved. 2.4.5.2 External Sealing Bands Requirements for external sealing bands shall conform to ASTM C877. 2.4.5.3 Flexible Watertight, Gasketed Joints a. Gaskets: When infiltration or exfiltration is a concern for pipe lines, the couplings may be required to have gaskets. The closed -cell expanded rubber gaskets shall be a continuous band approximately 7 inches wide and approximately 3/8 inch thick, meeting the requirements of ASTM D1056, Type 2 Al , and shall have a quality retention rating of not less than 70 percent when tested for weather resistance by ozone chamber exposure, Method B of ASTM D1171. Rubber O-ring gaskets shall be 13/16 inch in diameter for pipe diameters of 36 inches or smaller and 7/8 inch in diameter for larger pipe having 1/2 inch deep end corrugation. Rubber O-ring gaskets shall be 1-3/8 inches in diameter for pipe having 1 inch deep end corrugations. O-rings shall meet the requirements of ASTM C990 or ASTM C443. Preformed flexible joint sealants shall conform to ASTM C990, Type B. b. Connecting Bands: Connecting bands shall be of the type, size and sheet thickness of band, and the size of angles, bolts, rods and lugs as indicated or where not indicated as specified in the applicable standards or specifications for the pipe. Exterior rivet heads in the longitudinal seam under the connecting band shall be countersunk or the rivets shall be omitted and the seam welded. Watertight joints shall be tested and shall meet the test requirements of paragraph HYDROSTATIC TEST ON WATERTIGHT JOINTS. 2.4.5.4 PVC Plastic Pipes Joints shall be solvent cement or elastomeric gasket type in accordance with the specification for the pipe and as recommended by the pipe manufacturer. 2.5 RESILIENT CONNECTORS Flexible, watertight connectors used for connecting pipe to manholes and inlets shall conform to ASTM C923. 2.6 EROSION CONTROL RIP RAP Provide non -erodible rock not exceeding 15 inches in its greatest dimension and choked with sufficient small rocks to provide a dense mass with a minimum thickness of as indicated. PART 3 EXECUTION 3.1 INSTALLATION OF PIPE CULVERTS, STORM DRAINS, AND DRAINAGE STRUCTURES Excavation of trenches, and for appurtenances and backfilling for culverts SECTION 33 40 00 Page 8 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 and storm drains, shall be in accordance with the applicable portions of Section 31 00 00 EARTHWORK, and the requirements specified below. 3.1.1 Trenching The width of trenches at any point below the top of the pipe shall be not greater than the outside diameter of the pipe plus 12 inches to permit satisfactory jointing and thorough tamping of the bedding material under and around the pipe. Sheeting and bracing, where required, shall be placed within the trench width as specified, without any overexcavation. Where trench widths are exceeded, redesign with a resultant increase in cost of stronger pipe or special installation procedures will be necessary. Cost of this redesign and increased cost of pipe or installation shall be borne by the Contractor without additional cost to the Government. 3.1.2 Removal of Rock Rock in either ledge or boulder formation shall be replaced with suitable materials to provide a compacted earth cushion having a thickness between unremoved rock and the pipe of at least 8 inches or 1/2 inch for each foot of fill over the top of the pipe, whichever is greater, but not more than three -fourths the nominal diameter of the pipe. Where bell -and -spigot pipe is used, the cushion shall be maintained under the bell as well as under the straight portion of the pipe. Rock excavation shall be as specified and defined in Section 31 00 00 EARTHWORK . 3.1.3 Removal of Unstable Material Where wet or otherwise unstable soil incapable of properly supporting the pipe, as determined by the Contracting Officer, is unexpectedly encountered in the bottom of a trench, such material shall be removed to the depth required and replaced to the proper grade with select granular material, compacted as provided in paragraph BACKFILLING. When removal of unstable material is due to the fault or neglect of the Contractor while performing shoring and sheeting, water removal, or other specified requirements, such removal and replacement shall be performed at no additional cost to the Government. 3.2 BEDDING The bedding surface for the pipe shall provide a firm foundation of uniform density throughout the entire length of the pipe. 3.2.1 Concrete Pipe Requirements When no bedding class is specified or detailed on the drawings, concrete pipe shall be bedded in granular material minimum 4 inch in depth in trenches with soil foundation. Depth of granular bedding in trenches with rock foundation shall be 1/2 inch in depth per foot of depth of fill, minimum depth of bedding shall be 8 inch up to maximum depth of 24 inches. The middle third of the granular bedding shall be loosely placed. Bell holes and depressions for joints shall be removed and formed so entire barrel of pipe is uniformly supported. The bell hole and depressions for the joints shall be not more than the length, depth, and width required for properly making the particular type of joint. 3.2.2 Plastic Pipe Bedding for PVC, PE, SRPE and PP pipe shall meet the requirements of SECTION 33 40 00 Page 9 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 ASTM D2321. Use Class IB or II material for bedding, haunching, and initial backfill. Use Class I, II, or III material for PP pipe bedding, haunching and initial backfill. 3.3 PLACING PIPE Each pipe shall be thoroughly examined before being laid; defective or damaged pipe shall not be used. Plastic pipe, excluding SRPE pipe shall be protected from exposure to direct sunlight prior to laying, if necessary to maintain adequate pipe stiffness and meet installation deflection requirements. Pipelines shall be laid to the grades and alignment indicated. Proper facilities shall be provided for lowering sections of pipe into trenches. Lifting lugs in vertically elongated pipe shall be placed in the same vertical plane as the major axis of the pipe. Pipe shall not be laid in water, and pipe shall not be laid when trench conditions or weather are unsuitable for such work. Diversion of drainage or dewatering of trenches during construction shall be provided as necessary. Deflection of installed flexible pipe shall not exceed the following limits: TYPE OF PIPE MAXIMUM ALLOWABLE DEFLECTION (percent) Plastic (PVC, PE, SRPE, and PP) 5 Note post installation requirements of paragraph DEFLECTION TESTING in PART 3 of this specification for all pipe products including deflection testing requirements for flexible pipe. 3.4 JOINTING 3.4.1 Concrete and Clay Pipe 3.4.1.1 Cement -Mortar Bell -and -Spigot Joint The first pipe shall be bedded to the established grade line, with the bell end placed upstream. The interior surface of the bell shall be thoroughly cleaned with a wet brush and the lower portion of the bell filled with mortar as required to bring inner surfaces of abutting pipes flush and even. The spigot end of each subsequent pipe shall be cleaned with a wet brush and uniformly matched into a bell so that sections are closely fitted. After each section is laid, the remainder of the joint shall be filled with mortar, and a bead shall be formed around the outside of the joint with sufficient additional mortar. If mortar is not sufficiently stiff to prevent appreciable slump before setting, the outside of the joint shall be wrapped or bandaged with cheesecloth to hold mortar in place. 3.4.1.2 Cement -Mortar Oakum Joint for Bell -and -Spigot Pipe A closely twisted gasket shall be made of jute or oakum of the diameter required to support the spigot end of the pipe at the proper grade and to make the joint concentric. Joint packing shall be in one piece of sufficient length to pass around the pipe and lap at top. This gasket SECTION 33 40 00 Page 10 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 shall be thoroughly saturated with neat cement grout. The bell of the pipe shall be thoroughly cleaned with a wet brush, and the gasket shall be laid in the bell for the lower third of the circumference and covered with mortar. The spigot of the pipe shall be thoroughly cleaned with a wet brush, inserted in the bell, and carefully driven home. A small amount of mortar shall be inserted in the annular space for the upper two-thirds of the circumference. The gasket shall be lapped at the top of the pipe and driven home in the annular space with a caulking tool. The remainder of the annular space shall be filled completely with mortar and beveled at an angle of approximately 45 degrees with the outside of the bell. If mortar is not sufficiently stiff to prevent appreciable slump before setting, the outside of the joint thus made shall be wrapped with cheesecloth. Placing of this type of joint shall be kept at least five joints behind laying operations. 3.4.1.3 Cement -Mortar Diaper Joint for Bell -and -Spigot Pipe The pipe shall be centered so that the annular space is uniform. The annular space shall be caulked with jute or oakum. Before caulking, the inside of the bell and the outside of the spigot shall be cleaned. a. Diaper Bands: Diaper bands shall consist of heavy cloth fabric to hold grout in place at joints and shall be cut in lengths that extend one -eighth of the circumference of pipe above the spring line on one side of the pipe and up to the spring line on the other side of the pipe. Longitudinal edges of fabric bands shall be rolled and stitched around two pieces of wire. Width of fabric bands shall be such that after fabric has been securely stitched around both edges on wires, the wires will be uniformly spaced not less than 8 inches apart. Wires shall be cut into lengths to pass around pipe with sufficient extra length for the ends to be twisted at top of pipe to hold the band securely in place; bands shall be accurately centered around lower portion of joint. b. Grout: Grout shall be poured between band and pipe from the high side of band only, until grout rises to the top of band at the spring line of pipe, or as nearly so as possible, on the opposite side of pipe, to ensure a thorough sealing of joint around the portion of pipe covered by the band. Silt, slush, water, or polluted mortar grout forced up on the lower side shall be forced out by pouring, and removed. C. Remainder of Joint: The remaining unfilled upper portion of the joint shall be filled with mortar and a bead formed around the outside of this upper portion of the joint with a sufficient amount of additional mortar. The diaper shall be left in place. Placing of this type of joint shall be kept at least five joints behind actual laying of pipe. No backfilling around joints shall be done until joints have been fully inspected and approved. 3.4.1.4 Cement -Mortar Tongue -and -Groove Joint The first pipe shall be bedded carefully to the established grade line with the groove upstream. A shallow excavation shall be made underneath the pipe at the joint and filled with mortar to provide a bed for the pipe. The grooved end of the first pipe shall be thoroughly cleaned with a wet brush, and a layer of soft mortar applied to the lower half of the groove. The tongue of the second pipe shall be cleaned with a wet brush; while in horizontal position, a layer of soft mortar shall be applied to the upper half of the tongue. The tongue end of the second pipe shall be inserted in SECTION 33 40 00 Page 11 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 the grooved end of the first pipe until mortar is squeezed out on interior and exterior surfaces. Sufficient mortar shall be used to fill the joint completely and to form a bead on the outside. 3.4.1.5 Cement -Mortar Diaper Joint for Tongue -and -Groove Pipe The joint shall be of the type described for cement -mortar tongue -and -groove joint in this paragraph, except that the shallow excavation directly beneath the joint shall not be filled with mortar until after a gauze or cheesecloth band dipped in cement mortar has been wrapped around the outside of the joint. The cement -mortar bead at the joint shall be at least 1/2 inch, thick and the width of the diaper band shall be at least 8 inches. The diaper shall be left in place. Placing of this type of joint shall be kept at least five joints behind the actual laying of the pipe. Backfilling around the joints shall not be done until the joints have been fully inspected and approved. 3.4.1.6 Plastic Sealing Compound Joints for Tongue -and -Grooved Pipe Sealing compounds shall follow the recommendation of the particular manufacturer in regard to special installation requirements. Surfaces to receive lubricants, primers, or adhesives shall be dry and clean. Sealing compounds shall be affixed to the pipe not more than 3 hours prior to installation of the pipe, and shall be protected from the sun, blowing dust, and other deleterious agents at all times. Sealing compounds shall be inspected before installation of the pipe, and any loose or improperly affixed sealing compound shall be removed and replaced. The pipe shall be aligned with the previously installed pipe, and the joint pulled together. If, while making the joint with mastic -type sealant, a slight protrusion of the material is not visible along the entire inner and outer circumference of the joint when the joint is pulled up, the pipe shall be removed and the joint remade. After the joint is made, all inner protrusions shall be cut off flush with the inner surface of the pipe. If non -mastic -type sealant material is used, the "Squeeze -Out" requirement above will be waived. 3.4.1.7 Flexible Watertight Joints Gaskets and jointing materials shall be as recommended by the particular manufacturer in regard to use of lubricants, cements, adhesives, and other special installation requirements. Surfaces to receive lubricants, cements, or adhesives shall be clean and dry. Gaskets and jointing materials shall be affixed to the pipe not more than 24 hours prior to the installation of the pipe, and shall be protected from the sun, blowing dust, and other deleterious agents at all times. Gaskets and jointing materials shall be inspected before installing the pipe; any loose or improperly affixed gaskets and jointing materials shall be removed and replaced. The pipe shall be aligned with the previously installed pipe, and the joint pushed home. If, while the joint is being made the gasket becomes visibly dislocated the pipe shall be removed and the joint remade. 3.4.1.8 External Sealing Band Joint for Noncircular Pipe Surfaces to receive sealing bands shall be dry and clean. Bands shall be installed in accordance with manufacturer's recommendations. SECTION 33 40 00 Page 12 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.5 DRAINAGE STRUCTURES 3.5.1 Manholes and Inlets Construction shall be of reinforced concrete, plain concrete, brick, precast reinforced concrete, precast concrete segmental blocks, prefabricated corrugated metal, or bituminous coated corrugated metal; complete with frames and covers or gratings; and with fixed galvanized steel ladders where indicated. Pipe studs and junction chambers of prefabricated corrugated metal manholes shall be fully bituminous -coated and paved when the connecting branch lines are so treated. Pipe connections to concrete manholes and inlets shall be made with flexible, watertight connectors. 3.5.2 Walls and Headwalls Construction shall be as indicated. 3.6 BACKFILLING 3.6.1 Backfilling Pipe in Trenches After the pipe has been properly bedded, selected material from excavation or borrow, at a moisture content that will facilitate compaction, shall be placed along both sides of pipe in layers not exceeding 6 inches in compacted depth. The backfill shall be brought up evenly on both sides of pipe for the full length of pipe. The fill shall be thoroughly compacted under the haunches of the pipe. Each layer shall be thoroughly compacted with mechanical tampers or rammers. This method of filling and compacting shall continue until the fill has reached an elevation equal to the midpoint (spring line) of concrete pipe or has reached an elevation of at least 12 inches above the top of the pipe for flexible pipe. The remainder of the trench shall be backfilled and compacted by spreading and rolling or compacted by mechanical rammers or tampers in layers not exceeding 6 inches. Tests for density shall be made as necessary to ensure conformance to the compaction requirements specified below. Where it is necessary, in the opinion of the Contracting Officer, that sheeting or portions of bracing used be left in place, the contract will be adjusted accordingly. Untreated sheeting shall not be left in place beneath structures or pavements. 3.6.2 Backfilling Pipe in Fill Sections For pipe placed in fill sections, backfill material and the placement and compaction procedures shall be as specified below. The fill material shall be uniformly spread in layers longitudinally on both sides of the pipe, not exceeding 6 inches in compacted depth, and shall be compacted by rolling parallel with pipe or by mechanical tamping or ramming. Prior to commencing normal filling operations, the crown width of the fill at a height of 12 inches above the top of the pipe shall extend a distance of not less than twice the outside pipe diameter on each side of the pipe or 12 feet, whichever is less. After the backfill has reached at least 12 inches above the top of the pipe, the remainder of the fill shall be placed and thoroughly compacted in layers not exceeding 6 inches. Use select granular material for this entire region of backfill for flexible pipe installations. SECTION 33 40 00 Page 13 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.6.3 Movement of Construction Machinery When compacting by rolling or operating heavy equipment parallel with the pipe, displacement of or injury to the pipe shall be avoided. Movement of construction machinery over a culvert or storm drain at any stage of construction shall be at the Contractor's risk. Any damaged pipe shall be repaired or replaced. 3.6.4 Compaction 3.6.4.1 General Requirements Cohesionless materials include gravels, gravel -sand mixtures, sands, and gravelly sands. Cohesive materials include clayey and silty gravels, gravel -silt mixtures, clayey and silty sands, sand -clay mixtures, clays, silts, and very fine sands. When results of compaction tests for moisture -density relations are recorded on graphs, cohesionless soils will show straight lines or reverse -shaped moisture -density curves, and cohesive soils will show normal moisture -density curves. 3.6.4.2 Minimum Density Backfill over and around the pipe and backfill around and adjacent to drainage structures shall be compacted at the approved moisture content to the following applicable minimum density, which will be determined as specified below. a. Under airfield and heliport pavements, paved roads, streets, parking areas, and similar -use pavements including adjacent shoulder areas, the density shall be not less than 90 percent of maximum density for cohesive material and 95 percent of maximum density for cohesionless material, up to the elevation where requirements for pavement subgrade materials and compaction shall control. b. Under unpaved or turfed traffic areas, density shall not be less than 90 percent of maximum density for cohesive material and 95 percent of maximum density for cohesionless material. C. Under nontraffic areas, density shall be not less than that of the surrounding material. 3.7 FIELD PAINTING 3.7.1 Cast -Iron Covers, Frames, Gratings, And Steps After installation, clean cast-iron, not buried in masonry or concrete, of mortar, rust, grease, dirt, and other deleterious materials to bare metal and apply a coat of bituminous paint. 3.8 FIELD QUALITY CONTROL 3.8.1 Tests Testing is the responsibility of the Contractor. Perform all testing and retesting at no additional cost to the Government. SECTION 33 40 00 Page 14 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.8.1.1 HYDROSTATIC TEST ON WATERTIGHT JOINTS Watertight joints shall be tested and shall meet test requirements of paragraph HYDROSTATIC TEST ON WATERTIGHT JOINTS. Rubber gaskets shall comply with the oil resistant gasket requirements of ASTM C443. Certified copies of test results shall be delivered to the Contracting Officer before gaskets or jointing materials are installed. 3.8.1.1.1 Concrete, Clay, PVC, PE, SRPE and PP Pipe A hydrostatic test shall be made on the watertight joint types as proposed. Only one sample joint of each type needs testing; however, if the sample joint fails because of faulty design or workmanship, an additional sample joint may be tested. During the test period, gaskets or other jointing material shall be protected from extreme temperatures which might adversely affect the performance of such materials. Performance requirements for joints in reinforced and nonreinforced concrete pipe shall conform to ASTM C990 or ASTM C443. Test requirements for joints in clay pipe shall conform to ASTM C425. Test requirements for joints in PVC, PE, and PP plastic pipe shall conform to ASTM D3212. 3.8.1.1.2 Corrugated Steel and Aluminum Pipe A hydrostatic test shall be made on the watertight joint system or coupling band type proposed. The moment strength required of the joint is expressed as 15 percent of the calculated moment capacity of the pipe on a transverse section remote from the joint by the AASHTO HB-17 (Division II, Section 26). The pipe shall be supported for the hydrostatic test with the joint located at the point which develops 15 percent of the moment capacity of the pipe based on the allowable span in feet for the pipe flowing full or 40,000 foot-pounds, whichever is less. Performance requirements shall be met at an internal hydrostatic pressure of 10 psi, for a 10 minute period for both annular corrugated steel and aluminum pipe and helical corrugated steel and aluminum pipe with factory reformed ends. 3.8.1.2 Determination of Density Testing shall be performed by an approved commercial testing laboratory or by the Contractor subject to approval. Tests shall be performed in sufficient number to ensure that specified density is being obtained. Laboratory tests for moisture -density relations shall be made in accordance with ASTM D1557 except that mechanical tampers may be used provided the results are correlated with those obtained with the specified hand tamper. Field density tests shall be determined in accordance with ASTM D2167 or ASTM D6938. When ASTM D6938 is used, the calibration curves shall be checked and adjusted, if necessary, using the sand cone method as described in paragraph Calibration of the referenced publications. ASTM D6938 results in a wet unit weight of soil and ASTM D6938 shall be used to determine the moisture content of the soil. The calibration curves furnished with the moisture gauges shall be checked along with density calibration checks as described in ASTM D6938. Test results shall be furnished the Contracting Officer. The calibration checks of both the density and moisture gauges shall be made at the beginning of a job on each different type of material encountered and at intervals as directed. SECTION 33 40 00 Page 15 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.8.2 Inspection 3.8.2.1 Post -Installation Inspection Visually inspect each segment of concrete pipe for alignment, settlement, joint separations, soil migration through the joint, cracks, buckling, bulging and deflection. An engineer must evaluate all defects to determine if any remediation or repair is required. 3.8.2.1.1 Concrete Cracks with a width greater than 0.01 inches. An engineer must evaluate all pipes with cracks with a width greater than 0.01 inches but less than 0.10 inches to determine if any remediation or repair is required. 3.8.2.1.2 Flexible Pipe Check each flexible pipe (PE, PVC, PP, Corregated Steel And Aluminum) for rips, tears, joint separations, soil migration through the joint, cracks, localized bucking, bulges, settlement and alignment. 3.8.2.1.3 Post -Installation Inspection Report The deflection results and final post installation inspection report must include: pipe location identification, equipment used for inspection, inspector name, deviation from design, grade, deviation from line, deflection and deformation of flexible pipe, inspector notes, condition of joints, condition of pipe wall (e.g. distress, cracking, wall damage dents, bulges, creases, tears, holes, etc.). 3.8.3 Repair Of Defects 3.8.3.1 Leakage Test When leakage exceeds the maximum amount specified, correct source of excess leakage by replacing damaged pipe and gaskets and retest. 3.8.3.2 Deflection Testing When deflection readings are in excess of the allowable deflection of average inside diameter of pipe are obtained, remove pipe which has excessive deflection and replace with new pipe. Retest 30 days after completing backfill, leakage testing and compaction testing. 3.8.3.3 Inspection Replace pipe or repair defects indicated in the Post -Installation Inspection Report. 3.8.3.3.1 Concrete Replace pipes having cracks with a width greater than 0.1 inches. 3.8.3.3.2 Flexible Pipe Replace pipes having cracks or splits. SECTION 33 40 00 Page 16 SOF Battalion Administration Facility Fort Bragg, North Carolina 3.9 PROTECTION PN63850 W912PM-18-C-0015 Protect storm drainage piping and adjacent areas from superimposed and external loads during construction. 3.10 WARRANTY PERIOD Pipe segments found to have defects during the warranty period must be replaced with new pipe and retested. -- End of Section -- SECTION 33 40 00 Page 17 This Page Intentionally Left Blank SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION TABLE OF CONTENTS DIVISION 33 - UTILITIES SECTION 33 46 16 SUBDRAINAGE PIPING 05/18 PN63850 W912PM-18-C-0015 subdrainage systems for drainage of water from under the ground PART 1 GENERAL 1.1 REFERENCES 1.2 DELIVERY, STORAGE, AND HANDLING 1.2.1 Delivery and Storage 1.2.2 Handling PART 2 PRODUCTS 2.1 PIPE FOR SUBDRAINS 2.1.1 Plastic 2.1.1.1 Polyvinyl Chloride (PVC) and Fittings 2.1.1.2 Pipe Perforations 2.1.1.2.1 Circular Perforations in Plastic Pipe 2.2 GEOTEXTILE 2.3 SUBDRAIN FILTER AND BEDDING MATERIAL 2.4 DRAINAGE STRUCTURES 2.4.1 Concrete 2.4.2 Mortar 2.4.3 Manholes and Appurtenances 2.4.3.1 Precast Reinforced Concrete Manhole Risers and Tops 2.4.3.2 Frames and Covers or Gratings PART 3 EXECUTION 3.1 EXCAVATION AND BEDDING FOR SUBDRAIN SYSTEMS 3.2 MANHOLES AND FLUSHING AND OBSERVATION RISERS 3.2.1 Manholes 3.3 INSTALLATION OF GEOTEXTILE AND PIPE FOR SUBDRAINS 3.3.1 Installation of Geotextile 3.3.1.1 Trench Lining and Overlaps 3.3.2 Installation of Pipe for Subdrains 3.3.2.1 Pipelaying 3.4 INSTALLATION OF DRAINAGE LAYER MATERIAL AND BACKFILLING FOR PERFORATED SUBDRAINS 3.5 INSTALLATION OF BEDDING AND BACKFILL FOR NON -PERFORATED SUBRAIN OUTFALL PIPE 3.5.1 Plastic Pipe 3.5.2 Corrugated Metal Pipe 3.6 INSTALLATION OF AND BACKFILLING FOR BLIND OR FRENCH DRAINS -- End of Section Table of Contents -- SECTION 33 46 16 Page 1 SOF Battalion Administration Facility Fort Bragg, North Carolina SECTION 33 46 16 SUBDRAINAGE PIPING 05/18 PART 1 GENERAL 1.1 REFERENCES PN63850 W912PM-18-C-0015 The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only. ASTM INTERNATIONAL (ASTM) ASTM A27/A27M (2017) Standard Specification for Steel Castings, Carbon, for General Application ASTM A47/A47M (1999; R 2014) Standard Specification for Ferritic Malleable Iron Castings ASTM A48/A48M (2003; R 2012) Standard Specification for Gray Iron Castings ASTM A798/A798M (2017) Standard Practice for Installing Factory -Made Corrugated Steel Pipe for Sewers and Other Applications ASTM C136/C136M (2014) Standard Test Method for Sieve Analysis of Fine and Coarse Aggregates ASTM C33/C33M (2018) Standard Specification for Concrete Aggregates ASTM C478 (2018) Standard Specification for Circular Precast Reinforced Concrete Manhole Sections ASTM D2321 (2018) Standard Practice for Underground Installation of Thermoplastic Pipe for Sewers and Other Gravity -Flow Applications ASTM D2487 (2017) Standard Practice for Classification of Soils for Engineering Purposes (Unified Soil Classification System) ASTM D3034 (2016) Standard Specification for Type PSM Poly(Vinyl Chloride) (PVC) Sewer Pipe and Fittings ASTM D4632/D4632M (2015a) Grab Breaking Load and Elongation of Geotextiles ASTM F758 (2014) Smooth -Wall Poly(Vinyl Chloride) (PVC) Plastic Underdrain Systems for SECTION 33 46 16 Page 2 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 Highway, Airport, and Similar Drainage ASTM F949 (2015) Poly(inyl Chloride) (PVC) Corrugated Sewer Pipe with a Smooth Interior and Fittings 1.2 DELIVERY, STORAGE, AND HANDLING 1.2.1 Delivery and Storage Inspect materials delivered to site for damage; unload, and store with minimum handling. Do not store materials directly on the ground. Keep the inside of pipes and fittings sfree of dirt and debris. Keep, during shipment and storage, geotextile wrapped in burlap or similar heavy duty protective covering. Protect the geotextile from mud, soil, dust, and debris. Do not store geotextile materials in direct sunlight. Install plastic pipe within 6 months from the date of manufacture unless otherwise approved. 1.2.2 Handling Handle materials in such a manner as to ensure delivery to the trench in sound undamaged condition. Carry pipe to the trench. PART 2 PRODUCTS 2.1 PIPE FOR SUBDRAINS Submit samples of pipe and pipe fittings, before starting the work. Provide type and sizes of subdrain pipe indicated. Submit certifications from the manufacturers attesting that materials meet specification requirements. Certificates are required for drain pipe and fittings. 2.1.1 Plastic Provide plastic pipe containing ultraviolet inhibitor to provide protection from exposure to direct sunlight. Provide pipe with with bell and spigot or solvent cement joints. Provide manufacturer's standard type fittings conforming to the indicated specification. 2.1.1.1 Polyvinyl Chloride (PVC) and Fittings ASTM D3034, ASTM F949 or ASTM F758, Type PS 46. 2.1.1.2 Pipe Perforations Provide pipe perforations with a minimum water inlet area of 0.5 square inch per linear foot and as specified below. 2.1.1.2.1 Circular Perforations in Plastic Pipe Cleanly cut circular holes not more than 3/8 inch or less than 3/16 inch in diameter and arrange in rows parallel to the longitudinal axis of the pipe. Provide pipe with perforations spaced uniformly along rows. Unless otherwise recommended by the pipe manufacturer, provide pipe with rows approximately 1-1/2 inches apart and arranged in a staggered pattern so that all perforations lie at the midpoint between perforations in adjacent rows. Space the rows over not more than 155 degrees of circumference. Provide pipe that is not perforated for a length equal to the depth of the SECTION 33 46 16 Page 3 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 socket at the spigot or tongue end and provide perforations that continue at uniform spacing over the entire length of the pipe. 2.2 GEOTEXTILE Provide geotextile that is a nonwoven pervious sheet of polymeric material consisting of long -chain synthetic polymers composed of at least 95 percent by weight polypropylene (PP) or polyester (PET). The use of woven slit film geotextiles (i.e. geotextiles made from yarns of a flat, tape -like character) will not be allowed. Add stabilizers and/or inhibitors to the base polymer, as needed, to make the filaments resistant to deterioration by ultraviolet light, oxidation, and heat exposure. The equivalent opening size (AOS) will be no finer than US Standard Sieve No. 200 and no coarser than US Standard Sieve No. 4. AOS is defined as the number of the US Standard sieve having openings closest in size to the filter fabric openings. The minimum grab strength will be 160 pounds in accordance with ASTM D4632/D4632M. Provide geotextile with filaments constructed so as to retain their relative position with respect to each other. Selvage or otherwise finish the edges of the geotextile to prevent the outer material from pulling away from the fabric. Submit samples of geotextile and certifications from the manufacturers attesting that geotextile meets specification requirements. 2.3 SUBDRAIN FILTER AND BEDDING MATERIAL Provide subdrain filter and bedding material composed of washed sand, sand and gravel, crushed stone, crushed stone screenings, or slag composed of hard, tough, durable particles free from adherent coatings. Filter material may not contain corrosive agents, organic matter, or soft, friable, thin, or elongated particles. Provide filter material that is evenly graded between the limits specified in TABLE I. Gradation curves will exhibit no abrupt changes in slope denoting skip or gap grading. Provide filter materials that are clean and free from soil and foreign materials. Remove and replace filter blankets found to be dirty or otherwise contaminated with material meeting the specific requirements, at no additional cost to the Government. TABLE I Type I Gradation E 11 ASTM C33/C33M Type II Gradation 57 ASTM C33/C33M Type III Gradation ASTM C136/C136M Sieve Size Percent Passing Percent Passing Percent Passing 1-1/2 inch -- 100 1 inch -- 90 - 100 3/8 inch 100 25 - 60 No. 4 95 - 100 5 - 40 No. 8 -- 0 - 20 SECTION 33 46 16 Page 4 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 TABLE I Type I Gradation E 11 ASTM C33/C33M Type II Gradation 57 ASTM C33/C33M Type III Gradation ASTM C136/C136M Sieve Size Percent Passing Percent Passing Percent Passing No. 16 45 - 80 No. 50 10 - 30 No. 100 0 - 10 -- 2.4 DRAINAGE STRUCTURES 2.4.1 Concrete Provide concrete and reinforced concrete conforming to the requirements for 3,000 psi concrete . 2.4.2 Mortar Provide mortar for connections to drainage structures that is composed of one part by volume of portland cement and two parts of sand. Provide sufficient quantity of water in the mixture to produce a stiff workable mortar. Use water that is clean and free of injurious acids, alkalies, and organic impurities. Use the mortar within 30 minutes from the time the ingredients are mixed with water. 2.4.3 Manholes and Appurtenances 2.4.3.1 Precast Reinforced Concrete Manhole Risers and Tops ASTM C478. 2.4.3.2 Frames and Covers or Gratings Except as otherwise permitted, provide frames and gratings, or frames and covers of either cast iron with tensile strength test not less than ASTM A48/A48M Class 25 or steel conforming to ASTM A27/A27M, Class 65-35. Required weight, shape, and size are indicated on the drawings. Frames and covers not subjected to vehicular traffic or storage may be of malleable iron where indicated. Provide malleable -iron frames and covers conforming to ASTM A47/A47M and of the weight, shape, and size indicated. PART 3 EXECUTION 3.1 EXCAVATION AND BEDDING FOR SUBDRAIN SYSTEMS Excavate trenches, including the removal of rock and unstable material, in accordance with Section 31 00 00 EARTHWORK . Bedding material shall be placed in the trench as indicated or as required as replacement materials used in those areas where unstable materials were removed. Compaction of the bedding material shall be as specified for cohesionless material in Section 31 00 00 EARTHWORK. SECTION 33 46 16 Page 5 SOF Battalion Administration Facility PN63850 Fort Bragg, North Carolina W912PM-18-C-0015 3.2 MANHOLES AND FLUSHING AND OBSERVATION RISERS 3.2.1 Manholes Install manholes complete with frames and covers or gratings at the locations and within the limits and sizes indicated. Construct manholes of one of the materials specified for manholes in paragraph DRAINAGE STRUCTURES. Use either precast or cast -in -place concrete manhole bases. 3.3 INSTALLATION OF GEOTEXTILE AND PIPE FOR SUBDRAINS 3.3.1 Installation of Geotextile 3.3.1.1 Trench Lining and Overlaps Grade trenches to be lined with geotextile to obtain smooth side and bottom surfaces so that the geotextile will not bridge cavities in the soil or be damaged by projecting rock. Lay the geotextile flat but not stretched on the soil, and secure it with anchor pins in accordance with manufacturer's instructions. Overlap at least 6 to 12 inches, and secure with anchor pins along the overlaps. 3.3.2 Installation of Pipe for Subdrains 3.3.2.1 Pipelaying Install pipe in accordance with the manufacturer's recommendations. Thoroughly examine each section of pipe before being laid; do not use defective or damaged pipe. Do not lay pipe when the trench conditions or weather is unsuitable for such work. Remove water from trenches by sump pumping or other approved methods. Lay the pipe to the grades and alignment as indicated. Bed the pipe to the established gradeline. Center perforations on the bottom of the pipe. Lay bell -and -spigot type with the bell ends upstream. Approval of all in -place pipes by the Contracting Officer is required prior to backfilling. 3.4 INSTALLATION OF DRAINAGE LAYER MATERIAL AND BACKFILLING FOR PERFORATED SUBDRAINS After perforated pipe for subdrains has been laid, inspected, and approved, place drainage layer material around and over the pipe to the depth indicated. Place the drainage layer material in layers not to exceed 8 inches thick. 3.5 INSTALLATION OF BEDDING AND BACKFILL FOR NON -PERFORATED SUBRAIN OUTFALL PIPE 3.5.1 Plastic Pipe Place and compact pipe embedment for plastic pipe in accordance with ASTM D2321. Use Class IB or II embedment materials. 3.5.2 Corrugated Metal Pipe Place and compact bedding ans structural backfill for corrugated metal pipe in accordance with ASTM A798/A798M. Use structural backfill materials classified by ASTM D2487 as either GW, GM, GP -GM, GW-GM, GC, GP -GC or SW. SECTION 33 46 16 Page 6 SOF Battalion Administration Facility Fort Bragg, North Carolina PN63850 W912PM-18-C-0015 3.6 INSTALLATION OF AND BACKFILLING FOR BLIND OR FRENCH DRAINS Place filter material as indicated and compact as specified for cohesionless materials in Section 31 00 00 EARTHWORK . Extend filter material to a suitable outlet or to an outlet through a pipeline as indicated. Place and compact overlying backfill material as specified in Section 31 00 00 EARTHWORK . -- End of Section -- SECTION 33 46 16 Page 7