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Home My WebLink AboutSW3170503_HISTORICAL FILE_20170725STORMWATER DIVISION CODING SHEET POST -CONSTRUCTION PERMITS PERMIT NO. I SW DOC TYPE 1 ❑ CURRENT PERMIT ❑ APPROVED PLANS HISTORICAL FILE ❑ COMPLIANCE EVALUATION INSPECTION DOC DATE YYYYMMDD SW3170503 — Afton Ridge Industrial — Response to Comments June 9, 2017 Page 1 REC iVE'D Robert D. Patterson, PE Environmental Engineer DEMLR— StormwaterProgram North Carolina Department of Environmental Quality DEAjf? Re: 4386.04 - Afton Ridge Industrial - Response Lette to 1P,.,NEDEQ,Stormwater Review - SW3170503 p e., p7,p 4e ion�r n�a Dear Mr. Patterson, This letter is our response to the comments dated May 23, 2017 for the above referenced project. Please see the comments below followed by our response in bold print. ,,1 Revise the supplement to reflect the plans that the internal pond side slopes are 3:1, not 2:1. The supplement has been revised and is enclosed, as requested. v2 Revise C-910, OCS-EC-3 section view to show 2:1 for the outer slope to be consistent with the plan view. The detail has been revised as requested. .6. Provide and label a SCM access easement to the nearest public right-of-way [General MDC 9]. Since there is not a site or grading plan sheet, please show this on the post- construction drainage plan sheet. The required easement has been included in the plan sheets when relevant, including on the post -development map, as requested. Please note that the access easement has been dedicated to a proposed Right - of -Way that will dedicated prior to the conversion of the BMP from its erosion control to final stage. r4. Provide supporting calculations to demonstrate that the two forebays sum to 15-20% of the main pool volume [MDC 51. The staged storage elevations table of the calculations sheet has been revised to include the storage volume of the forebays separately from the total BMP, as requested. A copy of this sheet has been included separately for quick reference. 5/ Provide a trash rack on the riser [MDC 10]. As discussed in our e-mail correspondence on May 2, 2017, we concluded that the slab top outlet control structure will serve as an acceptable alternative to the standard trash rack. -6. Provide a site specific SCM planting plan. List the species, and show where on the shelf each species should be planted [MDC 11]. A site specific planting plan has been included as part of the BMP detail, P:\SDSKPROJ\E386\Submittals\2017\0605 - NCDED - Stormwater - 2nd SubmittaRDo oments\4386 - Afton Ridge Industrial - SW 3170503 - R,,.nse to Comments - 06.07.17.docx SW3170503 — Afton Ridge Industrial — Response to Comments June 9, 2017 Page 2 Sheet C-910, as requested. 7. Please note that a permit modification will be required for the future phases of the project. Response noted. Please let us know if you have any questions or require any further clarifications on the enclosed submittal. Best Regards, Nicholas Vesely, El COLEJENEST & STONE, P.A. sac cc: Mr. Jon Wilson —CK Mr. Landon Wyatt, III - CK Mr. Joel Causey, PE, LEED Green Associate — CJS P:\SDSKPROA4366\Submittals\2017\0605 - NCDED - Stormwater - Pnd Submittal\Documents\4366 - Alton Ridge Industrial - SW3170603 - Response to Comments - 06.07.17.docs ColeJenest & Stone Shaping the Environment Realizing the Possibilities Land Planning Landscape Architecture Civil Engineering F Urban Design 200 South Tryon Street, Suite 1400 Charlotte, NC 28202 Charlotte p+704 376 1555 f+704 376 7851 url+ www.colejenestst p qRaleigh +m, d FY �6.l�, JUL 2 i7017 LandEA1r?,DEAILR TRANSMITTAL Date: June 21, 2017 Mooresville R Quity eelo,aajtori Reference: 4386.04 — Afton Ridge Industrial — Stormwater Management Permit Review — 2nd Submittal Attention: Mr. Robert D. Patterson, PE Company: North Carolina Department of Environmental Tel: 919-807-6369 Quality — Water Resources 512 North Salisbury Street Raleigh, North Carolina 27699-1619 Stormwater Proaram We Are Transmitting: ® Herewith ❑ Under Separate Cover Copies Dated Description 1 06/20/17 Response Letter to Comments Dated May 23, 2017 2 06/20/17 Supplement EZ-20170329-DEMLR-SW Form 2 06/09/17 Project Construction Documents 2 05/21/17 Project Calculations 1 05/11/17 Revised Staged Storage Calculation Sheet Transmitted ® Mail ❑ Overnight ❑ Courier ❑ Hand Delivery ❑ Pick -Up Via: ❑ For Approval ❑ For Your Use ❑ As Requested ® For Review Remarks: Please find the attached documents for the Stormwater Management Permit Application review. Please call with any questions. Thank you, By: Nicholas T. Vesely, El cc: Mr. Landon Wyatt, III - CK Mr. Jon Wilson — CK Mr. Joel C. Causey, PE, LEED AP — CJS P:1S0SKPR0J\43S6\_Correspondencest201 7Bens\062117t Afton Ridge Industral-2nd Stormwater Submittal_ Patterson, R_NCOEO.doc Energy, Mineral & Land Resources ENVIRONMENTAL QUALITY May 23, 2017 Mr. Joel Causey, PE ColeJenest & Stone, PA 200 South Tryon St., Ste. 1400 Charlotte, NC 28202 Subject: Request for Additional Information Stormwater Permit No. SW3170503 Afton Ridge Industrial Cabarrus County Dear Mr. Causey: ROY COOPER Governor MICHAEL S. REGAN SecrrWry TRACY DAVIS Director The Division of Energy, Mineral and Land Resources (DEMLR), received a Stormwater Management Permit Application for the subject project on May 11, 2017. A preliminary review of that information has determined that the application is not complete. The following information is needed to continue the stormwater review: 1. Revise the supplement to reflect the plans that the internal pond side slopes are 3:1, not 2:1. 2. Revise C-910, OCS-EC-3 section view to show 2:1 for the outer slope to be consistent with the plan view. 3. Provide and label a SCM access easement to the nearest public right-of-way [General MDC 9]. Since there is not a site or grading plan sheet, please show this on the post - construction drainage plan sheet. 4. Provide supporting calculations to demonstrate that the two forebays sum to 15-20% of the main pool volume [MDC 5]. 5. Provide a trash rack on the riser [MDC 10]. 6. Provide a site specific SCM planting plan. List the species, and show where on the shelf each species should be planted [MDC 11 ]. 7. Please note that a permit modification will be required for the future phases of the project. Nothing Compares.._ SState of North Carolina I Environmental Quality I Energy. Mineral and Land Resources 512 N. Salisbury Street 11612 Mail Service Center I Raleigh. North Carolina 27699-1612 919 707 9200 Please note that this request for additional information is in response to a preliminary review. The requested information should be received by this Office prior to June 23, 2017, or the application will be returned as incomplete. The return of a project will necessitate resubmittal of all required items, including the application fee. If you need additional time to submit the information, please submit your request for a time extension to the Division at the contact below. The request must indicate the date by which you expect to submit the required information. The Division is allowed 90 days from the receipt of a completed application to issue the permit. The construction of any impervious surfaces, other than a construction entrance under an approved Sedimentation Erosion Control Plan, is a violation of NCGS 143-215.1 and is subject to enforcement action pursuant to NCGS 143-215.6A. Please reference the State assigned project number SW3170503 on all correspondence. If you have any questions concerning this matter please feel free to contact me at Robert. Pattersonna,ncdenr.gov or (919) 807-6369. Sincerely, v 7.� � Robert D. Patterson, PE Stormwater Engineer Stormwater Permitting Program ec: Mooresville Regional Office Sue Homewood — DWR 401 & Buffer Permitting Program Landon Wyatt, III — CK Afton Ridge Land,'LLC Nothing Compares State of North Carolina I Environmental Quality I Energy. Mineral and Land Resources 512N. Salisbury Street 11612 Mail Service Center I Ralelgh.North Carolina27699-1612 9197079200 COIeJenest & Stone Shaping the Environment Realizing the Possibilities zi RECF1VEn `AM! 9 20 17 DENR-LAND QUALITY STORMWATER PERMITTING 200 South Tryon Street, Suite 1400 Charlotte, NC 28202 Charlotte p+704 376 1555 f+704 376 7851 ud+ www.coIejeneststonn.com Raleigh TRANSMITTAL Date: May 17, 2017 Reference: 4386.04 — Afton Ridge Industrial — Stormwater Management Permit Review — 1at Submittal (Supplement Documents) Attention: Mr. Robert D. Patterson, PE Company: North Carolina Department of Environmental Tel: 919-807-6369 Quality — Water Resources 512 North Salisbury Street Raleigh, North Carolina 27699-1619 Stormwater Proaram We Are Transmitting: Land Planning Landscape Architecture Civil Engineering Urban Design RECEIVE® JUL 4 5 2017 DENR-DEMLR Land Q al'bJ JectiCTransmitted Mooresville. Regional ()ffir� via: Remarks: ® Herewith ❑ Under Separate Cover Copies Dated Description 1 05/11/17 Supplement Operations & Maintenance Agreement EZ 071414 Form 2 05/16/17 Supplement EZ-20170329-DEMLR-SW Form 2 - Revised Application Page 2 2 05/10/17 Revised Construction Documents Sheet C-422 Post -Development Drainage Area Ma S Mail ❑ Overnight ❑ Courier ❑ Hand Delivery ❑ Pick -Up ❑ For Approval ❑ For Your Use ❑ As Requested ® For Review Please find the attached documents for the Stormwater Management Permit Application review. Please call with any questions. Thank you, By: Nicholas T. sac cc: Mr. Landon Wyatt, III - CK Mr. Jon Wilson —CK Mr. Joel C. Causey, PE, LEED AP — CJS Mr. Jacob D. Bachman, RLA—CJS P1,SDSKPR0JW3e6\_ConespondencesU01AuanS%D517I71_Aron Ridge lndustnal Patterson, R._NCDEQeoc ColeJenest & Stone Shaping the Environment Realizing the Possibilities Land Planning Landscape Architecture Civil Engineering Urban Design 200 South Tryon Street, Suite 1400 Charlotte, NC 28202 Charlotte p+704 376 1555 f+704 376 7851 url+ www.col Y eom Raleigh JUL 2 017 DEIyR-DEfV R TRANSMITTAL Date: May 2, 2017 Land Qtlality Section Mooresville Regional ()ffinn Reference: 4386.04 —Afton Ridge Industrial — Stormwater Management Permit Review — 1 a Submittal Attention: Mr. Michael Randall Company: North Carolina Department of Environmental Tel: 919-807-6374 Quality — Water Resources 512 North Salisbury Street Raleigh, North Carolina 27699-1619 Stnrmwater Prnnrnm We Are Transmitting: ® Herewith ❑ Under Separate Cover Copies Dated Description 1 04/25/17 Permit Fee Check #:115299 2 04/26/17 Stormwater Management Permit Application Form 2 04/26/17 Wet Detention Basin O&M Agreement 1 04/24/17 USGS Site Ma 1 05/26/15 Jurisdictional Delineation Report 1 06/26/15 Soils Report and ESHWT Determination 2 PropertyEmperty Deed Information 1 12/62/16 1NCDOS Corporation Documentation 2 04/21 /17 1 Project Plan Set 1 04121 /17 1 Project Calculation Set Transmitted ® Mail ❑ Overnight ❑ Courier ❑ Hand Delivery ❑ Pick -Up Via: ❑ For Approval ❑ For Your Use ❑ As Requested ® For Review Remarks: Please find the attached documents for the Stormwater Management Permit Application review. Please call with any questions. Thank you,�� By: _V \" . Nicholas T. Ve sac cc: Mr. Landon Wyatt, III - CK Mr. Jon Wilson —CK Mr. Joel C. Causey, PE, LEED AP — CJS Mr. Jacob D. Bachman, RLA— CJS MAY 4 2017<, 16 C\UsemtrveselyWppDaWa Loral\MiaDs MWindMSs Temporary lnlemet FilesContend 0utook\F28UM2EZT502171 Afton Ridge Induslnal_Randall M _NCOEO.doc Preliminary Wetland and Stream Report ntz Road Site Cabarrus County, North Carolina (+/- 140 acres) Prepared for Childress Klein Properties 301 South College St, Ste 2800 Charlotte, NC 28202 May 26, 2015 9 %Y n Prepared By HUYSMAN & BANDY, INC. WETLAND AND ENVIRONMENTAL CONSULTANTS Sparta Office 170 Dew Drop Rd. Sparta, NC 28675 Summary and Map of Findings: H&B has conducted a preliminary wetland evaluation of the +/- 140 acre parcel located off of Untz Road in Cabarrus County. The site and findings are depicted on the attached Figures for the purpose of identifying the presence of surface waters and wetlands subject to federal and state jurisdiction and permitting requirements under Sections 404 and 401 of the Clean Water Act. The limits of assessed jurisdictional wetlands and streams as assessed within the evaluation area are depicted in Figure 1: Approximate Depiction of Waters and Wetlands. Assessments made by consultants regarding jurisdictional limits and permitting requirements are subject to verification by the US Army Corps of Engineers and, in some cases, the State agencies charged with protection of surface water resources. Public Sourced Natural Resource Mapping The approximate boundaries of the evaluated area are depicted on the attached public sourced maps and figures. The Army Corps of Engineers utilizes these mapping resources as base line information and data when initiating site reviews for jurisdictional determinations. H&B makes no representations relating to the accuracy of baseline data and layers depicted on these maps and figures. County GIS (Figure 2) Relevant water resource layers and hydrologic layers have been activated for this figure. Water resources depicted on this figure are not typically field verified but rather they are generated at the county's direction and are most likely based on other public sourced maps or by GIS staff photo -interpretation. USGS Topographical Map (Figure 3) Generally, a feature that is depicted in blue or magenta is a water resource. However, some of these features may not be jurisdictional resources due to complex nuances within the regulations. Additional jurisdictional water resources may be present though they are not be depicted on this mapping resource. Wetland and stream jurisdictional determinations are based on field evaluations not merely the presence or absence of blue or magenta features depicted on this map. Soil Survey (Figure 4) These maps generally depict large scale soils characteristics within the evaluated area; typically, the maps do not show specific soils units that are less than two acres in size. These maps were not intended to be used to define jurisdictional wetlands and streams but this information is useful to professionals familiar with soils types, hydric soils, and their characteristics, as well as locating historic surface drainage features. National Wetland Inventory (Figure 5) These maps depict wetlands based on US Fish and Wildlife Service criteria; they are not a substitute for a field evaluation. Field Evaluation The field evaluation was conducted utilizing current methodologies which are consistent with those outlined in the 1987 US Army Corps Wetland Delineation Manual, the Eastern Mountain and Piedmont Regional Delineation Supplement, post Roponos Supreme Court decision guidance (2007), and Regulatory Guidance Letters. All findings and assessments made by wetland consultants regarding limits of jurisdictional or permitting are subject to verification by the US Army Corps of Engineers and the SC Bureau of Water Resources. Upon review of the existing site conditions, it is our assessment that three jurisdictional perennial channels are within the bounds of the site (perennial — relatively permanent water) as depicted in Figure 1 with dark blue lines. These features, which are depicted on the USGS topographic map as well as the county GIS map, originate off site. Coddle Creek is located on the east side of the property. The other two smaller tributaries, also assessed to be a perennial- RPW's, are depicted in Figure 1. All other surface drainage features are assessed to be upland, non -aquatic features which are not subject to regulation. Numerous existing culverts are present on the site and they should be located during any field survey conducted for the site. Potential wetland areas on the site were evaluated for the presence of hydric soils and evidence of wetland hydrology and vegetation. In these areas, hydrologic proof would be the existence of hydric soils with oxidized root channels in the upper soil horizons that have low chroma matrix colors. Indicators of hydrology may include water borne deposits, drift lines, scour marks, the presence of crayfish burrows, or regional indicators of soil saturation. After careful assessment it was found four jurisdictional wetlands present on the site. We recommend that approval of our assessments regarding the limits of jurisdiction be verified by the Army Corps of Engineers. A formal Jurisdictional Determination request can be prepared and submitted to the Corps in order to secure written approval. Permitting Many construction activities within jurisdictional wetlands and stream channels (collectively referred to as Waters of the US) require written authorization by the US Army Corps of Engineers and/or State water resources agencies prior to impacts. Permitting in North Carolina Impacts of 150 linear feet and less to the identified streams and fills of less than 1/101" acre of jurisdictional waters and wetlands are relatively routine to permit and the Nationwide Permit program, and may not require compensatory mitigation for impacts. Impacts to 150 linear feet of stream up to 300 linear feet of stream and from 1/101h to %: acre of wetland may be authorized under the Nationwide Program, but a more thorough review for avoidance and minimization of impacts will be conducted by both the Army Corps of Engineers and the NC Division of Water Resources, and compensatory mitigation will be required for stream and wetland losses. Unavoidable impacts that exceed these thresholds may only be authorized under an Individual permit and certification, and involve both public notices and comment periods. Once an acceptable site plan is produced, we can assist with the preparation and submittal of a Pre -construction Notification (permit application) to the Corps and DWR if it is determined that impacts are unavoidable. The Corps will review the application for eligibility under the Nationwide Permit program which includes a review for impacts to cultural and historic resources, natural heritage resources, and threatened and endangered species. Upon their determination that the proposed development is not likely to adversely impact those resources, they will issue a permit verification. DWR will review the application for impacts to water quality and aquatic life. Storm water controls and treatment design will be reviewed by the local delegated authority. If no local delegation has been approved by the DENR, a review of the storm water management plan by the DWR storm water branch may be necessary prior to issuance of a water quality certification. The following links to the full text of Nationwide Permit 29 and its Water Quality certification (for residential developments) are provided for your review: hh,» p://www.usace.army.miI/Missions/CivilWorks/ReguIatoryProgramandPermits/NationwidePe rmits.aspx http://Porta1.ncdenr.org/web/wq/swp/ws/40I/certsandpermits/gcs This concludes our initial field assessment and delineation of regulated Waters of the US and wetlands within the area of interest. Please let us know if you have questions or if we can be of further assistance. l erelny, aI1V1 4Wj--)' ns Huysman V bing Maps Afton Ridge Industrial Cabarrus County r 1'J Rai .i T ,n to mog m.bing.com I %.t51 52 52 kµd c HUYSMAN & BANDY, INC. WETLAND AND ENVIRONMENTAL CONSULTANT5 Tax PIN(s): Poplar Tent Site Cov MAI Q col 6Nr.maoh Co,pombr V :+� 2 2,715 Nokia 55 n Davidson Hwy ..I ue Rum iNTkMNAi iUNIYI BUBINE55 PMN - r^N4kflL.V:E PitlNi F'L: � 9 Fr �4Vht RY ACRE] W}u�� v SeIaIROa 4 AcwfE How! PCRtt �? PA., PINE 4'". Em"k, gel �Y L n W Nile !. VYIB PROYPiCk GRIFN _uNc I c T 2015 WiomsoN Ca&itroa m'26-5'Nokia Untr Road Site Childress Klein Properties Kannapolis/Cabarrus 46915291580000 Vicinity Map Coordinates: Scale: Lat: 35.421033 Long:-80.691127 05/15/2015 1 HUYSMAN & BANDY, INC. WETLAND AND ENVIRONMENTAL CONSULTANTS 3 WL C lie -Wetland Sketch provided for illustrative purposes for preliminary planning use only. Not intended to be relied upon for exact location, dimensions, or orientation. All findings and assessments made by wetland consultants regarding limits of jurisdiction or permitting requirements are subject to verification by the US Army Corps of Engineers, the NC DWR, and other appropriate local authorities. Untz Road Site """" , "`"""" Childress Klein Properties City i County: Kannapolis/Cabarrus Tax PIN(s): 46915291580000 Figure 1: Approximate Depiction Coordinates: Scale: of Waters and Wetlands I Lat: 35.421033 Long:-80.691127 05/26/2015 Property Real 10 02-003 .0036.00 Pares]PIN 46915291580000 Physical Address: 6979 UNTZ RD CONCORD NC 28027 Land Units 137.31 Owner Name l: WHITAKER DONALD E TRUSTEE Land Units Type AC Owner Name 2: Calculated Acreage 144.388401 Meiling Address: 3661 RICHWOOD CIR Land Value 2445120 Mail City: KANNAPOLIS Building Value 121620 Mail stew: NC Assessed Value 317760 Mail Zip: 28081 Market Value 2600880 oeanu Wmyaeau roleanea lanery eryenv.�n se Map Created By Cabanas County IT Department 4aansnmaa on msrave lNslnduacvrm taw mnniaim, aawnha IM rmml oche &ia aM relalMe Data Sources: Cabarrus Count land Records y 1:9.028 panaia,m..ryave a.o. 7NamYovdto..Eb 0 0.075 0.16 0.3It baa4a44ewnera Mmtryvawa.k aftUarsd0a. Somme Evi D1900bta. DaZya, EanMur DagapNa, CNIMAUbta nuetbaconulel e CS. USDA U6Q5, AEx Demgeln¢Aanpb. I(W,IDP, MSWg4 rtlPa I 1—TI II I I d nnplatl r a iennam ariemmmMe .,aae mnM <as uarmmmuNry 0 0.125 0.25 O.Sm Project Name: Untz Road Site HUYSMAN & BANDY, INC. owner/Developer: Childress Klein Properties WETLAND AND ENVIRONMENTALCONSULTANTS City/County: Kannapolis/Cabarrus Tax PIN(s): 46915291580000 Figure 2: County GIS Coordinates: I Scale: Date: Lat: 35.421033 Long:-80.691127 1 1 05/15/2015 U.S. Fish and Wildlife Service National Wetlands Inventor Li 0 r �. ��. 700 L \% ,��y } fir— f •r �, , I ' , ,• • //I{�/—^��J/ ` 1M. m.V 1. fa Wnw.� relrene• oNY. M UB FN aM W ft Bwiw I. ,M i / � , ' . ^ _ � -� .� � neOenlYle tar ue.ms.ry s eummswn d e• One bb w,ewf an ne ntA. M � Ntl•lee NefeC GW tlW W W u.n M mNY,n Mn tlM INn nYIMe faYM m 4 Project Name: Untz Road Site HUYSMAN & BANDY, INC- owner / Developer: Childress Klein Properties WETLAND AND ENVIRONMENTAL CONSULTANTS City / County: Kannapolis/Cabarrus Tax PIN(s): 46915291580000 Figure 3: USGS Topo Quad Coordinates: Scale: Date: Lat: 35.421033 Long:-80.691127 05/15/2015 Soil Map—Cabarrus County, North Carolina N A Map Sale:1:8,R0ApnQ3d prn Atmrtlgape(11"x8.5'10,eet. USDA Natural Resources 0 100 270 400 600 Conservation Service 0 350 700 1400 71 Fe Web Soil Survey Map prv)ebm: Web Mercator corner mardkotes: VACG584 Edge ti6: UTM Zone 17N VVGS84 National Cooperative Soil Survey HUYSMAN & BANDY, INC. WETLAND AND ENVIRONMENTAL CONSULTANTS Untz Road Site 1-.11 , `""""" Childress Klein Properties -"r Kannapolis/Cabarrus Tax PIN(s): 46915291580000 Figure 4: Soil Survey Lat: 35.421033 Long:-80.691127 Scale: 05/15/2015 rA It National Wetlands Invento 4 L F Wetlands a 1!,e ^ Freshwater Emergent _ _ •re6hwalef ForesieQ5hrub - 'estuarine ono Marine Deepwater - Estuanne and Manse I- CreSnwaler Pond -_ake mu "'a ie m, dme.m reference omr. me us Ran dad wneine semce iv nor Rwenne esynnsm1. m, rk a acy o emoess m ure Mae data anown do mid mad. nn we, Ids armed data snouro be uaea In accordance your the iary, omudau round on iM Well. ds raapyea web aura. Clr e' HUYSMAN & BANDY, INC. WETLAND AND ENVIRONMENTAL CONSULTANTS Figure 5: National Wetland Inventory Map . I "J-1-1. Untz Road Site Owner/Developer: Childress Klein Properties City / County: Kannapolis/Cabarrus Tax PIN(s): 46915291580000 Coordinates: Scale: Date: Lai: 35.421033 Long: -80.691127 1 1 05/15/2015 C") p r 1 p o 9 ' rn y A 3 0 rn HIM REPORT OF SUBSURFACE EXPLORATION AFTON RIDGE INDUSTRIAL CONCORD, NORTH CAROLINA ECS PROJECT NO. 08-10919 JUNE 26, 2015 REPORT OF SUBSURFACE EXPLORATION Afton Ridge Industrial Concord. North Carolina Prepared For: Mr. Jon Wilson Childress Klein Properties 301 South College Street, Suite 2800 Charlotte, North Carolina 28202 Prepared By: ECS CAROLINAS, LLP 1812 Center Park Drive Suite D Charlotte, NC 28217 ECS Project No: 08-10919 Report Date: June 26. 2015 o CE C S C A R O L I N A S, L L P "setting the standard for Service" Geotechnical • Construction Materials - Environmental Facilities Nc RevIertd En@imeing F= F-1078 June 26, 2015 Mr. Jon Wilson A��®� Childress Klein Properties a® 301 South College Street, Suite 2800 JUL Charlotte, North Carolina 28202 G Reference: Report of Subsurface Exploration LanDEA', DfAAfton f Concord,gNolrth Carlal olina ^too e`ajp ReQ � sect,/1 ECS Project No: 08-10919 Dear Mr. Wilson: ECS Carolinas, LLP (ECS) has completed the subsurface exploration for the above referenced project. This project was authorized and performed in general accordance with ECS Proposal No. 08-18219P-30P dated May 15, 2015. The purpose of this exploration was to determine the general subsurface conditions at the site and to evaluate those conditions with regard to foundation and floor slab support, along with general site development. This report presents our findings, conclusions, and recommendations for design and construction of the project. ECS Carolinas, LLP appreciates the opportunity to assist you during this phase of the project. If you have questions concerning this report, please contact our office. Respectfully, ECS CAROLINAS, LL Michael R. Dailey, P. Project Engineer NC Registration No. 041 Erik H/Frebburq. P 1812 Center Park Drive, Suite D, Charlotte, NC 28217 • T. 704-525-5152 - F: 704-357.0023 • wAw.ecslimited.com ECS Cap[d Services, PLLC • ECS Cwo$ias, LLP • ECS Centr+, PLLC • ECS Flonda, LLC - ECS LUdAtlantk, LLC • ECS UdveA LLC • ECS 5wdwasL LLC - ECS Texas, UP Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 2 INTRODUCTION 1.1. Project Information Mr. Jon Wilson Childress Klein Properties ECS Project No. 06-10919 June 26, 2015 The project site is located at 6979 Untz Road in Concord, North Carolina, as shown in the Site Vicinity Map (Figure 1) located in the Appendix. The approximate 140-acre site is identified as Cabarrus County Parcel Identification Number 46915291580000. The site consists of wooded land, open fields, apparent residential structures (including a two-story residence that was built in 1941), and a portion of Coddle Creek. . Based on our review of ColeJenest & Stone's Proposed Site Layout dated March 18, 2015, the project will consist of three industrial buildings with footprints ranging from 310,000 SF to 372,000 SF. The site will also consist of light and heavy duty parking/drive areas. Stormwater ponds are planned at four (4) locations throughout the site. In addition, retaining walls with an average wall height of approximately 20 feet are planned along the eastern and western portions of the site. We understand a portion of the site was previously utilized as a "landfill". This area has been noted on the provided drawing. Existing topography appears to vary dramatically across the site. Based on the provided topography, existing site grades within the building footprints range from an approximate high elevation of 688 feet in the western portion of Building 3 to an approximate low elevation of 632 feet in the northeast corner of Building 3. Preliminary finished floor elevations (FFE) for Buildings 1, 2, and 3 are shown as 650 feet, 650 feet, and 660 feet, respectively. We anticipate that maximum cut and fill depths within the structures will be on the order of 26 feet and 28 feet, respectively. Information regarding construction methodology and structural loading conditions have not been provided to us. However, we anticipate the structures will be constructed using concrete tilt panel walls with maximum column and wall footing loads on the order of 200 kips and 5 kips per linear foot, respectively. 1.2. Scope of Services Our scope of services for this phase of the project included a subsurface exploration with soil test borings and test pits, engineering analysis of the foundation support options, and preparation of this report with our recommendations. The subsurface exploration included forty- eight (48) soil test borings (B-1 through B-24, RW-25 through RW-34, SW-35 through SW-38, and P-39 through P-48) to depths ranging from 6.5 to 40 feet below the existing ground surface, and eighteen (18) test pits (TP-1 to TP-18) to depths ranging from 1Y: to 14 feet below existing the ground surface. Approximate boring locations are shown on the Boring Location Diagram (Figure 2) and test pit locations are shown on the Test Pit Location Diagram (Figure 3) included in the Appendix. The soil borings were performed using a SIMCO 2400 drill rig using continuous - flight, hollow -stem augers. 2. FIELD SERVICES 2.1. Test Locations The soil boring and test pit locations and depths were selected and located in the field by ECS using a handheld GPS device and existing landmarks as reference. The approximate boring locations are shown on the Boring Location Diagram (Figure 2) and the approximate test pit locations are shown on the Test Pit Location Diagram (Figure 3) presented in the Appendix of this report and should be considered accurate only to the degree implied,by the method used to obtain them. Ground surface elevations at the boring locations were determined using the topographic map provided and should be considered approximate. Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 3 2.2. Soil Test Borings Mr. Jon Kitson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 Forty-eight (48) soil test borings were drilled to evaluate the stratification and engineering properties of the subsurface soils at the project site. Standard Penetration Tests (SPT's) were performed at designated intervals in general accordance with ASTM D 1586. The Standard Penetration Test is used to provide an index for estimating soil strength and density. In conjunction with the penetration testing, split -barrel soil samples were recovered for soil classification at each test interval. Boring Logs are included in the Appendix. The drill crew also maintained a field log of the soils encountered at each of the boring locations. After recovery, each sample was removed from the auger and visually classified. Representative portions of each sample were then sealed and brought to our laboratory in Charlotte, North Carolina for further visual examination and potential laboratory testing. Groundwater measurements were attempted at the termination of drilling at each boring location. 2.3. Test Pit Excavation Eighteen (18) test pit excavations were performed by others and observed by ECS using a Kobelco SK 160 LC track -mounted backhoe. The test pits were performed within the suspected landfill area as indicated om the provided site plan. The Test Pit Logs are included in the Appendix. LABORATORY SERVICES Soil samples were collected from the borings and examined in our laboratory to check field classifications and to determine pertinent engineering properties. Data obtained from the borings, our visual/manual examinations, and laboratory testing, are included on the respective boring logs in the Appendix. 3.1 Soil Classification A geotechnical engineer classified each soil sample on the basis of color, texture, and plasticity characteristics in general accordance with the Unified Soil Classification System (USCS). The soil engineer grouped the various soil types into the major zones noted on the boring logs. The stratification lines designating the interfaces between earth materials on the boring logs and profiles are approximate; in situ, the transition between strata may be gradual in both the vertical and horizontal directions. The results of the visual classifications are presented on the Boring Logs included in the Appendix. 3.2 Laboratory Testing In addition to visual classification, ECS performed ten (10) natural moisture content tests, three (3) percent fines, and three (3) Atterberg Limits tests. The laboratory testing was performed in general accordance with the applicable ASTM standards. The results of the laboratory testing are presented on the respective Boring Log and presented within the Laboratory Testing Summary Sheet included within the Appendix. Report of Subsurface Exploration Mr. Jon Wilson Afton Ridge Industrial Childress Klein Properties Concord, North Carolina ECS Project No. 08-10919 Page 4 June 26, 2015 4. SITE AND SUBSURFACE FINDINGS 4.1. Area Geology The site is located in the Piedmont Physiographic Province of North Carolina. The native soils in the Piedmont Province consist mainly of residuum with underlying saprolites weathered from the parent bedrock, which can be found in both weathered and unweathered states. Although the surficial materials normally retain the structure of the original parent bedrock, they typically have a.much lower density and exhibit strengths and other engineering properties typical of soil. In a mature weathering profile of the Piedmont Province, the soils are generally found to be finer grained at the surface where more extensive weathering has occurred. The particle size of the soils generally becomes more granular with increasing depth and gradually changes first to weathered and finally to unweathered parent bedrock. The mineral composition of the parent rock and the environment in which weathering occurs largely control the resulting soil's engineering characteristics. The residual soils are the product of the weathering of the parent bedrock. In addition, it is apparent that the natural geology within the site has been modified in the past by grading that included placement of fill materials. The quality of man-made fills can vary significantly, and it is often difficult to access the engineering properties of existing tests performed in soil test borings and the degree of compaction of existing fill soils; however, a qualitative assessment of existing fills can sometimes be made based on the N-values obtained and observations of the materials sampled in the test borings. 4.2. Subsurface Conditions The subsurface conditions at the site, as indicated by the borings, generally consisted of residual soil to the depths explored. The generalized subsurface conditions are described below. For soil stratification at a particular test location, the respective Boring Log found in the Appendix should be reviewed. Approximately 1 to 3 inches of topsoil (i.e. organic laden soil) was encountered at the ground surface at each of the boring locations with the exception of Borings B-16 and RW-27. The surface material within the landfill area including Borings B-16 and RW-27 consisted of a cement based material and extended to depths ranging from approximately 6 inches to 1 foot below existing ground surface. The surficial organic laden soil provided in this report and on the individual Boring Logs are based on driller observations and should be considered approximate. Please note that these reported values should not be used in determining topsoil removal quantities. Fill soils were encountered below the surficial materials at Borings B-16, RW-25, RW-27, and RW-31 as well as at each of the test pit locations with the exception of Test Pit TP-18. The fill extended to depths ranging from approximately 1 to 14 feet below the existing ground surface. The fill soils encountered generally consisted of Sandy CLAY (CL), Plastic CLAY (CH), and Silty SANDI(SM) exhibiting SPT N-values ranging from 2 blows per foot (bpf) to 50 blows per 1 inch of penetration. In addition, varying amounts of organics were encountered within the existing fill. Wood was encountered within the existing fill in Borings B-16, RW-25, and RW-27. Borings B-16 and RW-27 encountered auger refusal due to the presence of wood at 11 feet and 7 feet below existing ground surface, respectively. Test Pits TP-6 and TP-12 were terminated in fill soils. Residual soil was encountered below the surficial material and fill soils at each of the boring locations with the exception of B-16, RW-17, P-39, TP-6, and TP-12. Residual soils are formed Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 5 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 by the in -place chemical and mechanical weathering of the parent bedrock. The residual soils encountered in the borings generally consisted of Sandy SILT (ML), Elastic SILT (MH), Sandy CLAY (CL), Clayey SAND (SC), and Silty SAND (SM), exhibiting SPT N-values ranging from 2 to 89 blows per foot (bpf). Borings B-3, B-8, B-14, B-17, B-18, B-19, B-20, B-21, B-22, B-23, B-24, RW-25, RW-26, RW-28, RW-29, RW-31, RW-32, RW-33, SW-36, SW-37, SW-38, P-41, P-46, P-47, and P-48 were terminated in the residual soils. Each Test Pit with the exception of TP-6 and TP-12 were terminated in the residual soils. Partially Weathered Rock (PWR) was encountered below the surficial material at Boring P-39, and below the residual soil at Borings B-1, B-2, B-4, B-5, B-6, B-7, B-9, B-10, B-11, B-12, B-13, B-15, RW-30, RW-34, SW-35, P-40, P-42, P-43, P-44, and P-45 at depths ranging from approximately 3 to 25 feet below the existing ground surface. In addition, a lense of PWR was encountered between ground surface and 3 feet at Boring P-39. PWR is defined as residual material exhibiting SPT N-values greater than 100 bpf. The PWR encountered generally consisted of Silty SAND (SM) exhibiting SPT N-values of 50 blows per 5 inches of penetration to 50 blows per 0 inch of penetration. Borings B-1, B-5, B-9, B-11, B-13, RW-30, RW-34, and P-43 were terminated in the PWR. Auger refusal was encountered at Borings B-2, B-4, B-6, B-7, B-10, B-12, B-15, SW-35, P-39, P-40, P-42, P-44, and P-45 ranging in depth from approximately 6.5 to 24.3 feet below the existing ground surface. Auger refusal indicates the presence of material that permitted no further advancement of the hollow stem auger or split spoon sampler. No sample was recovered in the split -spoon sampler. Rock core samples were beyond the scope of this exploration. 4.3. Groundwater Observations Groundwatermeasurements were attempted at the termination of drilling at the time of our exploration. Groundwater was encountered at Borings B-1, B-5, RW-31, RW-34, P-43 and B-45 at depths ranging from 8 to 13Y2 feet below the existing ground surface. Fluctuations in the groundwater elevation should be expected depending on precipitation, run-off, utility leaks, and other factors not evident at the time of our evaluation. Normally, highest groundwater levels occur in late winter and spring and the lowest levels occur in late summer and fall. Cave-in depths were measured at the termination of drilling operations and ranged from approximately 4.9 to 35.7 feet. Cave-in of a soil test boring can be caused by groundwater hydrostatic pressure, weak soil layers, and/or drilling activities (i.e. drilling fluid circulation or advancement of bit). 4.4. Laboratory Test Results Moisture content test results of the sampled soils range from approximately 9.4 to 39.6 percent. Atterberg Limits and Percent Fines testing were performed on selected soil samples from B-19, B-21, and B-23, resulting in liquid limits (LL) ranging from 48 to 63 and plasticity indexes (PI) ranging from 9 to 24 with percent fines ranging from 66 to 81 percent. The portion of the samples tested were USCS classified as Sandy SILT (ML) for Boring B-19 and Elastic SILT (MH) for Borings B-21 and B-23. For laboratory test results at a particular test location, the Laboratory Test Summary sheet found in the Appendix should be reviewed. Report of Subsurface Exploration Mr. Jon Wilson Afton Ridge Industrial Childress Klein Properties Concord, North Carolina ECS Project No. 08-10919 Page 6 June 26, 2015 5. CONCLUSIONS AND RECOMMENDATIONS The borings and test pits performed at this site represent the subsurface conditions at the location of the borings and test pits. Due to inconsistencies associated with the prevailing geology and existing fill soils, there can be changes in the subsurface conditions over relatively short distances that have not been disclosed by the results of the test location performed. Consequently, there may be undisclosed subsurface conditions that require special treatment or additional preparation once these conditions are revealed during construction. Our evaluation of foundation support conditions has been based on our understanding of the site, project information and the data obtained in our exploration. The general subsurface conditions utilized in our foundation evaluation have been based on interpolation of subsurface data between and away from the borings. In evaluating the boring data, we have examined previous correlations between penetration resistance values and foundation bearing pressures observed in soil conditions similar to those at your site. 5.1. Existing Fill/Landfill Area Fill soils were encountered at Borings B-16, RW-25, RW-27, and RW-31 and extended to depths ranging from approximately 5'/2 to 14 feet below the existing ground surface. ECS was not provided with documentation of the previous earthwork activities, thus the fill should be considered undocumented. Heavy organics, wood, and debris were encountered within Borings B-16, RW-25, and RW-27 as well as each of the test pit locations with the exception of TP-5, TP-13, TP-16, TP-17, and TP-18 and extended to depths ranging from 3 to 14 feet below the existing ground surface. Undocumented fill poses risks associated with undetected deleterious inclusions within the fill and/or deleterious materials at the virgin ground fill interface that are covered by the fill. Deleterious materials can consist of significant amount of organics derived from organic rich strippings, rubbish, construction or demolition debris, stumps and roots, and logs. If these materials are covered over by or are within undocumented fill, the organic materials tend to decompose slowly in the anaerobic conditions in or under the fill. Decomposition can occur over periods ranging from several years to several decades. As the organic materials decompose, a void is created which can create soft conditions and even subsidence in areas above the organics. Where these types of conditions exist under or within undocumented fill, they are sometimes in discreet pockets that can go undetected by normal subsurface exploration techniques, i.e., soil test borings and test pits. The risk of poor pavement and/or floor slab performance can be lowered . with the implementation of post -tensioned slab, partial undercuts, the addition of geogrid reinforcement to the pavement cross section, or the use of a more robust pavement design. These methods limit the potential for poor pavement performance, but do not eliminate the risk. Due to the depth and quality of the fill soils in the "landfill' portion of the site, we recommend removing and replacing the undocumented fill soils located in the vicinity of the test pit locations as indicated on the Test Pit Location Diagram (Figure 3) located in the Appendix. Additionally, isolated areas may require remediation during site grading due to the unpredictable nature of undocumented fill, particularly in the vicinity of Borings RW-25 and RW-31. Report of Subsurface Exploration Mr. Jon Wilson Afton Ridge Industrial Childress Klein Properties Concord, North Carolina ECS Project No. 08-10919 Page 7 June 26, 2015 5.2. Moisture Sensitive Soils (MH/CH) Elastic SILTS (MH) were encountered beneath the organic laden soils within residual soils at Borings B-19 through B-23, RW-29, RW-33, and P-46 through P-48 to depths ranging from 3 to 8 feet below ground surface. Plastic CLAYS (CH) were encountered within the residual soils at RW-31 and within the fill soils at B-16 and RW-25. Soils classified as MH/CH are fine-grained and have a Liquid Limit greater than 50 percent. Additionally, MH/CH soils are moisture sensitive soils and tend to shrink and swell with moisture variations. Please note that the soils encountered were classified using the visual/manual method of classification with limited laboratory testing. However, the laboratory testing performed indicated plasticity indices of (PI) ranging from 9 to 24. Therefore, we anticipate the potential for shrink and swell of the on -site MH/CH soils is relatively low if moisture is properly controlled. Residual MH soils with a plasticity index greater than 30 or CH soils should not be used for direct support of project foundations, slabs -on -grade, or pavements. Residual MH soils (PI's greater than 30) or CH soils encountered within proposed structural areas should be undercut and replaced with low plasticity engineered fill to a minimum depth of 2 feet below foundations and 2 feet below subgrade elevations in slab and pavement areas. Upon completion of the removal, the resulting subgrade soils should be evaluated for stability prior to placement of engineered fill. However, a majority of the MH soils were encountered within cut areas of the site. Please refer to section 5.11 for additional recommendations regarding the use of MH soils as engineered fill. 5.3. Seismic Site Class The North Carolina Building Code (NCBC) requires that the stiffness of the top 100-ft of soil profile be evaluated in determining a site seismic classification. The method for determining the Site Class is presented in Section 1615 of the code. The seismic Site Class is typically determined by calculating a weighted average of the N-values or shear wave velocities recorded to a depth of 100 feet within the proposed building footprint. Based on the preliminary site layout and subsurface conditions, the site can generally be classified as.a seismic site class of "C" for Building 1 and Building 2 and a seismic site class of "D" for Building 3. 5.4. Structure Foundations Provided the recommendations outlined herein are implemented, the proposed buildings can be adequately supported on a shallow foundation system consisting of spread footings bearing on approved low plasticity residual soil, PWR, or newly -placed engineered fill. A bearing capacity of up to 3,000 psf is recommended for foundations bearing on approved low plasticity residual soil, PWR, or newly -placed engineered fill. Due to the depth and quality of the fill soils in the "landfill" portion of the site, we recommend removing and replacing the undocumented fill soils beneath Building 1 and Building 2. Please refer to the Boring Location Diagram (Figure 2) located in the Appendix for approximate undercut area. Due to the presence of shallow PWR within the building pads and foundation bearing areas, we anticipate that rock may be encountered during excavation of footings. This may result in a point bearing area that could contribute to additional stress at the isolated location. We recommend that in areas where rock is encountered at the bearing elevation, remove an additional 12 inches of rock and replace with engineered fill. This will provide a cushion that will Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 8 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 reduce the effect of the point bearing and additional stress to the foundations. We anticipate that this condition will be present within the vicinity of Borings B-2, B-10, B-12, and B-15, although the project should maintain some additional contingency for areas not encountered during our subsurface exploration. For this project, minimum wall and column footing dimensions of 18 and 24 inches, respectively, should be maintained to reduce the possibility of a localized, "punching" type, shear failure. Exterior foundations and foundations in unheated areas should be embedded deep enough below exterior grades to reduce potential movements from frost action or excessive drying shrinkage. For this region, we recommend footings bear at least 18 inches below finished grade. Total settlement is anticipated to be less than 1 inch, while differential settlement between columns is anticipated to be less than '/z inch for shallow foundations bearing on low plasticity residual soil, PWR, or newly -placed structural fill. Foundation geometry, loading conditions, and/or bearing strata different than those described in this report may result in magnitudes of settlement inconsistent with the previous estimates. 5.5. Slab -On -Grade Support Slabs -on -grade can be adequately supported on undisturbed low plasticity residual soils, newly - placed engineered fill, or PWR provided the site preparation and fill recommendations outlined herein are implemented. Please note that undercutting of existing fill and/or elastic silts will likely be required. For a properly prepared site, a modulus of subgrade reaction (ks) for the soil of 125 pounds per cubic inch for the soil can be used. This value is representative of a 1-ft square loaded area and may need to be adjusted depending on the size and shape of the loaded area depending on the method of structural analysis. We recommend the slabs -on -grade be underlain by a minimum of 4 inches of granular material having a maximum aggregate size of 1'/2 inches and no more than 2 percent fines. Prior to placing the granular material, the floor subgrade soil should'be properly compacted, proofrolled, and free of standing water, mud, and frozen soil. A properly designed and constructed capillary break layer can often eliminate the need for a moisture retarder and can assist in more uniform curing of concrete. If a vapor retarder is considered,to provide additional moisture protection, special attention should be given to the surface curing of the slabs to minimize uneven drying of the slabs and associated cracking and/or slab curling. The use of a blotter or cushion layer above the vapor retarder can also be considered for project specific reasons. Please refer to ACI 302.1R96 Guide for Concrete Floor and Slab Construction and ASTM E 1643 Standard Practice for Installation of Water Vapor Retarders Used in Contact with Earth or Granular Fill Under Concrete Slabs for additional guidance on this issue. ECS recommends that the slab be isolated from the footings so differential settlement of the structure will not induce shear stresses on the floor slab. Also, in order to minimize the crack width of shrinkage cracks that may develop near the surface of the slab, we recommend mesh reinforcement as a minimum be included in the design of the floor slab. For maximum effectiveness, temperature and shrinkage reinforcements in slabs on ground should be positioned in the upper third of the slab thickness. The Wire Reinforcement Institute recommends the mesh reinforcement be placed 2 inches below the slab surface or upper one- third of slab thickness, whichever is closer to the surface. Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 9 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 Adequate construction joints, contraction joints and isolation joints should also be provided in the slab to reduce the impacts of cracking and shrinkage. Please refer to ACI 302.1R96 Guide for Concrete Floor and Slab Construction for additional information regarding concrete slab joint design. 5.6. Pavement Considerations For the design and construction of exterior pavements, the subgrades should be prepared in accordance with the recommendations in the "Site and Subgrade Preparation" and "Engineered Fill sections of this report. Due to the depth and quality of the fill soils in the `landfill' portion of the site, we recommend removing and replacing the undocumented fill soils within the heavy duty pavement areas between Building 1 and Building 2. Please refer to the Boring Location Diagram (Figure 2) located in the Appendix for approximate undercut area. However, provided the owner is willing to accept the risk associated with the undocumented fill as described in Section 5.1, the use of partial undercutting along with the use of geosyntechtic stabilization materials may also be acceptable. In general, a 4 foot separation between the undocumented fill and subgrade should be used for planning purposes. An ECS geotechnical engineer should provide specific remedial recommendations based upon the conditions at the time of construction. An important consideration with the design and construction of pavements is surface and subsurface drainage. Where standing water develops, either on the pavement surface or within the aggregate base course layer, softening of the subgrades and other problems related to the deterioration of the pavement can be expected. Furthermore, good drainage should help reduce the possibility of the subgrade materials becoming saturated during the normal service period of the pavement. Based on our past experience with similar developments and subsurface conditions, we present the following design pavement sections, provided the recommendations contained in this report are strictly followed. Based on the soil types encountered in the soil test borings and provided the site grading recommendations outlined herein are implemented, we recommend a CBR value of 4 be used in design of the project pavements. Based upon our previous experience with similar projects, ECS has estimated the provided pavement sections based upon a 20 year life, with equivalent axle loadings of approximately 20,000 and 400,000 ESALs for light -duty and heavy-duty pavements, respectively. PAVEMENT SECTION RECOMMENDATIONS Material Designation Light Duty Asphalt Pavement Heavy Duty Asphalt Pavement Portland Cement Concrete (PCC) Pavement Asphalt Surface Course S9.56 3 inches 1.5 inches Intermediate Coarse 119.013 2.5 inches Portland Cement Concrete 6 inches Aggregate Base Course 6 inches 10 inches 6 inches ECS should be allowed to review these recommendations and make appropriate revisions based upon the formulation of the final traffic design criteria for the project. It is important to note that the design sections do not account for construction traffic loading. In addition, individual retailers may have minimum pavement sections that were not accounted for during our pavement evaluation. Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 10 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 The aggregate base course materials beneath pavements and sidewalks should be compacted to at least 95 percent of their modified Proctor maximum dry density (ASTM D 1557). Front - loading trash dumpsters frequently impose concentrated front -wheel loads on pavements during loading. This type of loading typically results in rutting of bituminous pavements and ultimately pavement failures and costly repairs. Similarly, drive-thru lanes also create severe risk of rutting and scuffing. Therefore, we suggest that the pavements in trash pickup and drive-thru areas utilize the aforementioned Portland Cement Concrete (PCC) pavement section. It may be prudent to use rigid pavement sections in all areas planned for heavy truck traffic. Such a PCC section would typically consist of 6 inches of 4,000 psi, air -entrained concrete over not less than 6 inches of compacted aggregate base course. Appropriate steel reinforcing and jointing should also be incorporated into the design of all PCC pavements. It should be noted that these design recommendations may not satisfy the North Carolina Department of Transportation traffic guidelines. Any roadways constructed for public use and to be dedicated to the State for repair and maintenance must be designed in accordance with the State requirements. 5.7. Below Grade Excavation Based on the results of the soil test borings and preliminary finished floor elevations (FFE), it appears that difficult excavation will be encountered during site development, specifically in the vicinity of Borings B-2, B-10, B-12, B-15, SW-35, and P-39. Information regarding the depth of the planned utilities was not provided at the time of this report. Depending on the depth of the planned utilities, difficult excavation into PWR may also be encountered during utility excavation. Please refer to the Boring Location Diagram (Figure 2) for approximate areas that will likelt encounter difficult excavation. Based on our subsurface exploration and FFE, the following table shows where auger refusal occurred above or near the FFE: Boring Number Preliminary FFE Auger Refusal Elevation B-2 650 667 B-10 650 651.5 B-12 650 664.5 B-15 650 653.5 In mass excavation for general site work, dense soils and PWR can usually be removed by ripping with a single -tooth ripper attached to a large crawler tractor or by breaking it out with a large front-end loader. In confined excavations such as foundations, utility trenches, etc., removal of PWR may require use of heavy duty backhoes, pneumatic spades, or blasting. As a general guide, we recommend the following definitions be used to define rock: General Excavation Rip Rock: Material that cannot be removed by scrapers, loaders, pans, dozers, or graders; and requires the use of a single -tooth ripper mounted on a crawler tractor having a minimum draw bar pull rated at not less than 56,000 pounds. Blast Rock: Material which cannot be excavated with a single -tooth ripper mounted on a crawler tractor having a minimum draw bar pull rated at not less than 56,000 pounds (Caterpillar D-8 or equivalent) or by a Caterpillar 977 front- Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 11 Trench Excavation Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 end loader or equivalent; and occupying an original volume of at least one (1) cubic yard. Blast Rock: Material which cannot be excavated with a backhoe having a bucket curling force rated at not less than 25,700 pounds (Caterpillar Model 225 or equivalent), and occupying an original volume of at least one-half (1/2) cubic yard. . As noted in the Geology section of this report, the weathering process in the Piedmont can be erratic and significant variations of the depths of the more dense materials can occur in relatively short distances. In some cases, isolated boulders or thin rock seams may be present in the soil matrix. 5.8. Cut and Fill Slopes ECS does not anticipate cut or fill slopes greater than 15 feet in height. We recommend that permanent cut slopes with less than 15 feet crest height through undisturbed residual soils be constructed at 2:1 (horizontal: vertical) or flatter. Permanent fill slopes less than 10 feet tall may be constructed using engineered fill at a slope of 2.5:1 or flatter. However, a slope of 3:1 or flatter may be desirable to permit establishment of vegetation, safe mowing, and maintenance. The surface of all cut and fill slopes should be adequately compacted. All permanent slopes should be protected using vegetation or other means to prevent erosion. A slope stability analysis should be performed on cut and fill slopes exceeding 15 feet in height to determine a slope inclination resulting in a factor of safety greater than 1.4. Upon finalization of site civil drawings, ECS should be contacted to perform slope stability analysis and determine if further exploration is necessary. The outside face of building foundations and the edges of pavements placed near slopes should be located an appropriate distance from the slope. Buildings or pavements placed at the top of fill slopes should be placed a distance equal to at least 1/3 of the height of the slope behind the crest of the slope. Buildings or pavements near the bottom of a slope should be located at least /2 of the height of the slope from the toe of the slope. Slopes with structures located closer than these limits or slopes taller than the height limits indicated should be specifically evaluated by the geotechnical engineer and may require approval from the building code official. Temporary slopes in confined or open excavations should perform satisfactorily at inclinations of 2:1. All excavations should conform to applicable OSHA regulations. Appropriately sized ditches should run above and parallel to the crest of all permanent slopes to divert surface runoff away from the slope face. To aid in obtaining proper compaction on the slope face, the fill slopes should be overbuilt with properly compacted structural fill and then excavated back to the proposed grades. 5.9. Lateral Earth Pressures ECS understands that loading dock walls will be utilized for the buildings. Specifics regarding the loading dock walls (i.e. location, height, length, loading, etc.) were unknown at the time of this report. Loading dock walls should be designed to withstand the lateral earth pressures exerted upon them, and to resist additional lateral pressures generated by surcharge loads such as traffic loads, adjacent slab loads or from foundations bearing behind the walls. Report or Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 12 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 For wall conditions where wall movement cannot be tolerated or where the wall is restrained at the top, such as the loading dock walls, the "At Rest" earth pressure should be used. For wall conditions where outward wall movement on the order of 0.5 percent of the wall height can be tolerated, the "Active' earth pressure should be used. In the design of loading dock walls to restrain compacted backfill, engineered fill or in -situ residual soils, the coefficient of lateral earth pressure can be used to determine lateral earth pressure loads. Please note that the values presented below are for on -site ML and SM materials. If the wall backfill is imported to the site, ECS should be contacted to review the lateral earth pressure coefficients provided. Moderately to highly elastic/plastic soils (CL, MH, and CH) should not be utilized behind earth retaining structures. Soil Parameter Coefficient of Lateral Earth Pressure "At Rest" Earth Pressure(KO) 0.56 "Active" Earth Pressure Ka 0.39 "Passive" Earth Pressure K 2.56 The lateral earth pressure values presented above assume level backfill fill behind the wall, and do not account for hydrostatic pressures against the walls or surcharge loads from overlying or nearby construction. Resistance to sliding can be provided by friction between the bottom of the wall foundation and the underlying soils and by passive resistance of soil adjacent to the wall foundation. The passive resistance should only be used in situations where the soil adjacent to the toe of the wall will not be eroded or otherwise removed in the future. A coefficient of friction of 0.35 for concrete bearing on approved soils is recommended. Drainage behind freestanding retaining walls is cohsidered essential towards relieving hydrostatic pressures. Drainage can be established by providing a perimeter drainage system located just above the below grade/retaining wall footings which discharges by gravity flow to a suitable outlet. This system should consist of "perforated pipe" or "porous wall', closed -joint drain lines. These drain lines should be surrounded by a minimum 6 inches of free -draining, granular filter material having a gradation compatible with the size of the openings utilized in the drain lines and the surrounding soils to be retained, or by gravel wrapped in filter fabric. The space between the interior face of the wall and the earth fill should be backfilled with a granular fill of porous quality or better extending from the perimeter drainage system to just below the top of the wall. To prevent frost heave effects from acting against these walls, the granular backfill should extend a minimum of 12 horizontal inches behind the wall. The granular backfill should be capped with pavement, concrete, or a 12-inch layer of low permeable silt or clay to minimize the seepage of water into that backfill from the surface. The ground surface adjacent to the below -grade walls should be kept properly graded to prevent ponding of water adjacent to the walls. 5.10. Mechanically Stabilized Earth (MSE) Wall Design For the design and construction of the MSE Walls, existing fill should be removed to stable residual soils, specifically in the vicinity of Borings RW-25, RW-27, and RW-31. The performance of the MSE Walls is highly dependent upon sound design and construction practices. The design of the MSE Walls shall consider internal, external and global stability. The following table summarizes the recommended minimum factors of safety (FS) for static design criteria, as recommended by the National Concrete Masonry Association (NCMA). Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 13 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 Table 1 — Minimum Recommended Factors of Safety Failure Mode Static Base Sliding 1.5 Overturning 12.0 Internal Sliding 1.5 Tensile Overstress 1.5 Pullout 1.5 Connection 1.5 Internal Compound Stability 1.3 Bearing Capacity 2.0 Global Stability 1.3 tol.5 The results of the required internal and geotechnical stability analyses are highly dependent upon the engineering properties of the retained, reinforced and foundation zone materials. Consequently, the design of the MSE Walls requires the assignment of specific engineering properties to the reinforced, retained and foundation zone soils. Required for design are the soil's total in -place unit weight and peak effective friction angle and cohesion. However, cohesion is typically ignored for all materials except the foundation zone materials. Maintaining the integrity of the reinforced zone is critical to wall performance. Any below grade utilities should be situated outside the reinforced zone to limit potential conflicts between the reinforcement and below grade structures. The wall designer should contemplate the location and use of any below grade utilities during the design process, and should coordinate with the Civil Engineer where possible to relocate the utilities outside of the reinforced zone. ECS has completed a subsurface exploration and laboratory testing program. The incorporation of subsurface information and laboratory test results into the design of a MSE Wall requires the evaluation of available information to develop design parameters. The laboratory results provided in this report represent the soil parameters for the materials selected and should be considered for information only. Interpretation of laboratory test results and development of design parameters (i.e. shear strength) is solely the responsibility of the MSE Wall designer. Regardless of MSE Wall geometry, it is desirable to use select fill materials within the reinforced fill zone of the MSE Wall. Granular fill is typically easier to place and compact, have enhanced drainage characteristics, have greater strengths and are less susceptible to long term movements (creep). The following gradation is recommended for the reinforced zone fill materials. Table 2 — Gradation Requirements for Reinforced Zone Fill Sieve Size Percent Passing 1 inch 100 No. 4 20 to 100 No. 40 0 to 60 No. 200 0 to 35 The wall designer should specify allowable backfill material including unit weight, relative compaction and shear strength requirements as well as a testing frequency to verify compaction and design shear strength properties. Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 14 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 In some instances it may be acceptable for low plasticity (LL<50 and PI<20) fine grain soils to be' used in MSE Wall construction. However, the use of fine-grained soils can result in poor internal and surface drainage, as well as time dependent movements of the MSE Wall and related components. If fine grained low plasticity soils are used for MSE Wall backfill, we recommend additional internal drainage such as a chimney drain should be incorporated into the final wall design. The preceding paragraphs and tables are intended to provide a general overview of the design and construction of the MSE Walls. Specific guidance regarding the design and construction of MSE Walls can be found in the current edition of the NCMA Design Manual for Segmental Retaining Walls. The information provided above does not alleviate the MSE Wall designer from any aspect of the design including selection of shear strength parameters, internal wall stability, external wall stability, global stability or settlement estimates. 5.11. Reuse of On -site Cut Soils The existing on -site soils are generally acceptable for re -use across the site. However, Borings B-21, B-22, B-23, P-46, P-47, and P-48 have MH soils in proposed cut areas as shown in the Boring Location Diagram (Figure 2) located in the Appendix. Laboratory test results indicate that the natural moisture content of anticipated cut materials may vary between 24.3 and 31.7 percent. The natural moisture contents are anticipated to be near optimum moisture content; however, moisture conditioning of on -site soils may be required. ECS can provide further recommendations for moisture conditioning of the on -site soils upon request. Soils with USCS group symbol of MH may be used in deeper fills (greater than 4 ft) with the additional requirement that they remain stable beneath heavy construction traffic. The sequencing during the grading of the site should be taken into consideration in order to place the MH soils in the deeper fill areas. 5.12. Deep Fills & Settlement Monitoring ECS anticipates that fills of up to 29 feet will be required at the site. ECS recommends that settlement hubs be placed within areas receiving more than 15 feet of fill to monitor consolidation of the fill and residual materials. The frequency of monitoring should be on a weekly basis, but this should be adjusted as necessary by the geotechnical engineer based upon fill placement rates and settlement rates. Typically, the settlement rates will accelerate during the fill placement, and start tapering off shortly after stopping any fill placement. ECS recommends a minimum timeline between 45 and 60 days to monitor the consolidation upon completion of fill placement. Upon reaching a tolerable settlement rate, foundation construction may begin. Alternatively, compaction requirements may be increased in order to reduce the consolidation time during construction. Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 15 11 6.1. Site Preparation CONSTRUCTION CONSIDERATIONS Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 Prior to construction, the proposed construction area should be stripped of all topsoil, organic material, construction debris, existing undocumented fill within the building footprint, and other soft or unsuitable material. Upon completion of these razing and stripping operations, the exposed subgrade in areas to receive fill should be proofrolled with a loaded dump truck or similar pneumatic -tired vehicle having a loaded weight of approximately 25 tons. After excavation, the exposed subgrades in cut areas should be similarly proofrolled. Proofrolling operations should be performed under the observation of a geotechnical engineer or his authorized representative. The proofrolling should consist of two (2) complete passes of the exposed areas, with each pass being in a direction perpendicular to the preceding one. Any areas which deflect, rut or pump during the proofrolling, and fail to be remedied with successive passes, should be undercut to suitable soils and backfilled with compacted fill. The ability to dry wet soils, and therefore the ability to use them for fill, will likely be enhanced if earthwork is performed during summer or early fall. If earthwork is performed during winter or after appreciable rainfall then subgrades may be unstable due to wet soil conditions, which could increase the amount of undercutting required. Drying of wet soils, if encountered, may be accomplished by spreading and disking or by other mechanical or chemical means. 6.2. Fill Material and Placement The project fill should be soil that has less than five percent organic content and a liquid limit and plasticity index less than 50 and 30, respectively. Soils with Unified Soil Classification System group symbols of SP, SW, SM, SC, and ML are generally suitable for use as project fill. Soils with USCS group symbol of CL that meet the restrictions for liquid limit and plasticity index are also suitable for use as project fill. Soils with USCS group symbol of MH may be used in deeper fills (greater than 4 ft) with the additional requirement that they remain stable beneath heavy construction traffic. Soils with USCS group symbol of CH (high plasticity soil) or corrosive soils are generally not suitable for use as project fill. Based on the results of the test pit observations, it appears that the soils within the existing landfill should not be considered suitable for reuse in their present condition. If desired, sorting and screening may be utilized to remove the organics and other debris. If the organics and debris are removed from within the existing stockpile soils, the soils appear suitable for reuse. The fill should exhibit a maximum dry density of at least 90 pounds per cubic foot, as determined by a standard Proctor compaction test (ASTM D-698). We recommend that moisture control limits of -3 to +2 percent of the optimum moisture content be used for placement of project fill with the added requirement that fill soils placed wet of optimum remain stable under heavy pneumatic -tired construction traffic. During site grading, some moisture modification (drying and/or wetting) of the onsite soils will likely be required. Project fill should be compacted to at least 95 percent of its standard Proctor maximum dry density except within 24 inches of finished soil subgrade elevation beneath slab -on -grade and pavements. Within the top 24 inches of finished soil subgrade elevation beneath slab on grade and pavements, the approved project fill should be compacted to at least 100 percent of its standard Proctor maximum dry density. Aggregate base course (ABC stone) should be compacted to 100 percent of standard Proctor maximum dry density. However, for isolated Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 16 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 excavations around footing locations or within utility excavations, a hand tamper will likely be required. ECS recommends that field density tests be performed on the fill as it is being placed, at a frequency determined by an experienced geotechnical engineer, to verify that proper compaction is achieved. The maximum loose lift thickness depends upon the type of compaction equipment used. The table below provides maximum loose lifts that may be placed based on compaction equipment. LIFT THICKNESS RECOMMENDATIONS Equipment Maximum Loose Lift Thickness, in. Large, Self -Propelled Equipment (CAT 815, etc.) 8 Small, Self -Propelled or Remote Controlled Rammax, etc. 6 Hand Operated (Plate Tamps, Jumping Jacks, Wacker- Packers 4 ECS recommends that fill operations be observed and tested by an engineering technician to determine if compaction requirements are being met. The testing agency should perform a sufficient number of tests to confirm that compaction is being achieved. For mass grading operations we recommend a minimum of one density test per 2,500 SF per lift of fill placed or per 1 foot of fill thickness, whichever results in more tests. When dry, the majority of the site soil should provide adequate subgrade support for fill placement and construction operations. When wet, the soil may degrade quickly with disturbance from construction traffic. Good site drainage should be maintained during earthwork operations to prevent ponding water on exposed subgrades. We recommend at least one test per 1 foot thickness of fill for every 100 linear ft of utility trench backfill. Where fill will be placed on existing slopes, we recommend that benches be cut in the existing slope to accept the new fill. All fill slopes should be overbuilt and then cut back to expose compacted material on the slope face. While compacting adjacent to below -grade walls, heavy construction equipment should maintain a horizontal distance of 1(H):1(V). If this minimum distance cannot be maintained, the compaction equipment should run perpendicular, not parallel to, the long axis of the wall. 6.3. Foundation Construction & Testing Foundation excavations should be tested to confirm adequate bearing prior to installation of reinforcing steel or placement of concrete. Unsuitable soils should be undercut to firm soils and the undercut excavations should be backfilled with compacted controlled fill. Exposure to the environment may weaken the soils at the footing bearing level if the foundation excavations remain open for too long a time; therefore, foundation concrete should be placed the same day that foundations are excavated. If the bearing soils are softened by surface water intrusion or exposure, the softened soils must be removed from the foundation excavation bottom immediately prior to placement of concrete. If the excavation must remain open overnight, or if rainfall becomes imminent while the bearing soils are exposed, a 1- to 3-inch thick "mud mat' of "lean" concrete may be placed on the bearing surface to protect the bearing soils. The mud mat should not be placed until the bearing soils have been tested for adequate bearing capacity. Foundations undercut should be backfilled with engineered fill. If lean concrete is placed within the undercut zone, the foundation footprint does not require oversizing. However, if soil or ABC stone is used in lieu of lean concrete, the foundation footprint should be oversized on a 1V:1H scale. Report of Subsurface Exploration Afton Ridge Industrial Concord, North Carolina Page 17 Mr. Jon Wilson Childress Klein Properties ECS Project No. 08-10919 June 26, 2015 We recommend testing all shallow foundations to confirm the presence of foundation materials similar to those assumed in the design. We recommend the testing consist of hand auger borings with Dynamic Cone Penetrometer (DCP) testing performed by an engineer or engineering technician. GENERAL COMMENTS The borings performed at this site represent the subsurface conditions at the location of the borings only. Due to the prevailing geology and presence of existing undocumented fill, changes in the subsurface conditions can occur over relatively short distances that have not been disclosed by the results of the borings performed. Consequently, there may be undisclosed subsurface conditions that require special treatment or additional preparation once these conditions are revealed during construction. Our evaluation of foundation support conditions has been based on our understanding of the site and project information and the data obtained in our exploration. The general subsurface conditions utilized in our foundation evaluation have been based on interpolation of subsurface data between and away from the test holes. If the project information is incorrect or if the structure locations (horizontal or vertical) and/or dimensions are changed, please contact us so that our recommendations can be reviewed. The discovery of any site or subsurface conditions during construction which deviate from the data outlined in this exploration should be reported to us for our evaluation. The assessment of site environmental conditions for the presence of pollutants in the soil, rock, and groundwater of the site was beyond the scope of this exploration. The recommendations outlined herein should not be construed to address moisture or water intrusion effects after construction is completed. Proper design of landscaping, surface and subsurface water control measures are required to properly address these issues. In addition, proper operation and maintenance of building systems is required to minimize the effects of moisture or water intrusion. The design, construction, operation, and maintenance of waterproofing and dampproofing systems are beyond the scope of services for this project. Site Vicinity Map Boring Location Diagram Test Pit Location Diagram Borelogs Test Pit Logs Laboratory Testing Summary ASFE Documents � y ;eyc. .r a a a 4 , 1311 U01`4 U 11 ! 9 1 m 2 w f an«1 Rldye a Shopping Center i] N�lYyvk rqy SITE .� � 1 � QoP�a i ' Vduan Materials Company _ Ii91 FY i 431 4 Q 1�J r $ I `t Source: AIIIIIIIIIIIINOMW FIGURE 1 PR0.1. SCALE E.F N.T.S. Google Maps De Site Vicinity Map Afton Ridge Industrial DRAFTSMAN DFA REVISIONS PROJECT NO. 10919 FIGURE Concord, North Carolina 1 SETTrNO THE S^eA==T DATE 6.4-15 )F201 P3Y WALLI UDE)I / h �Bw2 SW 3n CULVE�RP�ryyALL I I l all B r AV 4 46 P I �) A. L`' J NCI LL ' AV►� i v 47 4w 3O SETBACK ti KOO. 2 - 372,000 120D X 310 A8�MED FFE � � 8.11 LA� 1313 B 14 \y\Q8 1 a1a� aLDa + -sv 1oo0 x: I A96UME0 Fl 1 � s �l 85 B5 nnls l C 42 91 \ IF AREA, B 12 NW 2� tilAPPROX. 64OLF ! `/ HIGH RETAINIW B.15 r1r / (AVERAGE) AF. I\ 1 •000 B 3 t - - / FLOODWAY SW-31i--)__—� IF PRIVATE STREET\ 600 YEAR Fl WOPLAIN IM YEAR FLOODPLAIN PERENNIAL S 4 "'*i L -'I f ccc111��I��F r 8-.3—T— B z41 i I QW32 w r3 i° lw owm qe -3 IFp .96 { r_I.�.�...�L PGBLI 5w-38 L �1 PUBLIC STREET \\ LEGEND: w =Approximate Location of Boring -- =Approximate Limits of Existing Landfill ��I'�( = Approximate Area of MH In Cut Areas —•— = Approximate Area of Existing Fill R+x ` = Approximate Area of Difficult Excavation Background Image Provided By: -+ FIGURE 2 PROJ. MGR. SCALE ColeJenest & Stone EHF N.T.S. Afton Ridge Industrial Property Boring Location Diagram DRAFTSMAN PROJECT NO. Proposed Site Layout Afton Ridge Industrial DFA 10619 03.18.15 Concord, North Carolina REVISIONS FIGURE '- 2 SETTING THE DATE 6-26-15 STANDARD F ;0 . L ARE L 301 t or t Fr� J Air 7. J -14 + ,i -•- y!J F� 000 SF MO LEGEND: N = Approximate Location of Test Pit = Approximate Location of Boring EC5 = Approximate Limits of Existing Landfill Background Image Provided By: FIGURE 3 PROJ. MGR. SCALE ColeJenest & Stone ENF N.T.S. Afton Ridge Industrial Property Test Pit Location Diagram DRADFAMAN PROJECT N10 919 Proposed Site Layout Afton Ridge Industrial REVISIONS FIGURE 03.18.15 n I Concord, North Carolina s Google Earth SETTINa THE DATE Imaoery Date: 10/4/2014 6-26�15 CLIENT JOB# BORING# SHEET _ 1 Childress Klein Properties 10919 B-1 1 OF 1MI n PROJECT NAME ARCEC - N INE in Afton Rid a Industrial - DTR mil_ SITE LOCATI CALIBRATED PENETROMETER TONS/FT° 6979 Untz Road Concord Cabarrus Countv. NIC ROCK QUALITY DESIGNATION A RECOVERY NORTHING FASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT' X� x wSURFACE c Y i DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING ID LOSS OF CIRCULATION CC > Q ¢ a 3 (9 STANDARD PENETRATION BLOWS/FT ELEVATION 635 To soil Depth 2" s 7 1 ` S-1 SS 18 16 (SC) RESIDUAL - CLAYEY FINE TO MEDIUM SAND, Brown, Moist, Medium Dense 6 5 7 17 (CL) SANDY CLAY, Tannish to Grayish Brown, Moist, Very Stiff S-2 SS 18 18 6 630 10 7 10 24 S-3 SS 18 16 14 78 (SM) SILTY FINE TO MEDIUM SAND, Contains Slight Mica, Tannish Brown, Moist, Dense S-4 SS 18 12 10 625 23 (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Brown, Moist = 50/5 t00+ - END OF BORING @ 14' 15 620 20 615 25 610 30 605 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. 4 WL 13.5 WS❑ ADO BORING STARTED 06/04/15 CAVE IN DEPTH @ 13.0' = WL(BCR) Z WL(ACR) GNE BORING COMPLETED 06/04/15 HAMMER TYPE Auto WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING N SHEET �I Childress Klein Properties 10919 B-2 1 OF 1 �$1 PROJECT NAME ARCHITECT -ENGINEER Afton Ride Industrial - DTR SITE LOCATION -o- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus CountV, NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% a o z m w w w z o m i ¢ 7 DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION w O 2 r i 3 w N m ®STANDARD PENETRATION BLOWS/FT SURFACE ELEVATION 676 To soil Depth 2" 675 7 10 S-1 SS 18 16 (SC) RESIDUAL - CLAYEY FINE SAND, Reddish to Tannish Brown, Moist, Medium Dense 16 zB 5 32 50/5 too+ (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Brown to Light Brownish Gray, Moist S-2 SS 11 9 670 50/4 100+ q 50/4 -4 4 AUGER REFUSAL @ 9' 100+ 10 665 15 660 20 655 25 650 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE wS❑ WD21 BORING STARTED 06/05/15 CAVE IN DEPTH @7,7' WL(BCR) 7 WL(ACR) GNE BORING COMPLETED 06/05/15 HAMMER TYPE Auto 4 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB # BORING N SHEET F--1 Childress Klein Properties 10919 B-3 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER UN Afton Rid a Industrial - DTR=r_ SITE LOCATION CALIBRATED PENETROMETER TONSIFT7 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w z LIMIT% CONTENT% LIMIT% r Z o BOTTOM OF CASING LOSS OF CIRCULATION w O 2 a M w > F r w 3 ® STANDARD PENETRATION SURFACE ELEVATION 656 o m m ran ¢ 3 w 9 BLOW8IFT To soil Depth 2" (ML) RESIDUAL - SANDY SILT, Reddish 655 S-1 SS 18 12 Brown, Moist, Very Stiff to Stiff 7 17 10 s S-2 SS 18 18 6 14 5 6 36.0 650 (ML) SANDY SILT, Reddish Brown, Moist, Very S-3 SS 18 18 Stiff to Stiff 4 7 17 10 4 S-4 SS 18 16 6 13 10 7 645 (ML) SANDY SILT, Tan, Moist, Stiff 4 S-5 SS 18 16 5 12: 5 7 640 ' ISM) SILTY FINE TO MEDIUM SAND, Tannish Gray, Moist, Medium Dense 4 S-6 SS 18 12 5 11 20 6 END OF BORING @ 20' 635 25 630 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. 2L WL GNE WS❑ WDIX BORING STARTED 06/09/15 CAVE IN DEPTH @ 16.6' WL(BCR) = WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 225 H.S.A CLIENT Childress Klein Properties JOB 4 10919 BORING 4 B-4 SHEET 1 OF 1 �I EA PROJECT NAME Afton Ridge Industrial - DTR ARCHITECT -ENGINEER - SITE LOCATION 6979 Untz Road Concord Cabarrus Countv. NC CALIBRATED PENETROMETER TONS/FTC ROCK QUALITY DESIGNATION 8 RECOVERY ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% NORTHING EASTING STATION p 4 a o Oz J m w w ran i r 0 w y i 2 w O0 s DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION ro11 w O m ? 3 w Z. 30 Ei n •� ® STANDARD PENETRATION BLOWSIFT SURFACE ELEVATION 660 5 0 15 20 25 30 To soil Depth 2"660 655 650 645 640 635 630 B 12 16 6 6 7 4 5 6 15 21 19 so/a 5304 50/4 28 3 36.9-* 71 100+ ! 100+ (SM) RESIDUAL - SILTY MEDIUM TO COARSE SAND, Tannish Brown to Grayish Tan, Moist, Medium Dense S-1 SS 18 14 S-2 SS 18 16 (ML) SANDY SILT, Grayish Tan, Moist, Stiff S-3 SS 18 18 ISM) SILTY FINE TO MEDIUM SAND, Grayish Tan, Moist, Dense S-4 SS 18 18 ISM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Grayish Tan, Moist S-5 SS 10 10 S-6 SS 10 10 4 4 AUGER REFUSAL @ 22.4' !" THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. 4 WL GNE wS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @20.9' WL(BCR) 2 WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto 4- WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB # BORING # SHEET �1 Childress Klein Properties 10919 B-5 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER RN Afton Rid a Industrial - DTR=r_ SITE LOCATION -Q- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus County, NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING FASTING STATION RQD% - — - REC% — PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w z LIMIT% CONTENT% LIMIT% O Z F N a _ BOTTOM OF CASING D LOSS OF CIRCULATION W Z ¢ J O SURFACE ELEVATION 628 d w w ® STANDARD PENETRATION ¢ 3 w m BLOWS/FT To soil Depth 1" 13 (SM) RESIDUAL - SILTY FINE TO MEDIUM S-1 SS 18 8 SAND, Reddish Brown, Moist, Dense 14 26 12 625 0 (ML) SANDY SILT, Contains Slight Mica, S-2 SS 18 16 Reddish Brown, Moist, Stiff to Medium Stiff 4 4 5 6 2 S-3 SS 18 18 2 5 3 620 (SM) SILTY FINE SAND, Contains Slight Mica, S-4 SS 18 16 Grayish to Tannish Brown, Moist, Medium 1e 10 Dense 11 19 _ (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Grayish to 615 S-5 SS 9 B Tannish Brown, Wet 30 5013 END OF BORING @ 14.5' 15 610 20 605 25 600 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. Q WL 8.5 WS❑ WIDE BORING STARTED 06/05/15 CAVE IN DEPTH @ 12.0' M_ WL(BCR) t WL(ACR) GNE BORING COMPLETED 06/05/15 HAMMER TYPE Auto S2 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET Childress Klein Properties 10919 B-6 1 OF 11 PROJECT NAME ARCHITECT -ENGINEER Afton Ride Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - - - REC% - PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w — Z LIMIT% CONTENT% LIMIT% O > r N a > BOTTOM OF CASING LOSS OF CIRCULATION > z F ¢ J O SURFACE ELEVATION 644 a E r r > Q ® STANDARD PENETRATION o N h N ¢ 3 w m BLOWSIFT To soil Depth 2" (ML) RESIDUAL -SANDY SILT, Dark Brown to s S-1 SS 18 14 Tannish Brown, Moist, Very Stiff s 18 12 640 9 9 23 S-2 SS 18 14 5 14 (SM) SILTY FINE TO MEDIUM SAND, Tannish S-3 SS 18 18 Brown, Moist, Medium Dense 8 10 8i 100+ (SM PWR) PARTIALLY WEATHERED ROCK S-4 SS 16 14 SAMPLED AS SILTY SAND, Tannish Brown, 635 25 31 , Moist 50/4 10 so/o AUGER REFUSAL @ 12' 100+ 630 15 — 625 20 620 25 615 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. =Z WL GNE WS❑ WIDE BORING STARTED 06/05/15 CAVE IN DEPTH @9.1' -lEWL(BCR) = WL(ACR) GNE BORING COMPLETED 06/05/15 HAMMER TYPE Auto S2 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET��///—��,,,1 Childress Klein Properties 10919 B-7 1 OF 1 (� PROJECT NAME ARCHITECT -ENGINEER L�i�JJj �"77 Afton Ridge Industrial - DTR=1_ SITE LOCATION -o- CALIBRATED PENETROMETER TONI 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING EASTING STATION ' ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% p O Oz w a uai w r a Z r o a N z 2 > O ¢ DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION 29� w O ¢ r w w u Q m ®STANDARD PENETRATION BLOWSIFT SURFACE ELEVATION 652 To soil De th 2" (SM) RESIDUAL - SILTY FINE SAND, Tannish to Reddish Brown, Moist, Dense 650 14 16 21 37 S-1 SS 18 9 n 3 39 S-2 SS 18 14 5 20 645 19 23 25 48 S-3 SS 18 12 50f4 00+ (SM PWR) PARTIALLY WEATHERED ROCK AS SILTY SAND, Yellowish Tan, a SS a 4SAMPLED — o - Moist 640 SOl3 100+ a _SS 15 AUGER REFUSAL @ 15' 635 20 630 25 625 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =L WL GNE wso WIDE BORING STARTED 06/05/15 CAVE IN DEPTH @ 12,3' 'K WL(BCR) t WL(ACR) GNE BORING COMPLETED 06/05/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2,25 H.S.A CLIENT JOB N BORING N SHEET �I Childress Klein Properties 10919 B-8 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER UN Afton Ridge Industrial - DTR rr_ SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus County, NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING EA6111 U STATION ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% Oz w z = F 0 z ; DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION h w O " i o m y m > SURFACE ELEVATION 640 ¢ ¢ r w 3 w v m ®STANDARD PENETRATION BLOWS/FT To soil Depth 2" (ML) RESIDUAL - SANDY SILT, Dark Reddish Brown, Moist, Stiff s 7 35 S-1 SS 18 18 8 13 29 (ML) SANDY SILT, Reddish to Tannish Brown, Moist, Very Stiff S-2 SS 18 14 5 635 t6 7 S-3 SS 18 14 10 23 13 6 S-4 SS 18 12 7 17 10 630 10 ISM) SILTY FINE SAND, Grayish Tan, Moist, Medium Dense 7 S-5 SS 18 12 9 .24 15 625 15 9 S-6 SS 18 16 11 25 20 620 4 END OF BORING @ 20' 25 615 30 610 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. SL WL GNE wso WD® BORING STARTED 06/09/15 CAVE IN DEPTH @ 16.2' -2 WL(BCR) V- WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto =L WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2,25 H.S.A CLIENT Childress Klein Properties JOB # 10919 BORING# B-9 SHEET 1 OF 1 I, y PROJECT NAME Afton Rid a Industrial - DTR ARCHITECT -ENGINEER r1_ SITE LOCATION 6979 Untz Road Concord Cabarrus Countv. INC -o- CALIBRATED PENETROMETER TONS/FT2 ROCK QUALITY DESIGNATION 8 RECOVERY RQD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% NORTHING FASTING STATION ¢ d w ¢ w ¢ Z r ¢ z > o w DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING lb LOSS OF CIRCULATION � w O ¢ r w < 3O ® STANDARD PENETRATION BLOWSIFT SURFACE ELEVATION 660 5 10 15 20 25 30 To soil Depth 3" 655 650 645 640 s35 630 B 7 9 10 14 21 12 19 26 21 27 38 44 47 50/3 25 50/5 52043 9.4-* 16 35 45 65 100+ 100+ 100+ S-1 SS 18 16 ISM) RESIDUAL -SILTY FINE TO MEDIUM SAND, Brown, Moist, Medium Dense ISM) SILTY FINE TO MEDIUM SAND, Tan and Brown, Moist, Dense S-2 SS 18 18 S-3 SS 18 14 ISM) SILTY FINE TO MEDIUM SAND, Tannish Gray, Moist, Very Dense S-4 SS 18 14 ISM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Gray, Moist S-5 SS 15 10 S-6 SS 11 9 S-7 SS 9 9 END OF BORING @ 25' THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. 4 WL GNE WS❑ WD® BORING STARTED 06/05/15 CAVE IN DEPTH @21.2' S WL(BCR) t WL(ACR) GNE BORING COMPLETED 06/05/15 HAMMER TYPE Auto , S2 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET �l Childress Klein Properties 10919 B-10 1 OF 1 'C PROJECT NAME ARCHITECTENGINEER Afton Ridge Industrial - DTR 1_ SITE LOCATION CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING FASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w z N LIMIT% CONTENT% LIMIT% _ p Z F a ¢ BOTTOM OF CASING ID LOSS OF CIRCULATION � n • w O i d > > OU SURFACE ELEVATION 660 r w 3: ® STANDARD PENETRATION w ¢ ¢ ¢ w 3 w of BLOWSIFr To soil Depth 1" (SC) RESIDUAL -CLAYEY FINE TO MEDIUMNO S-1 SS 18 12 SAND, Brown to Black and Brown, Moist, 4 9 17 Medium Dense B 7 S-2 SS 18 8 n !26 5 655 15 9 S-3 SS 18 9 12 17 29 50I0 AUGER REFUSAL @ 8.5' 10D+ 10 650 15 645 20 640 25 635 30 630 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE WS❑ Wog BORING STARTED 06/15/15 CAVE IN DEPTH @6,9' 7 WL(BCR) -L WL(ACR) GNE BORING COMPLETED 06/15/15 HAMMER TYPE Auto YZ WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET �r Childress Klein Properties 10919 B-11 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR =1_ SITE LOCATION CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS w z LIMIT% CONTENT% LIMIT% p z a o a BOTTOM OF CASING LOSS OF CIRCULATION w J a w W> O ¢ w r w , u 30 STANDARD PENETRATION SURFACE ELEVATION 66Q o w m m ¢ 3 w m BLOWS/FT To soilDepth 2" bbu (SM) RESIDUAL - SILTY FINE TO MEDIUM s S-1 SS 18 9 SAND, Brown, Moist, Medium Dense 11 26 15 9 S-2 SS 18 18 - e ! 18 5 655 10 (SM) SILTY FINE TO MEDIUM SAND, Tannish S-3 SS 18 16 Brown, Moist, Dense to Very Dense 9 13 20 33 12 S-4 SS 18 12 19 10 650 36 26 S-5 SS 18 18 24 4 5 645 25 (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Gray, S-6 SS 11 11 Moist sais ! 100+ END OF BORING @ 19.5' pp - 640 25 635 30 630 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. QWL GNE w5❑ WDM BORING STARTED 06/05/15 CAVE IN DEPTH @16.9' WL(BCR) = WL(ACR) GNE BORING COMPLETED 06/05/15 HAMMER TYPE Auto 5= WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB 4 BORING # SHEET Childress Klein Properties 10919 B-12 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ride Industrial - DTR— —=1_ SITE LOCATION -Q- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% n w F z F o z ¢ > Ov DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION > O j ¢ w u7 3: •�V ® STANDARD PENETRATION BLOWS/FT SURFACE ELEVATION 672 To soil Depth 3" (SM) RESIDUAL - SILTY FINE TO MEDIUM SAND, Dark Brown, Moist, Dense 670 BB zo 2° a S-1 SS 16 6 - 12 so/3 too, (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Dark Brown, Moist S-2 SS 9 9 5 50/2 too+ 2 t BE 665 solo AUGER REFUSAL @ 8.5' 100+ TO 660 is s55 20 s50 25 645 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL GNE wso WD® BORING STARTED 06/11/15 CAVE IN DEPTH @7' Q WL(BCR) ! WUACR) GNE BORING COMPLETED 06/11/15 HAMMER TYPE Auto 4 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING N SHEET �I Childress Klein Properties 10919 B-13 1 OF 1 EA PROJECT NAME ARCHITECT -ENGINEER - Afton Ridge Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus County, NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING FASTING STATION ROD% - - - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% E n a i a E m w w n uQi Z - r o w d w Y ¢ w O p ¢ DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING ID LOSS OF CIRCULATION � L w O '¢" r- w w Z. 3 O m •� ® STANDARD PENETRATION BLOWS/FT SURFACE ELEVATION 652 To soil Depth 2" (SM) RESIDUAL - SILTY FINE TO MEDIUM SAND, Pinkish to Orangish Brown, Moist, Dense to Very Dense ,650 11 t5 17 32 S-1 SS 18 10 n t5 :36 S-2 SS 18 16 5 21 645 16 23 33 56 S-3 SS 18 18 0 8 530/4 100+ ISM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Gray, Moist S-4 SS 10 10 640 sols 100+ 5 15 END OF BORING @ 15' 635 20 630 25 625 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. =Z WL GNE wso WD® BORING STARTED 06/04/15 CAVE IN DEPTH @ 11.7 Q WL(BCR) 2 WL(ACR) GNE BORING COMPLETED 06/04/15 HAMMER TYPE Auto SZ WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB # BORING# SHEET �I Childress Klein Properties 10919 B-14 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv, NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w i LIMIT% CONTENT% LIMIT% LL z F 0 ; BOTTOM OF CASING ID LOSS OF CIRCULATION w O SURFACE ELEVATION 652 a wW > W> 00 ¢ < w v 3: ® STANDARD PENETRATION a m h y ¢ r 3 w m BLOWS/FT To soil Depth 2" ISM) RESIDUAL - SILTY FINE TO MEDIUM S-1 SS 18 18 SAND, Brown, Moist, Medium Dense 6 1 650 n ISM) SILTY FINE TO MEDIUM SAND, Tannish S-2 SS 18 14 Brown, Moist, Medium Dense 8 10a 5 14 10 S-3 SS 18 16 1645 t3 ;36 23 ISM) SILTY FINE TO MEDIUM SAND, S a SS 18 a Brownish Tan, Moist, Dense to Very Dense 13 10 31 50 640 16 S-5 SS 18 14 25 75 15 50 END OF BORING @ 15' - 635 20 630 25 625 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. 4 WL GNE w5❑ WD® BORING STARTED 06/04/15 CAVE IN DEPTH @ 12.2' 4 WL(BCR) * WL(ACR) GNE BORING COMPLETED 06/04/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING 9 SHEET Childress Klein Properties 10919 B-15 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ride Industrial - DTR1_ SITE LOCATION -0- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Count NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING FASTING STATION ROD% - — - REG% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% _ LL w r i F a i 2 DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION w • v SURFACE ELEVATION 668 o y m tail > 00 ¢ a r w 3 w u 3: m ® STANDARD PENETRATION BLOWS/FT To soil Depth 2" ISM) RESIDUAL - SILTY FINE TO MEDIUM SAND, Contains Slight Roots, Tannish Brown, s 13 , 30 S-1 SS 16 7 Moist, Medium Dense 17 (ML) SANDY SILT, Contains Slight Mica, Orangish Brown, Moist, Very Stiff 665 10 251♦ :ze S-2 SS 1B 1e 5 18 1a 29 a9 (SM) SILTY FINE TO MEDIUM SAND, Contains Slight Mica, Grayish to Orangish Brown, Moist, Very Dense S-3 SS 18 18 10 660 18 34 5015 100+ ISM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Gray, y Moist S-4 SS 17 12 _ 655 6414 100+ S-5 SS 10 10 AUGER REFUSAL @ 14.4' 15 650 20 645 25 640 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. INSITUTHE TRANSITION MAY BE GRADUAL. S7 WL GNE WS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @12.9' Q WL(BCR) * WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto S2 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB % BORING N SHEET �I Childress Klein Properties 10919 B-16 1 OF 1 /j EA PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR t�l SITE LOCATION �- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w r z LIMIT% CONTENT% LIMIT% p Z r 0 Q BOTTOM OF CASING LOSS OF CIRCULATION SURFACE ELEVATION 646 a w > 00 ¢ r r w u 30 ® STANDARD PENETRATION BLOWS/FT (DEBRIS FILL), Contains Concrete, White, Dry sas (CL FILL) SANDY CLAY, Contains Slight Roots, S-1 SS 1e 1B Dark Brown, Moist, Medium Stiff z s a T2SS (CH FILL) PLASTIC CLAY, Contains Slight 18 18 Roots, Dark Brown, Moist, Medium Stiff 2 3 6 5 3 640 (CH FILL) PLASTIC CLAY, Contains Slight S3 SS 18 16 Roots, Dark Brown, Moist, Very Soft 3 1 2 1 — (CH FILL) PLASTIC CLAY, Contains Wood, S-4 SS 18 10 Dark Brown, Moist, Soft 3 I 10 r s 3 4 635 AUGER REFUSAL @ 11 15 630 20 625 25 620 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q wL GNE WS❑ WDZ BORING STARTED 06/08/15 CAVE IN DEPTH WLIBCR) WL(ACR) GNE BORING COMPLETED 06/08/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB # BORING # SHEETr Childress Klein Properties 10919 B-17 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR r1_ SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REG% PLASTIC WATER LIOUID z DESCRIPTION OF MATERIAL ENGLISH UNITS m 3 m LIMIT% CONTENT% LIMIT% z r y 2 BOTTOM OF CASING LOSS OF CIRCULATION 29� w zO o x a w M M > SURFACE ELEVATION 668 ¢ a r > l 3 ®STANDARD PENETRATION o y ¢ 3 w m BLOWS/FT ran ran To soil Depth 2" (SM) RESIDUAL- SILTY FINE TO MEDIUM 12 S-1 SS 18 16 SAND, Brown, Moist, Dense 17 31 14 (ML) SANDY SILT, Reddish to Orangish Brown, 665 S-2 SS 18 18 Moist, Very Stiff to Stiff s 7 18 5 tt 5 S-3 SS 18 16 6 14 8 660 5 T4SS 18 16 5 13 10 6 655 5 S-5 SS 18 16 6 13 15 7 (SM) SILTY FINE TO MEDIUM SAND, Tannish Brown, Moist, Medium Dense 650 4 S-6 SS 18 18 6 13 20 END OF BORING @ 20' 645 25 640 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. �WL GNE wso WD® BORING STARTED 06/08/15 CAVE IN DEPTH @16.9' =Q WL(BCR) WL(ACR) GNE BORING COMPLETED 06/08/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING N SHEET �I Childress Klein Properties 10919 B-18 1 OF 1 EA� PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR SITE LOCATION -Q- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS w F z LIMIT% CONTENT% LIMIT% _ Z a BOTTOM OF CASING LOSS OF CIRCULATION w ^ •�, V J O SURFACE ELEVATION 632 2 J J w w O0 FZil w w O ® STANDARD PENETRATION o N y A a 3 w m BLOWS/FT - To soil Depth 2" 5 (SC) CLAYEY FINE TO MEDIUM SAND, S-1 SS 18 16 Reddish Tan, Moist, Medium Dense IT 26 630 18 (CL) RESIDUAL - SANDY CLAY, Tannish Gray, S12 SS 18 18 Moist, Very Stiff 18 2 5 18 _ 8 S-3 SS 18 16 625 ID 2 2 (SC) CLAYEY FINE TO MEDIUM SAND, S-4 SS 18 18 Reddish Gray, Wet, Medium Dense a 5 1 10 620 (SM) SILTY FINE TO MEDIUM SAND, Brownish Gray, Wet, Medium Dense a S3 SS 18 18 a 12: 15 e END OF BORING @ 15' 615 20 610 25 605 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE WS❑ WD® BORING STARTED 06/08/15 CAVE IN DEPTH @ 12.2' Q WUBCR) T WUACR) GNE BORING COMPLETED 06/08/15 HAMMER TYPE AUTO Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING N SHEETr Childress Klein Properties 10919 B-19 1 OF 2 PROJECT NAME ARCHITECT -ENGINEER UN Afton Ridge Industrial - DTR r1_ SITE LOCATION "o- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus County, NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING . STATION ROD% - — - REC% — PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS z LIMIT% CONTENT% LIMIT% Z a 2 BOTTOM OF CASING LOSS OF CIRCULATION w LL 2 a J M J J W > OU SURFACE ELEVATION 676 J O Q Q r w b ® STANDARD PENETRATION o y vai h ¢ 3 w m BLOWS/FT To soil Depth 2" (MITI) RESIDUAL - ELASTIC SILT, Reddish 675 4 . S-1 SS 18 16 Brown, Moist, Stiff B 14 e ' (ML) SANDY SILT, Reddish to Orangish Brown, S-2 SS 18 16 Moist, VeryStitt to Stiff B 7 17 5 10 670 5 S-3 SS 18 18 6 13 7 3 4 1 34� + — -�48 S-4 SS 18 18 0 B T 3%6 665 ' (SM) SILTY FINE SAND, Orangish Tan, Moist, Loose 3 S-5 SS 18 16 3 15 5 660 (SM) SILTY FINE TO MEDIUM SAND, Tannish Gray, Moist, Medium Dense 4 S-6 SS 18 18 4 11 20 7 655 4 S-7 SS 18 18 5 13 25 B 650 5'. ! S-8 SS 18 6 15 30 I r18 B ON NEXT PAGE. CONTINUED THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. 4 WL GNE wS❑ WD® BORING STARTED 06/10/15 CAVE IN DEPTH @a 31,4' Y WHBCR) * WL(ACR) GNE BORING COMPLETED 06/10/15 HAMMER TYPE Auto WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET-t Childress Klein Properties 10919 B-19 2 OF 2 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - - - REC% - PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w LIMIT% CONTENT% LIMIT% Z r o a BOTTOM OF CASING LOSS OF CIRCULATION w O Z. SURFACE ELEVATION 676 x w w Q a > r3 ¢ a > 3 ®STANDARD PENETRATION o ¢ m ¢ 3 w m BLOWSIFT (SM) SILTY FINE TO MEDIUM SAND, Tannish 645 Gray, Moist, Medium Dense 5 S-9 SS 18 18 7 17 35 0 END OF BORING @ 35' 640 40 635 45 630 50 625 55 620 60 615 THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE WS❑ WDED BORING STARTED 06/10/15 CAVE IN DEPTH @ 31.4- WL(BCR) WL(ACR) GNE BORING COMPLETED 06/10/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB k BORING k SHEET �I Childress Klein Properties 10919 B-20 1 OF 1 (��1 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR r r_ SITE LOCATION -o- CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS w _ 3 LIMIT% CONTENT% LIMIT% O r L > BOTTOM OF CASING LOSS OF CIRCULATION LL Z H O ¢ O SURFACE ELEVATION 660 iL w W w w F w > 3 ® STANDARD PENETRATION o y y ¢ 3 w BLOWS/FT ran ai To soil Depth 3" (MIA) RESIDUAL - ELASTIC SILT, Contains S-1 SS 18 14 Slight Roots, Dark Reddish Brown, Moist, Very B 2 Stiff (SM) SILTY FINE TO MEDIUM SAND, Reddish 5-2 SS 18 18 Brown, Moist, Medium Dense to Loose 5 11 5 655 B 3 S-3 SS 18 16 5 10 5 (SM) SILTY FINE TO MEDIUM SAND, S-4 SS 18 12 Greenish Tan, Moist, Loose to Medium Dense 3 3 7 10 650 a I s S-5 SS 18 16 6 1i4 is sas 3 END OF BORING @ 15' 20 640 25 635 30 630 THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOILTYPES. INSITUTHE TRANSITION MAY BE GRADUAL. SZ WL GNE Ws El WD21 BORING STARTED 06/10/15 CAVE IN DEPTH @ 11.1' WL(BCR) = WL(ACR) GNE BORING COMPLETED 06/10/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING # SHEET ��/,�,I Childress Klein Properties 10919 B-21 1 OF 2 �1 PROJECT NAME ARCHITECT -ENGINEER �� Afton Ridge Industrial - DTR SITE LOCATION -0- CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION RQD% - — - REC% — PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w i m r LIMIT% CONTENT% LIMIT% F BOTTOM OF CASING LOSS OF CIRCULATION D w •� t a > 00 SURFACE ELEVATION 689 ¢ ¢ r w J 30 ® STANDARD PENETRATION o h y N ¢ 3 w m BLOWS/FT - To soil Depth 2" (MH) RESIDUAL- ELASTIC SILT, Contains 6 S-1 SS 18 18 Slight Roots, Reddish Brown, Moist, Sliff- 5 13 e (ML) SANDY SILT, Contains Slight Roots, 18 12 _T2SS Reddish Brown, Moist, Stiff 685 5 5 121 5 7 (MH) ELASTIC SILT, Reddish Brown to S-3 SS 18 18 Reddish Tan, Moist, Stiff 5 5 13 24'i.3♦ 59-9-50 8 (SM) SILTY FINE TO MEDIUM SAND, Reddish S-4 SS 18 10 Brown to Reddish Tan, Moist, Medium Dense 680 5 6 14 10 6 675 4 5 11 S-5 SS 18 18 15 6 (SM) SILTY FINE TO MEDIUM SAND, Reddish to Tannish Brown, Moist, Medium Dense 670 4 6 14 S-6 SS 18 12 20 6 665 4 5 11 S-7 SS 18 16 25 6 660 5 6 14 S-8 SS 18 18 30 Ear - 6 ON NEXT PAGE. CONTINUED THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL GNE WS❑ WD® BORING STARTED 06/10/15 CAVE IN DEPTH @357 I WL(BCR) -i WL(ACR) GNE BORING COMPLETED 06/10/15 HAMMER TYPE Auto -7- WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET y Childress Klein Properties 10919 B-21 2 OF 2 EA PROJECT NAME ARCHITECT -ENGINEER - Afton Ridge Industrial - DTR r=r_ SITE LOCATION �- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w z N LIMIT% CONTENT% LIMIT% z o a BOTTOM OF CASING LOSS OF CIRCULATION � w O 0 SURFACE ELEVATION 689 a OO r w 30 ® STANDARD PENETRATION o ran y y a 3 w m BLOWS/FT (SM) SILTY FINE TO MEDIUM SAND, Reddish to Tannish Brown, Moist, Medium Dense. 655 8 t1 26 S-9 SS 18 18 35 15 650 6 s 2 S-10 SS 18 12 40 END OF BORING @ 40- 645 45 640 50 635 55 630 60 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL GNE AS❑ WD® BORING STARTED 06/10/15 CAVE IN DEPTH @35.T Q WUBCR) -T WL(ACR) GNE BORING COMPLETED 06/10/15 HAMMER TYPE Auto WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING SHEET fr__of Childress Klein Properties 10919 B-22 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR— SITE LOCATION CALIBRATED PENETROMETER TONSIFTZ 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION RQD% - — - REC% — PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS w Z _ r LIMIT% CONTENT% LIMIT% LL r a BOTTOM OF CASING 10 LOSS OF CIRCULATION w O b SURFACE ELEVATION 668 a J J J > 00 2 r w 3: ® STANDARD PENETRATION a y m h ¢ 3 w 0 BLOWS/FT To soil Depth 2" (MH) RESIDUAL- ELASTIC SILT, Dark y S-1 SS 18 1B Reddish Brown, Moist, Very Stiff s 1 _ 10 (MH) ELASTIC SILT, Reddish Tan to Reddish - 665 S-2 SS 18 12 _ Brown, Moist, Stiff 4 5 5 31.3 4 S3 SS 18 16 5 11 _ 6 - 660 (SM) SILTY FINE SAND, Tannish Brown, Moist, S-4 SS 18 12 _ Loose to Medium Dense 3 4 8 10 ° 655 3 S 5 S-5�Ss 18 18 7 1:4 5 T - (ML) SANDY SILT, Yellowish Tan, Moist, Stiff 650 4 _ S-6 SS 18 18 4 12: 20 6 645 4 _ S-7 SS 18 18 5 13 25 8 END OF BORING @ 25' 640 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. 4 WL GNE WS❑ WD® BORING STARTED 06/10/15 CAVE IN DEPTH @21.3' WL(BCR) t- WL(ACR) GNE BORING COMPLETED 06/10/15 HAMMER TYPE Auto 4 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING k SHEET �I Childress Klein Properties 10919 B-23 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Rid a Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS W z y J LIMIT% CONTENT% LIMIT% _ z r r o ¢ BOTTOM OF CASING LOSS OF CIRCULATION w O ^ 0 2 a E > 00 SURFACE ELEVATION 670 ¢ r > u 3 ®STANDARD PENETRATION w O ¢ N ¢ N ¢ 2 3 w m BLOWS/FT To soil Depth[3"1 to 5 (MH) RESIDUAL - ELASTIC SILT, Dark S-1 SS 18 16 Reddish Brown, Moist, Stiff 6 1 6 (MH) ELASTIC SILT, Reddish Brown, Moist, S-2 SS 18 18 Very Stiff to Stiff e 11 25 5 665 14 5 S-3 SS 18 18 _ 6 13 31.74.0 39-X — --&-63 7 (ML) SANDY SILT, Contains Mica, Reddish S-a SS 18 1a Brown, Moist, Stiff n 10 660 5 3 S-5 SS 18 18 4 15 655 5 5 S-6 SS 18 12 5 12', 20 650 7 _ (SM) SILTY FINE TO MEDIUM SAND, Tannish Brown, Moist, Medium Dense 5 S-7 SS 18 12 6 13 25 say 7 END OF BORING @ 25' 30 640 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE WS❑ WDN BORING STARTED 06/09/15 CAVE IN DEPTH @21.1' 9= WL(BCR) 1 WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET �I Childress Klein Properties 10919 B-24 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton - DTR LOCRid CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w z' LIMIT% CONTENT% LIMIT% i N a ; BOTTOM OF CASING LOSS OF CIRCULATION w SURFACE ELEVATION 640 a > > OU r ¢ O r w ® STANDARD PENETRATION w a ¢ h ¢ m ¢ w ¢ 3 w m BLOW SIFT To soil De th 3"640 (SM) RESIDUAL - SILTY FINE TO MEDIUM S-1 SS 18 9 SAND, Dark Brown, Moist, Medium Dense e s 13 (ML) SANDY SILT, Reddish to Tannish Brown, S-2 SS 18 16 MoistStiff , 3 4 9 5 635 6 4 S-3 SS 18 18 5 11 6 3 S-4 SS 18 18 4 0 630 B ISM) SILTY FINE TO MEDIUM SAND, Tannish Gray, Moist, Medium Dense 4 S-5 SS 18 16 4 12; 15 625 8 END OF BORING @ 15' 20 620 25 615 30 610 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. SZ WL GNE wso WD® BORING STARTED 06/09/15 CAVE IN DEPTH @ 12' WL(BCR) = WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE AUSO S WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H,S,A CLIENT JOB BORING# SHEET �1 Childress Klein Properties 10919 RW-25 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Rid e Industrial - DTR=I_ SITE LOCATION CALIBRATED PENETROMETER TONS/FT' 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS w Z r LIMIT% CONTENT% LIMIT% OZ o iL BOTTOM OF CASING ID LOSS OF CIRCULATION 9 w �� SURFACE ELEVATION 650 x i wt. W f > r; ¢ < r w v ®STANDARD PENETRATION N N < ¢ 3 W m BLOWS/FT To soil Depth 2" ISM FILL) SILTY FINE TO MEDIUM SAND, T S-1 SS 18 12 Dark Brown, Moist, Medium Dense T 75 6 (CL FILL) SANDY CLAY, Dark Brown, Moist, S-2 SS 18 18 Very Stiff 5 a 16 5 645 B (CH FILL) PLASTIC CLAY, Dark Brown, Moist, S-3 SS 18 12 Medium Stiff 2 3 6 3 (CH FILL) PLASTIC CLAY, Contains Wood, S-4 SS 18 14 Dark Brown and Gray, Moist, Very Soft 2 1 2 10 640 1 'e 6 (SM) RESIDUAL- SILTY FINE TO MEDIUM S-5 SS 18 18 9 28 15 SAND Oran ish Tan Moist Medium Dense 635 19 END OF BORING @ 15' 20 630 25 625 30 620 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. 4 WL GNE wso WD21 BORING STARTED 06/04/15 CAVE IN DEPTH @n 12.4' !E WL(BCR) 1 WL(ACR) GNE BORING COMPLETED 06/64/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING N SHEET y Childress Klein Properties 10919 RW-26 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT° 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - - - REC% - PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w z m LIMIT% CONTENT% LIMIT% LL z F o BOTTOM OF CASING LOSS OF CIRCULATION w z w w a OU SURFACE ELEVATION 649 w w ® STANDARD PENETRATION w 0 ¢ N ¢ U ¢ V w 2 3 w m BLOWSIFT To soil De th 1" ISM) RESIDUAL- SILTY FINE TO MEDIUM S-1 SS 18 16 SAND, Reddish Brown, Moist, Medium Dense s 6 6 12 3B; (CL) SANDY CLAY, Reddish Brown, Moist, S-2 SS 18 18 Hard to Ve Stiff ry sas 8 12 5 26 B S-3 SS 18 18 11 126 15 (ML) SANDY SILT, Greenish Tan, Moist, Hard S-4 SS 18 16 640 3 13 31 10 B (SM) SILTY FINE TO MEDIUM SAND, Dark Gray, Moist, Medium Dense'. S-5 SS 18 18 635 s7 15 15 9 END OF BORING @ 15' 630 20 625 25 620 30 THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE WS❑ WDX BORING STARTED 06/04/15 CAVE IN DEPTH @12.0' WL(BCR) = WL(ACR) GNE BORING COMPLETED 06/04/15 HAMMER TYPE Auto = WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET Childress Klein Properties 10919 RW-27 1 OF 1 PROJECT NAME ARCHITECTENGINEER-- Afton Ridge Industrial - DTR —=1_ SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING EASTING STATION ROD% - — - REC% PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS Z LIMITYo CONTENT% LIMIT% Oz r o ¢ BOTTOM OF CASING LOSS OF CIRCULATION �• 7� u w m SURFACE ELEVATION 636 a w J J w OU r w > 3 ® STANDARD PENETRATION a y y ¢ 3 w BLOWS/FT vQi Bi (SM FILL) SILTY SAND, Reddish Brown, Moist, Loose 635 B S-1 SS 18 12 2 4 6 4' SS111 (DEBRIS FILL), Contains Significant Wood, S-2 SS 17 12 Brown 5 5 i' 'w+ 630 50n ! 50/1 -3 1 1 t- AUGER REFUSAL @ 7.0' 10 625 15 620 20 615 25 610 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOILTYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL GNE wS❑ WD0 BORING STARTED 06/04/15 CAVE IN DEPTH @4.9' WL(BCR) = WLIACR) GNE BORING COMPLETED 06/04/15 HAMMER TYPE AUto 4 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB # BORING N SHEET t, y Childress Klein Properties 10919 RW-28 1 OF 1 EA PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR r=y_ SITE LOCATION CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus CountV, INC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — — REC% — PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w F z LIMIT% CONTENT% LIMIT% Oz a r BOTTOM OF CASING 10 LOSS OF CIRCULATION a J Q SURFACE ELEVATION 638 r aaaO w ®STANDARD PENETRATION w ¢ ¢ BLOWSIFT o h m yn ¢ 3 w m To soil Depth 2" (ML) RESIDUAL -SANDY SILT, Dark Reddish 6 S-1 SS 18 18 Brown, Moist, Very Stiff B 2 _ 11 635 (ML) SANDY SILT, Reddish Brown to Orangish S-2 SS 18 14 Tan, Moist, Stiff 5 6 1� 5 7 5 S-3 SS 18 18 6 75 i 9 630 5 S-4 SS 18 16 7 15 10 6 ISM) SILTY FINE TO MEDIUM SAND, Tan, Moist, Medium Dense 625 — 7 — S-5 SS 18 12 s 1 15 _ 10 END OF BORING @ 15' I 620 20 615 25 610 30 THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE WS❑ WDIS BORING STARTED 06/04/15 CAVE IN DEPTH @ 11.6' WL(BCR) t WL(ACR) GNE BORING COMPLETED 06/04/15 HAMMER TYPE Auto 4 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET Childress Klein Properties 10919 RW-29 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR r1_ SITE LOCATION -Q- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w z LIMIT% CONTENT% LIMIT% _ Z r F a BOTTOM OF CASING ID LOSS OF CIRCULATION w X w 0 2 a w w w M SURFACE ELEVATION 638 w w O ® STANDARD PENETRATION w o a w a w a w ¢ < w 3 m BLOWS/FT To soil Depth 3" (MH) RESIDUAL - ELASTIC SILT, Reddish S-1 SS 18 14 Brown, Moist, Very Stiff 6 7 ! 17 10 635 ISM) SILTY FINE TO MEDIUM SAND, Reddish S-2 SS /0 16 Tan, Moist, Medium Dense 6 8 1 5 11 6 S-3 SS 18 12 6 14 8 630 (ML) SANDY SILT, Tannish Brown, Moist, Stiff 4 S-4 SS 18 12 4 1 10 6 625 4 S-5 SS 18 10 4 10-0 15 6 END OF BORING @ 15' 620 20 615 25 610 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. 4 WL GNE wso WD® BORING STARTED 06/04/15 CAVE IN DEPTH @ 11.0' WL(BCR) t WL(ACR) GNE BORING COMPLETED 06/04/15 HAMMER TYPE Auto 4 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING k SHEET Childress Klein Properties 10919 RW-30 1 OF 1 �$1 ��,,I PROJECT NAME ARCHITECT -ENGINEER ��j+�7J;, Afton Rid e Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER. LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w z y LIMIT% CONTENT% LIMIT% r F o 2 BOTTOM OF CASING LOSS OF CIRCULATION 2 w w 0 Q r a a n > SURFACE ELEVATION 632 ¢ r w 3: 18 STANDARD PENETRATION o y m u� ¢ 3 w m BLOWS/FT To soil Depth 2" (SM) RESIDUAL - SILTY FINE TO MEDIUM 15 S-1 SS 18 9 SAND, Tannish Brown, Moist, Dense 3a 630 1' n (CL) SANDY CLAY, Reddish Brown, Moist, S21 SS 18 18 Very Stiff s 9 ` 74 5 15 42 (SM) SILTY FINE SAND, Dark Brown and S-3 SS 18 18 Green, Moist, Dense 15 18 625 24 %57 (SM) SILTY FINE TO MEDIUM SAND, Brown, S-4 SS 18 16 Moist, Very Dense 19 zs 10 31 620 (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Gray, Moist, Extremely Dense 29 50/5 S-5 SS 11 1 t 5015 END OF BORING @ 14.5' 15 615 20 610 25 605 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. 27 WL GNE wso WD® BORING STARTED 06/04/15 CAVE IN DEPTH @11.9' 3= WL(BCR) I WL(ACR) GNE BORING COMPLETED 06/04/15 HAMMER TYPE Auto WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING # SHEET �I Childress Klein Properties 10919 RW-31 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER US Afton Ridge Industrial - DTR=1_ SITE LOCATION -o- CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w r z LIMIT% CONTENT% LIMIT% O Z a o a BOTTOM OF CASING LOSS OF CIRCULATION w Z a w SURFACE ELEVATION 618 O r w w ® STANDARD PENETRATION BLOWSIFT Ta soil Depth 3" 3 (SM FILL) SILTY FINE TO MEDIUM SAND, S-1 SS 18 18 Contains Slight Roots, Dark Brown, Moist, 3 6 Loose 3 615 3 S-2 SS 18 16 3 5 5 2 ' (CH) ALLUVIAL PLASTIC CLAY, Greenish s-3 ss 18 18 Gray, Wet, Very Soft 2 - 610 (SM) RESIDUAL - SILTY FINE TO MEDIUM S-4 SS 18 12 SAND, Contains Mica, Dark Gray, Wet, Loose 2 2 5 10 3 605 i 3 S-5 SS 18 18 3 15 6 END OF BORING @ 15' 600 20 595 25 590 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL 13.4 wso WON BORING STARTED 06/09/15 CAVE IN DEPTH @9.3' =E WL(BCR) 1- WL(ACR) 8.0 BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO2400 FOREMAN Cody DRILLING METHOD 2.25H.S.A CLIENT JOB k BORING N SHEET f Childress Klein Properties 10919 RW-32 1 OF 1 EA PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - - - REC% - PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS w - F z LIMIT% CONTENT% LIMIT% O Z > o > BOTTOM OF CASING wi LOSS OF CIRCULATION ¢ J O SURFACE ELEVATION 656 u > ¢ r > u 3 ®STANDARD PENETRATION o h m ug ¢ 3 w m BLOWSIFT \Topsoil Depth (1 ") 655 (SM) RESIDUAL - SILTY FINE TO MEDIUM S-1 SS 18 12 SAND, Dark Brown, Moist, Medium Dense 7 B 17 9 (CL) SANDY CLAY, Dark Brown, Moist, Very S-2 SS 18 16 _ Stiff 8 11 26 5 15 650 7 S-3 SS 18 18 8 21 13 — (ML) SANDY SILT, Orangish Tan, Moist, Hard S-4 SS 18 18 to Very Stiff ry s 12 31 10 19 645 6 S-5 SS 18 18 7 :16 15 9 END OF BORING @ 15' 640 20 635 25 630 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. Q WL GNE WS❑ WD 23 BORING STARTED 06/10/15 CAVE IN DEPTH @ 12,2' WL(BCR) 1 WL(ACR) GNE BORING COMPLETED 06/10/15 HAMMER TYPE Auto 4- WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H,S.A CLIENT JOB 4 BORING k SHEET �I Childress Klein Properties 10919 RW-33 1 OF 1 FS3 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR F1_ SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS z LIMIT% CONTENT% LIMIT% ^ z r a ¢ BOTTOM OF CASING LOSS OF CIRCULATION w O s� a > > > >> O SURFACE ELEVATION 636 ¢ r r > 3 ® STANDARD PENETRATION o w m m ¢ 3 w m BLOWS/FT To soil Depth 3" (MH) RESIDUAL - ELASTIC SILT, Reddish 635 5 S-1 SS 18 14 Brown, Moist, Stiff 6 12' 6 (ML) SANDY SILT, Tannish Brown, Moist, Very S-2 SS 18 18 Stiff 5 6 1 5 tt 630 5 S-3 SS 18 18 6 18 10 ISM) SILTY FINE SAND, Light Gray to Brown, S-4 SS 18 10 Wet, Loose to Medium Dense s 3 7 10 4 625 5 S-5 SS 18 14 8 1 15 END OF BORING @ 15' s20 20 615 2s 610 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE wso WDIZ BORING STARTED 06/09/15 CAVE IN DEPTH @11.9' WL(BCR) = WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING N SHEET (— Childress Klein Properties 10919 RW-34 1 OF 1 EA� PROJECT NAME ARCHITECT -ENGINEER Afton Ride Industrial - DTR —=1_ SITE LOCATION CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% c 4 i a o Z y w < i F G m Z 2 > oO 2 DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING 10 LOSS OF CIRCULATION w O ¢ < r w 3 w J p m ® STANDARD PENETRATION BLOWSIFT SURFACE ELEVATION 62Q To soil Depth 3" 6 8 2 S-1 SS 18 12 (SC) RESIDUAL - CLAYEY FINE TO MEDIUM SAND, Dark Brown, Moist, Medium Dense 12 (CL) SANDY CLAY, Dark Reddish Brown to S-2 SS 18 18 Dark Brown, Moist, Stiff 6 1%1 5 615 B 4 4 12 S-3 SS 18 18 8 _ 7 14 32 (SC) CLAYEY FINE TO MEDIUM SAND, Reddish Tan, Wet, Dense F-01610 S-4 SS 18 12 10 18 (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tan, Wet S-5 SS 11 11 Saes 100+ END OF BORING @ 14.5' 15 605 20 600 25 595 30 590 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES, IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL 8.4 WS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @ 11.9' Q WUBCR) 7 WUACR) BORING COMPLETED 06/09/15 HAMMER TYPE Auto WL RIG SiMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB N BORING N SHEET �I Childress Klein Properties 10919 SW-35 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER 9N Afton Ridge Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus County, INC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING FASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID i DESCRIPTION OF MATERIAL ENGLISH UNITS w r z LIMIT% CONTENT% LIMIT% _ Z r C 2 BOTTOM OF CASING I* LOSS OF CIRCULATION � w O n •�V w u w f 00 SURFACE ELEVATION 644 r w w 30 ® STANDARD PENETRATION o m ug ¢ 3 w m BLOWS/FT To soil Depth 1" 10 (SM) REDIUAL - SILTY FINE TO MEDIUM S-1 SS 18 18 SAND, Dark Brown, Moist, Dense 13 33 2° (SM PWR) PARTIALLY WEATHERED ROCK -2 ° SAMPLED AS SILTY SAND, Dark Gray, Moist 640 50" 1 oD+ 5 — 5012 100+ -3 2 AUGER REFUSAL @ 6.5' 635 10 630 15 625 20 620 25 615 30 THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOILTYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. 4 WL GNE wS❑ woo BORING STARTED 06/09/15 CAVE IN DEPTH @5,0' Q WL(BCR) X- WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto S2 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING SHEET 1 Childress Klein Properties 10919 SW-36 1 OF 1 fF1i1 PROJECT NAME ARCHITECT -ENGINEER Afton Ride Industrial - DTR SITE LOCATION -0- CALIBRATED PENETROMETER TONSIFTZ 6979 Untz Road Concord Cabarrus County, NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING FASTING STATION ROD% - - - REC% - PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w z LIMIT% CONTENT% LIMIT% OZ r r o a BOTTOM OF CASING 10 LOSS OF CIRCULATION w 4 SURFACE ELEVATION 664 a w f 2 > ¢ c w h 30 I& STANDARD PENETRATION a y N < ¢ 3 w m BLOWSIFT To soil Depth 1" (SM) RESIDUAL - SILTY FINE TO MEDIUM 5 S-1 SS 18 16 SAND, Brownish Gray, Moist, Medium Dense s 2 u 660 9 n 29 S-2 SS 18 18 5 18 9 S-3 SS 18 18 12 2 n 655 8 y S-4 SS 18 16 10 END OF BORING @ 10' 650 15 645 20 640 25 635 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL GNE WS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @7,B' =_ WL(BCR) L WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto 4 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB k BORING N SHEET �I Childress Klein Properties 10919 SG 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR 1_ SITE LOCATION �- CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS w F z LIMIT% CONTENT% LIMIT% O > N BOTTOM OF CASING LOSS OF CIRCULATION > z H, o ¢ J g Z. a w > OC SURFACE ELEVATION 630 r > 3 I& STANDARD PENETRATION o < vi 3i ¢ 3 w m BLOWSIFT To soil De th 2" (SM) RESIDUAL -SILTY FINE TO MEDIUM S-1 SS 18 7 SAND, Dark Brown to Tannish Gray, Moist, a 18 Medium Dense 10 7 S-2 SS 181 16 10 21 5 625 11 6 S-3 SS 18 13 B i 16 e 5'. S-4 SS 18 14 6 10 620 END OF BORING @ 10' 15 615 20 610 25 605 30 600 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =AWL GNE WS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @7.2' 7 WL(BCR) 1 WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET Childress Klein Properties 10919 SW-38 1 OF 1 (1 EA PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR SITE LOCATION -Q- CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus County, NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING EASTING STATION ROD% — — — REC%' — PLASTIC WATER LIQUID z DESCRIPTION OF MATERIAL ENGLISH UNITS LIMIT% CONTENT% LIMIT% ^ LL Z ~ o i[ BOTTOM OF CASING LOSS OF CIRCULATION w O ^' a m J J m 00 r r w n 30 I& STANDARD PENETRATION SURFACE ELEVATION 640 o m y m ¢ 3 w - BLOWSIFT To soil Depth 2" ISM) RESIDUAL- SILTY FINE TO MEDIUM 6 S-1 SS 18 16 SAND, Orangish Brown, Moist, Medium Dense s e5 16 ISM) SILTY FINE SAND, Tannish Gray, Moist, S-2 SS 18 18 Medium Dense y 4 5 635 15 7 S-3 SS 18 12 6 15 9 (SM) SILTY MEDIUM TO COARSE SAND, S-4 SS 18 16 _ Reddish Brown, Moist, Medium Dense s 10 630 2 END OF BORING @ 10' 15 625 20 620 25 615 30 610 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. 4 WL GNE Ws❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @6,9' Q WL(BCR) 1 WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET �r Childress Klein Properties 10919 P-39 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ride Industrial - DTR SITE LOCATION CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Count NC ROCK QUALITY DESIGNATION & RECOVERY NORTHING FASTING I ATION ' ROD% - — - REC% — PLASTIC WATER LILIQUID LIMIT% CONTENT% MIT% p 4 Oz w Z F o g ¢ DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION D w Z g , SURFACE ELEVATION 656 ¢ a 0 w N w w w M w > ¢ r ¢ ¢ r w 3 w 7 m ®STANDARD PENETRATION BLOWS/FT To soil De th 2" ISM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Brown, 655 15 17 too+ S-1 SS 17 6 Moist 50/5 5 23 �3 24 (SM/MH) SILTY FINE TO MEDIUM SAND/ SANDY ELASTIC SILT, Tan and Reddish Brown, Moist, Medium Dense S-2 SS 18 16 650 lz 50/5 ISM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Reddish Brown, S-3 SS 11 11 Moist AUGER REFUSAL @ 7.0' 10 645 15 640 20 635 25 630 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOILTYPES. INSITUTHE TRANSITION MAY BE GRADUAL. =Z WL GNE wso WIDE BORING STARTED 06/09/15 CAVE IN DEPTH @ 5,9' 32 WL(BCR) V WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto S2 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT Childress Klein Properties JOB # 10919 BORING m P-40 SHEET 1 OF 1 f l PROJECT NAME Afton Rid e Industrial - DTR ARCHITECT -ENGINEER RN r—=1_ SITE LOCATION 6979 Untz Road Concord Cabarrus County, NC CALIBRATED PENETROMETER TONS/F72 ROCK QUALITY DESIGNATION 8 RECOVERY ROD% — — — REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% NORTHING EASTING STATION a o Oz W M < i — ~ o 2 z > a DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING ID LOSS OF CIRCULATION w 2 > r w 3 w 3 m ®STANDARD PENETRATION BLOWS/FT SURFACE ELEVATION 664 5 — 10 5 — 20 25 30 To soil Depth 2" 660 655 650 645 640 635 s s 12 ° 13 19 17 21 20 27 31 20 30 50 29 35 5014 SolS 21 32 [ 38 58 8 100+ 100+ S-1 SS 18 7 (SM)RESIDUAL- SILTY FINE TO MEDIUM SAND, Brown, Moist, Medium Dense (SM) SILTY FINE TO MEDIUM SAND, Tannish Brown, Moist, Dense S-2 SS 18 16 S-3 SS 18 16 (SM) SILTY FINE TO MEDIUM SAND, Tannish Gray, Moist, Very Dense S-4 SS 18 18 S-5 SS 18 18 (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tannish Gray, Moist S-6 SS 16 16 MIEN S-7 5 3 AUGER REFUSAL @ 24' THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. SL WL GNE ws0 WD® BORING STARTED 06/09/15 CAVE IN DEPTH @21' SL WL(BC R) -T_- WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto S2 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A N -- - BORING CALIBRATED-0' CALIBRATED PENETROMETER TONSIFT7 ROCK QUALITY DESIGNATION & RECOVERY ROD% - — - REC% — i �eo�n,r i,vn �r mwicnw� ENGLISH UNITS PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% z d r y BOTTOM OF CASING LOSS OF CIRCULATION W m j O SURFACE ELEVATION 667 x a > o0 ¢ "' > n 3 ®STANDARD PENETRATION w o ¢ m ¢ m ¢ m w ¢ a 3 w 0 m BLOWSIFf To soil Depth 2" (SM) RESIDUAL - SILTY FINE TO MEDIUM y S-1 SS 18 2 SAND, Brown, Moist, Medium Dense n 24 665 3 (SM) SILTY FINE TO MEDIUM SAND, Tannish S-2 SS 18 16 Brown, Moist, Medium Dense, 6 7 17 5 0 FY47FY•'lt�7Q7 =WNW® (SM) SILTY FINE TO MEDIUM SAND Gray, Moist, Dense to Medium Dense S-5 SS 18 N 15 M®®NE Moist, Dense to Very Dense S-71 SS 1 18 1 18 7 7 8 660 n '.. 7 I''...'.. 12 655 650 645 640 0 5 16 3 4 16 3 7 25 31 41 48 3 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. INSITUTHE TRANSITION MAY BE GRADUAL. =Z WL GNE WS❑ WDZ BORING STARTED OO/O9/1S CAVE IN DEPTH @26.1' =Q WUBCR) = WUACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING SHEET Childress Klein Properties 10919 P-42 1 OF 1 EA- PROJECT NAME ARCHITECT -ENGINEER Aftgn- - DTR _ ELOCRid CALIBRATED PENETROMETER TONS/FT2 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% _ a O Z w a z y O z 2 > oO DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION N w O 6 Q w 0 30 ®—�� ® STANDARD PENETRATION BLOWS/FT SURFACE ELEVATION 676 To soil Depth 2" (SM) RESIDUAL - SILTY FINE TO MEDIUM SAND, Contains Slight Roots, Orangish Brown, 675 B s 21 S-1 SS 18 12 Moist, Medium Dense 12 s 8 21 (ML) SANDY SILT, Orangish Tan, Moist, Very Stiff to Hard S-2 SS 18 14 5 13 670 a 14 39 S-3 SS 18 18 25 10 50/5 100+ (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Light Tannish Brown, Moist S-4 SS 11 11 665 Sort 1 AUGER REFUSAL @ 13.6' IPA 15 660 20 655 25 650 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAYBE GRADUAL. 4 WL GNE WS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @ 11.3' Q WUBCR) 2 WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB BORING# SHEET. I Childress Klein Properties 10919 P-43 1 OF 1 MR PROJECT NAME ARCHITECT -ENGINEER Afton Ridge Industrial - DTR r_ SITE LOCATION -a- CALIBRATED PENETROMETER TONSIFT2 6979 Untz Road Concord Cabarrus Countv. INC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - - - REC% - PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% A i o w y w r w M m Z ~ o M h w 00 ¢ DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING ID LOSS OF CIRCULATION D w O r w w 3 w m n ® STANDARD PENETRATION BLOWS/FT SURFACE ELEVATION 618 To soil Depth 2" (SC) RESIDUAL - CLAYEY FINE TO MEDIUM SAND, Dark Brown, Moist, Medium Dense y 12 23 S-i SS 18 12 11 615 5 (SM) SILTY FINE SAND, Contains Slight Mica, Dark Brown Dark Brownish Gray, Moist to Wet, Medium Densen17 16 §SS 4 12 24 12 610 _ 16 S-4 SS 18 16 12 2 10 17 ISM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Dark Brown, Moist 605 19 41 i 100+ S5 SS 15 14 15 5013 END OF BORING @ 14.8' 600 20 595 25 590 30 THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL 8.4 WS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @ 12.2' WL(SCR) I WL(ACR) 11.0 BORING COMPLETED 06/09/15 HAMMER TYPE Auto 4 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT Childress Klein Properties JOB N 10919 BORING # P-44 SHEET 1 OF 1 . �j PROJECT NAME Afton Ridge Industrial - DTR ARCHITECT -ENGINEER �E �7J, M=1_ SITE LOCATION 6979 Untz Road Concord Cabarrus Countv. NC CALIBRATED PENETROMETER TONSIFT7 ROCK QUALITY DESIGNATION 8 RECOVERY ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% NORTHING EASTING STATION LL o Z aaO N w r < Z F o i > ¢ DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING LOSS OF CIRCULATION w O ¢ r w3 3 w J 0 m n • v ® STANDARD PENETRATION BLOWS/FT SURFACE ELEVATION — 5 10 5 20 25 30 To soil Depth 2"640 635 _ 630 625 620 615 610 7 7 B a 5 5 a 6 7 B 1t 7 7 B 17 10 B 5 i5 1 - 13 1 ' 16 18 ISM) RESIDUAL - SILTY FINE TO MEDIUM SAND, Reddish Brown, Moist, Medium Dense S-1 SS 18 10 ISM) SILTY FINE TO MEDIUM SAND, Brown, Moist, Loose to Medium Dense S12 S-2 SS SS 18 18 12Orangish 12 S-3 SS 18 6 (SM) SILTY FINE TO MEDIUM SAND, Tan, Moist, Medium Dense S-a SS 18 14 S-5 SS 18 8 S-6 SS 18 10 (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Tan, Moist — S-7 SS 9 6 mzia5013 AUGER REFUSAL @ 24.3' 1oo+ THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE wso WD® BORING STARTED 06/09/15 CAVE IN DEPTH @17.2' WL(BCR) * WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB k BORING k SHEET Childress Klein Properties 10919 P-45 1 OF 1 (1 PROJECT NAME ARCHITECT -ENGINEER ATfton - DTR ELOCRid CALIBRATED PENETROMETER TONS/FTC 6979 Untz Road Concord Cabarrus County, NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION RQO% - — - REC% — PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w = E m r LIMIT% CONTENT% LIMIT% p Z r r o 2 BOTTOM OF CASING LOSS OF CIRCULATION � w zO •-� SURFACE ELEVATION awo a aw O� ?w RATION ® STANDARD PENET ¢ y ¢ w ¢ a 3 m BLOWS/FT To soil Depth 2" (SM) RESIDUAL - SILTY FINE TO MEDIUM S-1 SS 18 14 SAND, Dark Brown, Moist, Medium Dense s 1 10 605 (CL) SANDY CLAY, Brown, Moist, Stiff 5 S-2 SS 18 16 B .15 5 /0/ 9 (SC) CLAYEY FINE TO MEDIUM SAND, S-3 SS 18 18 Tannish Brown, Moist to Wet, Medium Dense to 5 15 Loose I 9 Q 600 5 S-4 SS 18 12 5 10 4 9; (SM PWR) PARTIALLY WEATHERED ROCK SAMPLED AS SILTY SAND, Dark Brown, Wet 595 - 50/a AUGER REFUSAL @ 13.8' 100+ 15 590 20 585 25 580 30 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL 8.4 WS❑ WDIZ BORING STARTED 06/09/15 CAVE IN DEPTH @11.9' M WL(BCR) L WL(ACR) 11.0 BORING COMPLETED 06/09/15 HAMMER TYPE Auto S WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# BORING# SHEET r Childress Klein Properties 10919 P-46 1 OF 1 PROJECT NAME ARCHITECT-ENGINEERON Afton Ridge Industrial - DTR Ir=1_ SITE LOCATION -0- CALIBRATED PENETROMETER TONS/FTT 6979 Untz Road Concord Cabarrus County, NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING FASTING STATION RQD% - — - REC% — PLASTIC WATER LIQUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w i y LIMIT% CONTENT% LIMIT% N a ¢ BOTTOM OF CASING LOSS OF CIRCULATION w Q 0� J SURFACE ELEVATION 68Q 2 a w J J > O0 r w ® STANDARD PENETRATION o m m 9 SLOWSIFT _ To soil Depth 2" (MH) RESIDUAL - ELASTIC SILT, Reddish to 6 s-1 ss 18 18 Orangish Brown, Moist, Stiff to Very Stiff s 1.4 23.4 B 680 8 tt .26 S-2 SS 18 18 5 15 (SM) SILTY FINE TO MEDIUM SAND, S-3 SS 18 16 Orangish to Tannish Brown, Moist, Medium B 7 Dense 9 .16 675 5 6 13 S-4 SS 18 12 0 7 670 5 5 1 S-5 SS 18 16 15 7 (ML) SANDY SILT, Orangish Brown, Moist, Stiff fi65 3 4 1 S-6 SS 18 18 20 6 (SM) SILTY FINE TO MEDIUM SAND, Tannish Brown, Moist, Medium Dense S-7 SS 18 16 6608 8 21 25 3 END OF BORING @ 25' 655 30 THE STRATIFICATION LINES REPRESENTTHE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. Q WL GNE WS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @21.3' WL(BCR) 1 WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto S2 WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB BORING# SHEET r1 Childress Klein Properties 10919 P-47 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER UN Afton Ridge Industrial - DTR r 1_ SITE LOCATION �- CALIBRATED PENETROMETER TONS/FT7 6979 Untz Road Concord Cabarrus Countv. NC ROCK QUALITY DESIGNATION 8 RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIQUID LIMIT% CONTENT% LIMIT% n 2 a o O z y w > r y z - F °' a rail 2 > ¢ > OO ¢ DESCRIPTION OF MATERIAL ENGLISH UNITS BOTTOM OF CASING ID LOSS OF CIRCULATION � rn ri 'w O R Q w 3 w N Q m ^ 0� 1 ® STANDARD PENETRATION BLOWS/FT SURFACE ELEVATION 696 To soil Depth 2" (MH) RESIDUAL - ELASTIC SILT, Reddish Brown, Moist, Stiff 695 4 5 12' S-1 SS 18 18 7 T2SS 5 a 5 (SM) SILTY FINE TO MEDIUM SAND, Contains Slight Mica, Orangish Brown, Moist, Loose to Medium Dense 18 14 690 4 S-3 SS 18 18 5 11 6 0 3 5 B (SM) SILTY FINE TO MEDIUM SAND, Reddish to Tannish Brown, Moist, Loose to Medium Dense S-4 SS 18 14 685 a a 11 S-5 SS 18 18 15 680 _ 4 5 12: S-6 SS 18 18 20 7 675 (ML) SANDY SILT, Brown, Moist, Stiff 4 S-7 SS 18 18 6 13 25 670 (SM) SILTY FINE TO MEDIUM SAND, Tannish Brown, Moist, Medium Dense S-8 SS 18 18 6 j5 30 9 END OF BORING @ 30' THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. =Z WL GNE WS❑ WD® BORING STARTED 06/09/15 CAVE IN DEPTH @25.6' N/L(BCR) t WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A CLIENT JOB# SHEETChildress Klein Pro erties 1091948 7BOR1NGP# 1 OF 1 PROJECT NAME ARCHITECT -ENGINEER Afton Ride Industrial- DTR SITE LOCATION -Q- CALIBRATED PENETROMETER TONSIFT° 6979 Untz Road Concord Cabarrus Countv. NC ROCK DUALITY DESIGNATION & RECOVERY NORTHING EASTING STATION ROD% - — - REC% — PLASTIC WATER LIOUID Z DESCRIPTION OF MATERIAL ENGLISH UNITS w r z LIMIT% CONTENT% LIMIT% _ rn _ > BOTTOM OF CASING LOSS OF CIRCULATION > X—�� F W ¢ J 0 SURFACE ELEVATION 680 W d M d > ¢ r w v 30 ®STANDARD PENETRATION w O ¢ N ¢ N ¢ N W ¢ < 3 W 0 BLOWS/FT To soil Depth 3" (MH) RESIDUAL - ELASTIC SILT, Reddish S-1 SS 18 16 Brown, Moist, Stiff to Very Stiff 4 s 10 s g 28 S-2 SS 18 18 12 5 675 16 8 S-3 SS 18 18 11 28 17 5 S-4 SS 18 18 7 16 0 670 S (ML) SANDY SILT, Reddish Brown, Moist, Stiff 4 S-5 SS 18 16 5 13 5 665 B (SM) SILTY FINE TO MEDIUM SAND, Orangish to Tannish Brown, Moist, Medium Dense 4 S-6 SS 18 165 12 20 660 7 4 S-7 SS 18 18 6 14 25 B END OF BORING @ 25' 655 30 650 THE STRATIFICATION LINES REPRESENT THE APPROXIMATE BOUNDARY LINES BETWEEN SOIL TYPES. IN -SITU THE TRANSITION MAY BE GRADUAL. SWL GNE ws❑ WD2) BORING STARTED 06/09/15 CAVE IN DEPTH@ 21.6' WUBCR) WL(ACR) GNE BORING COMPLETED 06/09/15 HAMMER TYPE Auto Q WL RIG SIMCO 2400 FOREMAN Cody DRILLING METHOD 2.25 H.S.A Job Name: Afton Ridoe Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Gradina Type: ❑ Rubber Tire Backhoe ® Trackhoe ❑ Front End Loader ❑ Other: Manufacturer: Kobelco Test Pit No.: 1 Model No.: Test Pit Location: See FIQure 2 De th ft Soil Description Excavation Effort From To 0 0.5 (SM)FILL — SILTY CLAY, Moist, Tan Medium 0.5 2 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 2 6 (ML) FILL — SANDY SILT, Contains Significant Timber and Construction Debris, Moist, Reddish Brown Medium 6 7 (ML) RESIDUAL — SANDY SILT, Moist, Dark Brown Medium Depth to Water: Not Encountered V i� ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Date: 6/1 /2015 Job Name: Afton Ridge Industrial Location: Concord, North Carolina ECS Project No.: 08-10919 Technician: Odise Adams Client: Childress Klein Excavation Subcontractor: Hal Abernathy Grading EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Fioure 2 De th ft Soil Description Excavation Effort From To 0 3 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 3 6 (ML) FILL — SANDY SILT, Contains Significant Timber and Construction Debris, Moist, Reddish Brown Medium 6 7 (ML) RESIDUAL —SANDY SILT, Moist, Dark Brown Medium Depth to Water: Not Encountered i 'j ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridae Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 3 Date: 6/1/2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Figure 2 th ft Soil Description ExEfforton Frome To 0 0.5 (SM) FILL —SILTY SAND, Moist, Tannish Brown Medium 0.5 1.5 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 1.5 10 (ML) FILL— SANDY SILT, Contains Significant Trees, Timber, and Construction Debris, Moist, Brown Medium 10 11 (ML) RESIDUAL —SANDY SILT, Moist, Brown Medium Depth to Water: Not Encountered EF ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Date: 6/1 /2015 Job Name: Afton Ridge Industrial Location: Concord, North Carolina ECS Project No.: 08-10919 Technician: Odise Adams Client: Childress Klein Excavation Subcontractor: Hal Abernathy Grading EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe ❑ Front End Loader ❑ Other: Manufacturer: Kobelco Model No.: SK 160 LC Test Pit No.: 4 Test Pit Location: See Figure 2 ft Soil Description ExEfforton FromDepth To 0 1 (SM) FILL — SILTY SAND, Moist, Tannish Brown Medium 1 4 (SM) FILL — SILTY SAND, Contains Significant Trees, Moist, Dark Brown Medium 4 5.5 (ML) RESIDUAL — SANDY SILT, Moist, Tannish Brown Medium Depth to Water: Not Encountered ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 5 Date: 6/1/2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading ❑ Front End Loader ❑ Other:, Model No.: SK 160 LC Test Pit Location: See Figure 2 De th ft Soil Description Excavation Effort From To 0 1 (SM) FILL — SILTY SAND, Contains Roots, Moist, Tannish Brown Medium 1 1.5 (SM) RESIDUAL — SILTY SAND, Moist, Tannish Brown High Depth to Water: Not Encountered s� EF ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridoe Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EOUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Figure 2 a th ft Soil Description Excavation x avat on ffort From To 0 2 (SM) FILL — SILTY SAND, Moist, Tannish Brown Medium 2 14 (MH) FILL — ELASTIC SILT, Contains Significant Trees and Timber, Moist, Blackish Brown Depth to Water: Not Encountered ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Gradinq ❑ Front End Loader ❑ Other:. Model No.: SK 160 LC Test Pit Location: See Figure 2 De th(it) Soil Description Excavation Effort From To 0 3 (SM) FILL — SILTY SAND, Moist, Tannish Brown Medium 3 10 (MH) FILL — ELASTIC SILT, Contains Significant Trees, Moist, Blackish Brown Medium 10 11 (MH) RESIDUAL — ELASTIC SILT, Moist, Blackish Brown High Depth to Water: Not Encountered ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 8 Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading ❑ Front End Loader ❑ Other:, Model No.: SK 160 LC Test Pit Location: See Figure 2 De th ft Soil Description Excavation Effort From To 0 2 (SM) FILL — SILTY SAND, Contains Tree Branches, Moist, Brown Medium 2 3 (SM) RESIDUAL — SILTY SAND, Moist, Tan High Depth to Water: Not Encountered ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 9 Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Gradina ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Fiaure 2 De th ft Soil Description p Excavation Effort From To 0 2 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 2 5 (MH) FILL —ELASTIC SILT, Moist, Reddish Brown Medium 5 14 (MH) FILL— ELASTIC SILT, Contains Significant Trees, Moist, Reddish Brown to Brown Medium Depth to Water: Not Encountered Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading Type: ❑ Rubber Tire Backhoe ® Trackhoe ❑ Front End Loader ❑ Other:. Manufacturer: Kobelco Test Pit Model No.: SK 160 LC Test Pit Location: See Figure 2 e th ft Soil Description ExEfforton From To 0 0.7 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 0.7 5 (SM) FILL — SILTY SAND, Contains Slight Tree Limbs, Moist, Reddish Brown Medium 5 10 (MH) FILL — ELASTIC SILT, Contains Significant Trees, Moist, Black/Reddish Brown Medium 10 12 (MH) RESIDIUAL— ELASTIC SILT, Moist, Reddish Brown Medium Depth to Water: Not Encountered s t r Apt �► I 0 ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.:11 Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Figure 2 th ft Soil Description ExEfforton FromDe To 0 1.5 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 1.5 4 (SC) FILL — CLAYEY SAND, Contains Slight Tree Limbs and Construction Debris, Moist, Tannish Brown Medium 4 6 (ML) FILL —SANDY SILT, Moist, Reddish Brown/Gray Medium 6 7 ISM) RESIDUAL— SILTY SAND, Contains Slight Mica, Reddish Brown Medium Depth to Water: Not Encountered mK ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Date: 6/1 /2015 Job Name: Afton Ride Industrial Location: Concord, North Carolina ECS Project No.: 08-10919 Technician: Odise Adams Client: Childress Klein Excavation Subcontractor: Hal Abernathy Gradino EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 12 ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Fi°ure 2 th ft Soil Description ExEfforton FromDe To 0 0.5 (SM) FILL — SILTY SAND, Contains Rocks, Moist, Tan Medium 0.5 2.5 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 2.5 6 (ML) FILL — SANDY SILT, Contains Significant Trees and Slight Construction Debris, Moist to Wet, Dark Brown Low F4 Depth to Water: 5.3' c ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 13 Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading ❑ Front End Loader ❑ Other:. Model No.: SK 160 LC Test Pit Location: See Figure 2 De th ft Soil Description Excavation Effort From To 0 1 (GM) FILL —SILTY GRAVEL, Moist, Grayish White Medium 1 3.5 (ML) FILL —SANDY SILT, Contains Slight Mica, Moist, Reddish Brown/Black Medium 3.5 4 (SM) RESIDUAL — SILTY SAND, Moist, Tannish Brown Medium Depth to Water: Not Encountered EF � 3 ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridoe Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 14 Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Gradina ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Fioure 2 De th ft Soil Description Excavation Effort From To 0 2.7 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 2.7 5 (ML) FILL — SANDY SILT, Contains Significant Tree Limbs, Moist, Reddish Brown Medium 5 10 (ML) FILL — SANDY SILT, Contains Significant Tree Limbs, Moist, Gray/Reddish Brown Medium 10 11 (CL) RESIDUAL — SANDY CLAY, Moist, Dark Reddish Brown Medium Depth to Water: Not Encountered ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 15 Date: 6/1/2015 Location: Concord. North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Figure 2 Depth ft Soil Description Excavation Effort From To 0 0.8 ISM) FILL— SILTY SAND, Moist, Tannish Brown Medium 0.8 2.7 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 2.7 3.5 (ML) FILL — SANDY SILT, Contains Significant Trees, Moist, Reddish Brown Medium 3.5 9 (CL) FILL —SANDY CLAY, Contains Significant Trees, Moist, Blueish Gray Medium 9 10 (SM) RESIDIUAL — SILTY SAND, Contains Slight Mica, Moist, Tan Medium Depth to Water: Not Encountered EF ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Date: 6/1 /2015 Job Name: Afton Ridoe Industrial Location: Concord. North Carolina ECS Project No.: 08-10919 Technician: Odise Adams Client: Childress Klein Excavation Subcontractor: Hal Abernathy Grading EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 16 ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Figure 2 e th ft Soil Description ExEfforton From To 0 0.5 ISM) FILL — SILTY SAND, Moist, Tannish Brown Medium 0.5 1 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 1 3 (ML) RESIDUAL — SANDY SILT, Contains Slight Mica, Moist, Reddish Brown Medium 3 5.5 (SM) — SILTY SAND, Contains Slight Mica, Moist, Tannish Brown Medium Depth to Water: Not Encountered EC ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Job Name: Afton Ridge Industrial ECS Project No.: 08-10919 Client: Childress Klein EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 17 Date: 6/1 /2015 Location: Concord, North Carolina Technician: Odise Adams Excavation Subcontractor: Hal Abernathy Grading ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Figure 2 a th ft Soil Description Excavation From To 0 2 (GM) FILL — SILTY GRAVEL, Moist, Grayish White Medium 2 8 (ML) FILL —SANDY SILT, Moist, Dark Gray/Dark Reddish Brown Medium 8 10 (ML) RESIDUAL— SANDY SILT, Moist, Reddish Brown Medium Depth to Water: Not Encountered ECS CAROLINAS, LLP TEST PIT OBSERVATION SUMMARY Date: 6/1 /2015 Job Name: Afton Ridge Industrial Location: Concord, North Carolina ECS Project No.: 08-10919 Technician: Odise Adams Client: Childress Klein Excavation Subcontractor: Hal Abernathy Grading EXCAVATION EQUIPMENT: Type: ❑ Rubber Tire Backhoe ® Trackhoe Manufacturer: Kobelco Test Pit No.: 18 ❑ Front End Loader ❑ Other: Model No.: SK 160 LC Test Pit Location: See Figure 2 th ft Soil Description ExEfforton FromDe To 0 3 (SM) RESIDIUAL—SILTY SAND, Moist, Tannish Brown Medium Depth to Water: Not Encountered Laboratory Testing Summary Page 1 of 1 pth et) MCI N Soil Type2 Atterberg Limits3 Percent Passing No. 200 Sleve4 Moisture - Density (Corr.)5 CBR Value6 Specific Gravity LLFPL PI Maximum Density (pcf) Optimum Moisture N • 5.00 36.0 • 7.50 36.9 • 2.50 9.4 • 5.00 25.1 10.00 39.6 ML 48 34 14 81 • 7.50 24.3 MH 59 50 9 66 • 5.00 31.3 • 7.50 31.7 MH 63 39 24 79 - 2.50 17.8 • 2.50 23.4 487, 3. ASTM D 4318, 4, ASTM D 1140, 5. See test reports for test method, 6. See test reports for test method te: USCS (Unified Soil Classification System), LL: Liquid Limit, PL: Plastic Limit, PI: Plasticity Index, CBR: California Bearing Ratio, OC: Organic Content (ASTM D 2974) al - DTR t, 2015 D ECS CAROLINAS, 1812 Center Paik Dnve, Suite 0 Charlotte, 2 W94Phone: (704) 4I 52S.51 5152 �_ 1 Fax: (7041367-0023 Major Divisions Group TypicalLaboratory Names Labora[o Classification Criteria Svmbols Well graded gravels, gravel- „ C� Dbo/D1q greater than 4 o w G W sand mixtures, little or no fines ^ C,, (D,o)z/(D10 x D,o) between 1 and 3 N N N A O [7 = > U - N > A Poorly graded gravels, gravel- > o GP Not meeting all gradation requirements for G W y U sand mixtures, little or no fines Sc o m 0 0 v c C C i T s-2 o n d Silty Gravels, gravel -sand -silt 2 a o N Atterberg limits A 3 Ma 3 N below *"A" line or P.I. Above "A" line with P.I. = s v, ti es u mixtures ` fi a less than 4 between 4 and 7 are 'o rn �° = > w ' �- v �' borderline cases requiring Atterberg limits 0 A GC Clayey Gravels, gravel -sand- ,'�. = ou .� m above "A" line with use of dual symbols c R .7Z clay mixtures 3 a c o P.1. greater than 7 N SW Well -graded sands, gravelly C� D6dD10 greater than 6 w .N = ro A ,-. 4 ti w sands, little or no fines c 9 C,, (D3o)'/(D10 x D6o) between I and 3 O E C.) V: N o U t Co y > C �. O tC .✓ Poorly graded sands, gravelly c u o v U ? SP sands, little or no fines Not meeting all gradation requirements for SW m L 0 0 0 0 d Atterberg limits o z s , SM Silty sands, sand -silt mixtures ,; o , below "A" line or I .1. Limits plotting in hatched t = 3 u less than 4 lone with P.1. between 4 u .c o and 7 are borderline cases E Clayey sands, sand -clay o Atterberg limits requiring use of dual SC above Aline with symbols mixtures P.I. greater than 7 c Inorganic silts and very tine sands, ML rock Flour, silty or clayey fine 60 y sands, or clayey silts with slight plasticity o = o 50 Inorganic clays of low to medium CL plasticity, gravelly clays, sandy Z=I clays, silty clays. Ivan clays Organic silts and organic silty c g _ 40 L N OL clays of low plasticity � 9 .9 r°n Inorganic silts, micaceous or 30 E e MH diatomaceous fine sandy or silty c N @ � N s soils, clastic silts N 20 �' m '� CH Inorganic clays ot'high plasticity, ry E o`n c fat clays O 4 E 10 � A r 5 OH Organic clays of medium to high a Q. plasticity, organic silts U 0 IU 20 30 10 50 GO 70 80 90 IW $ _7 .°�. Liquid limit, wi w .^te�.n u Pt Peat and other highly organic soils Reference: W interkorn & Fang, 1975 (ASTM D-2487) 2 O 'Division of GM and SM groups into subdivision of d and u are for road and airfields only. Subdivision is based on Atterberg limits; suffix d used when L.L. is 28 or less and the P.I. is 6 or less; the suffix u is used when L.L. is greater that 28. 'Borderline classifications, used for soils possessing characteristics of two groups, are designated by combinations of group symbols. For example: G W-GC, well -graded gravel -sand mixture with clay binder. ® 1812 CFNTFR PARK DRIVE C CHARLOTTE, CHARLOTTE, NC 28217 UNIFIED SOIL 7oanzs-slsz LTD ® Fnxnoa-an-oozy CLASSIFICATION SYSTEM 3/ w� r o c` : P J/ / MH or OH O`C1 Lv ML or OL i REFERENCE NOTES FOR BORING LOGS Drilling Sampling Symbols SS Split Spoon Sampler ST Shelby Tube Sampler RC Rock Core, NX, BX, AX PM Pressuremeter DC Dutch Cone Penetrometer RD Rock Bit Drilling BS Bulk Sample of Cuttings PA Power Auger (no sample) HSA Hollow Stem Auger WS Wash sample REC Rock Sample Recovery % RQD Rock Quality Designation % II. Correlation of Penetration Resistances to Soil Properties Standard Penetration (blows/ft) refers to the blows per foot of a 140 lb. hammer falling 30 inches on a 2-inch OD split -spoon sampler, as specified in ASTM D 1586. The blow count is commonly referred to as the N-value. A. Non -Cohesive Soils (Silt, Sand, Gravel and Combinations) Density Relative Properties Under 4 blows/ft Very Loose Adjective Form 12% to 49% 5 to 10 blows/ft Loose With 5% to 12% 11 to 30 blows/ft Medium Dense 31 to 50 blows/ft Dense Over 51 blows/ft Very Dense Boulders 8 inches or larger Cobbles 3 to 8 inches Gravel Coarse 1 to 3 inches Medium /1 to 1 inch Fine Y.to'/ inch Sand Coarse 2.00 mm to ''% inch (dia. of lead pencil) Medium 0.42 to 2.00 mm (dia. of broom straw) Fine 0.074 to 0.42 mm (dia. of human hair) Silt and Clay 0.0 to 0.074 mm (particles cannot be s B. Cohesive Soils (Clay, Silt, and Combinations) Blows/ft Consistency Unconfined Comp. Strength Degree of Plasticity Qp (tso Plasticity Index Under 2 Very Soft Under 0.25 None to slight 0-4 3 to 4 Soft 0.25-0.49 Slight 5-7 5 to 8 Medium Stiff 0.50-0.99 Medium 8 — 22 9 to 15 Stiff 1.00-1.99 High to Very High Over 22 16 to 30 Very Stiff 2.00-3.00 31 to 50 Hard 4.00-8.00 Over 51 Very Hard Over 8.00 III. Water Level Measurement Symbols WL Water Level BCR Before Casing Removal DCI Dry Cave -In WS While Sampling ACR After Casing Removal WCI Wet Cave -In WD While Drilling 0 Est. Groundwater Level 8 Est. Seasonal High GWT The water levels are those levels actually measured in the borehole at the times indicated by the symbol. The measurements are relatively reliable when augering, without adding fluids, in a granular soil. In clay and plastic silts, the accurate determination of water levels may require several days for the water level to stabilize. In such cases, additional methods of measurement are generally applied. - Geolechnical Engineeping Report , Geotechnical Services Are Performed for Specific Purposes, Persons, and Projects Geotechnical engineers structure their services to meet the specific needs of their clients. A geolechnical engineering study conducted for a civil engineer may not fulfill the needs of a construction contractor or even another civil engineer. Because each geotechnical engineering study is unique, each geo- technical engineering report is unique, prepared solelyfor the client. No one except you should rely on your geotechnical engineering report without first conferring with the geotechnical engineer who prepared it. And no one - not even you - should apply the report for any purpose or project except the one originally contemplated. Read the Full Report Serious problems have occurred because those relying on a geotechnical engineering report did not read it all. Do not rely on an executive summary. Do not read selected elements only. A Geotechnical Engineering Report Is Based on A Unique Set of Project -Specific Factors Geotechnical engineers consider a number of unique, project -specific factors when establishing the scope of a study. Typical factors include: the client's goals, objectives, and risk management preferences; the general nature of the structure involved, its size, and configuration; the location of the structure on the site; and other planned or existing site improvements, such as access roads, parking lots, and underground utilities. Unless the geotechnical engi- neer who conducted the study specifically indicates otherwise, do not rely on a geotechnical engineering report that was: • not prepared for you, • not prepared for your project, • not prepared for the specific site explored, or • completed before important project changes were made Typical changes that can erode the reliability of an existing geotechnical engineering report include those that affect: • the function of the proposed structure, as when it's changed from a parking garage to an office building, or from alight industrial plant to a refrigerated warehouse, • elevation, configuration, location, orientation, or weight of the proposed structure, • composition of the design team, or • project ownership. As a general rule, always inform your geotechnical engineer of project changes - even minor ones - and request an assessment of their impact. Geotechnical engineers cannot accept responsibility or liability for problems that occur because their reports do not consider developments of which they were not informed. Subsurface Conditions Can Change A geotechnical engineering report is based on conditions that existed at the time the study was performed. Do not rely on a geotechnical engineering reportwhose adequacy may have been affected by: the passage of time; by man-made events, such as construction on or adjacent to the site; or by natu- ral events, such as floods, earthquakes, or groundwater fluctuations. Always contact the geotechnical engineer before applying the report to determine If it is still reliable. A minor amount of additional testing or analysis could prevent major problems. Most Geotechnical Findings Are Professional Opinions Site exploration identifies subsurface conditions only at those points where subsurface tests are conducted or samples are taken. Geotechnical engineers review field and laboratory data and then apply their professional judgment to render an opinion about subsurface condifions throughout the site. Actual subsurface conditions may differ -sometimes significantly from those indi- cated in your report Retaining the geotechnical engineer who developed your report to provide construction observation is the most effective method of managing the risks associated with unanticipated conditions. A Reports Recommendations Are Not Final Do not overrely on the construction recommendations included in your re- port. Those recommendations are not final, because geotechnical engineers develop them principally from judgment and opinion. Geotechnical engineers can finalize their recommendations only by observing actual subsurface conditions revealed during construction. The geotechnical engi- neer who developed your report cannot assume responsibility or liability for the report's recommendations if that engineer does not perform construction observation. A Geotechnical Engineering Report Is Subject to Misinterpretation Other design team members' misinterpretation of geotechnical engineer- ing reports has resulted in costly problems. Lower that risk by having your geotechnical engineer confer with appropriate members of the design team after submitting the report. Also retain your geotechnical engineer to review pertinent elements of the design team's plans and specifications. Contractors can also misinterpret a geotechnical engineering report. Reduce that risk by having your geotechnical engineer participate in prebid and preconstruction conferences, and by providing construction observation. Do Not Redraw the Engineer's Logs Geotechnical engineers prepare final boring and testing logs based upon their interpretation of field logs and laboratory data. To prevent errors or omissions, the logs included in a geotechnical engineering report should never be redrawn for inclusion in architectural or other design drawings. Only photographic or electronic reproduction is acceptable, but recognize that separating logs from the report can elevate risk. Give Contractors a Complete Report and Guidance Some owners and design professionals mistakenly believe they can make contractors liable for unanticipated subsurface conditions by limiting what they provide for bid preparation. To help prevent costly problems, give con- tractors the complete geotechnical engineering report, but preface it with a clearly written letter of transmittal. In that letter, advise contractors that the report was not prepared for purposes of bid development and that the reports accuracy is limited; encourage them to confer with the geotechnical engineer who prepared the report (a modest fee may be required) and/or to conduct ad- ditional study to obtain the specific types of information they need or prefer. A prebid conference can also be valuable. Be sure contractors have sufficient timeto perform additional study. Only then might you be in a position to give contractors the best information available to you, while requiring them to at least share some of the financial responsibilities stemming from unantici- pated conditions. Read Responsibility Provisions Closely Some clients, design professionals, and contractors do not recognize that geotechnical engineering is far less exact than other engineering disciplines. This lack of understanding has created unrealistic expectations that have led to disappointments, claims, and disputes. To help reduce the risk of such outcomes, geotechnical engineers commonly include a variety of explanatory provisions in their reports. Sometimes labeled "limitations" many of these provisions indicate where geotechnical engineers' responsibilities begin and end, to help others recognize their own responsibilities and risks. Read these provisions closely. Ask questions. Your geolechnical engineer should respond fully and frankly. Geoenvironmental Concerns Are Not Covered The equipment, techniques, and personnel used to perform a geoenviron- mental study differ significantly from those used to perform a geotechnical study. For that reason, a geotechnical engineering report does not usually re- late any geoenvironmental findings, conclusions, or recommendafions, e.g., about the likelihood of encountering underground storage tanks or regulated contaminants. Unanticipated environmental problems have led to numerous project failures. If you have not yet obtained your own geoenvironmenlal in- formation, ask your geotechnical consultant for risk management guidance. Do not rely on an environmental report prepared for someone else. Obtain Professional Assistance To Deal with Mold Diverse strategies can be applied during building design, construction, op- eration, and maintenance to prevent significant amounts of mold from grow- ing on indoor surfaces. To be effective, all such strategies should be devised for the express purpose of mold prevention, integrated into a comprehensive plan, and executed with diligent oversight by a professional mold prevention consultant. Because just a small amount of water or moisture can lead to the development of severe mold infestations, a number of mold prevention strategies focus on keeping building surfaces dry. While groundwater, wa- ter infiltration, and similar issues may have been addressed as part of the geotechnical engineering study whose findings are conveyed in -this report, the geotechnical engineer in charge of this project is not a mold prevention consultant; none of the services performed in connection with the geotechnical engineer's study were designed or conducted top the purpose of mold prevention. Proper, implementation of the recommendations conveyed in this report will not of itself he sufficient to prevent mold tram growing in or on the stpuc- ture involved. Rely on Your ASFE-Member Geotechnical Engineer For Additional Assistance Membership in ASFE/The Best People on Earth exposes geotechnical engi- neers to a wide array of risk management techniques that can be of genuine benefit for everyone involved with a construction project. Confer with your ASFE-member geotechnical engineer for more information. ASFE pp• pppl Pppple oo Ep�tO 8811 Colesville Road/Suite G106, Silver Spring, MD 20910 Telephone:' 301/565-2733 Facsimile: 301/589-2017 e-mail: info@asfe.org www.asfe.org Copyright 2004 by ASFE, Inc Duplication, reproduction, or copying of this document, in whole or in part, by any means whatsoever, is strictly prohibited, except wilh ASFEs specific written permission. Excerpting, quoting, or otherwise extracting wording from this document is permitted only with the express written permission of ASFE, and only for purposes of scholarly research or book review. Only members of ASFE may use this document as a complement to or as an element bra geolechoical engineering repod. Any other firm, individual, or other entity that so uses this document without being anASFEmember could be committing negligent or intentional (fraudulent) misrepresentation. IIGER0e045.0M N FILED CABARRUS COUNTY NC WAYNE NIXON REGISTER OF DEEDS FILED Dec 19. 2016 AT 03:55 pm BOOK 12282 START PAGE 0105 END PAGE 0108 INSTRUMENT # 33679 EXCISE TAX S6,334.00 M<L Prepared by: Law Offices of Robert M. Critz, P.A. P.O. Box 745, Concord, NC 28026-0745 File #27191-C �6jrl turn to: Emily B. Reynolds, Esq. Moore & Van Allen PLLC 100 N. Tryon Street, Suite 4700 Charlotte, NC 28202 p/o PIN # 4691-52-9158 Revenue Stamps: $6,334.00 NO TITLE OPINION RENDERED NOR IMPLIED NORTH CAROLINA TRUSTEE'S DEED CABARRUS COUNTY THIS TRUSTEE'S DEED, made this L' day of December, 2016, by and between DONALD E. WHITAKER, TRUSTEE OF THE RONALD GOLD OVE•RCASH TRUST AGREEMENT DATED MARCH 31, 2003, AS AMENDED ON SEPTEMBER 13, 2013, Grantor, and CK AFTON RIDGE LAND, LLC, a North Carolina limited liability company, whose mailing address is 301 South College Street, Charlotte, North Carolina 28202-6042, Attn: Landon R. Wvatt III, Grantee. 1 "J6 The designation Grantor and Grantee as used herein shall include said parties, their heirs, successors, and assigns, and shall include the singular, plural, masculine, feminine or neuter as required by context. WITNESSETH: That the Grantor,'for a valuable consideration paid by the Grantee, the receipt of which is hereby acknowledged, has and by these presents does grant, bargain, sell, and convey unto the Grantee in fee simple, all that.certain tract or parcel of land, more particularly described as follows: Lying and being in the City of Concord, No. 2 Township, Cabarrus County, North Carolina, south of, but not adjoining Untz Road, adjoining the property of Dalton L. Harrison (Book 801, Page 285), Montana M. Marshall (Book 11820, Page 226), Kermit H. Marshall (Book 7097, Page 76, Book 7168, Page 261, and Book 479, Page 40), Fred P. Motley (Book 297, Page 284), CK Lake Pointe Corporate Center, LLC (Book 5578, Page 115), CK GFS Holding, LLC (Book 11261, Page 135), Nancy A. Smith (Book 10422, Page 344), Curtis L. Andrews, Jr., et. al. (Book 11555, Page 272), Gerald W. Hinson (Book 4074, Page 259), and Mercury Partners, LLC (Book 4906, Page 188), and being more particularly described as follows: BEGINNING at an existing angle iron rod found, said point being located at the southwest corner of the property of Harrison (said point being further located S. 05°58'57"E. 264.04 feet from the northwest corner of Harrison), and runs thence two (2) courses and distances with the line of Harrison, as follows: (1) N. 87°10'38" E. 594.50 feet to an existing iron pin found; and thence (2) N. 06°26'27" W. (passing an existing iron rod found at 74.83 feet) 97.99 feet to an existing iron pin found, said point being the southwest comer of Montana H. Marshall; thence with the line of Montana H. Marshall and Kermit H. Marshall, N. 86°48'09" E. (passing an existing iron rod found at 256.48 feet, passing an existing iron rod found at 556.41 feet, and passing a new iron rod set at 863.73 feet), 913.72 feet to a point in the center of Coddle Creek; thence eighteen (18) courses and distances with the centerline of Coddle Creek, as follows: (1) S. 24002'36" W. 82.81 feet to a point; thence (2) S. 29°17'10" W. 177.15 feet to a point; thence (3) S. 27°03'19" W. 257.58 feet to a point; thence (4) S. 21°38'02" W. 148.87 feet to a point; thence (5) S. 29°37'01" W. 141.06 feet to a point; thence (6) S. 29043'04" W. 181.31 feet to a point; thence (7) S. 18°45'45" E. 66.61 feet to a point thence (8) S. 25°43'21" E. 104.57 feet to a point: thence (9) S. 48°51'12" E. 88.36 feet to a point: thence (10) S. 54°57'29" E. 135.37 feet to a point: thence (11) S. 40°39'04" E. 130.90 feet to a point: thence (12) S. 45°38'35" E. 91.00 feet to a point; thence (13) S. 44-06-08" E. 139.04 feet to a point: thence ("14) S. 37°19'04" E. 158.07 feet to a 1) point; thence (15) S. 34°03'49" E. 79.74 feet to a point, thence (16) S. 37`09'44" E. 117.91 feet to a point; thence (17) S. 46°03'56" E. 77.37 feet to a point; thence (18) S. 25000'37" E. 233.10 feet to a point, said point being the northeast comer of CK GFS Holding, LLC, in the line of CK Lake Pointe Corporate Center, LLC; thence four (4) courses and distances with the line of CK GFS Holding, LLC, as follows: (1) N. 89°35'48" W. (passing an existing iron rod found at 53.04 feet) 881.19 feet to an existing iron rod found; and thence (2) S. 84°24'23" W. 461.95 feet to an existing iron rod found; thence (3) S. 75°23'06" W. 313.69 feet to an existing iron rod found; and thence (4) S. 40°59'50" W. 621.63 feet to an existing iron rod found, said point being the northeast comer of Smith; thence two (2) courses and distances with the line of Smith, as follows: (1) S. 40°42'04" W. 220.07 feet to an existing iron rod found; and thence (2) N. 89°38'20" W. 857.61 feet to an existing iron pin found, said point being a comer of Andrews; thence with the line of Andrews, N. 01'35'05" W. 1,616.77 feet to an existing iron rod pin found, the southwest corner of Hinson; thence two (2) courses and distances with the line of Hinson, as follows: (1) N. 01'36'18" W. 277.89 feet to an existing iron rod found; and thence (2) N. 00°22'35" W. 158.63 feet to an existing iron pin found, the southeast comer of Mercury Partners, LLC; thence with the line of Mercury Partners, LLC, N. 00029-36" W. 303.73 feet to a new iron rod set, said point being located S. 00°29'36" E. 366.57 feet from the northwest comer of the Overcash Trust, the northwest comer of the Mercury Partners; thence two (2) new courses and distances through the property of the Overcash Trust, as follows:,,(1) N. 88n0'16" E. 1,226.61 feet to a new iron rod set, and thence (2) M 05°58'57" W, 161.00 feet to the POINT AND PLACE OF BEGINNING, containing an area of 5,517,880 sq. ft. or 126.6731 acres, as shown on a survey by Justin F. Cloninger, NCPLS, R. B. Pharr 8r Associates, P.A., dated April 8, 2016, Job No. 84733, File No. W-5031. For back reference see Deed recorded in Book 10691, Page 81, Cabarrus County Registry. Ronald Gold Overcash died testate in Cabarrus County, North Carolina, on April 13, 2010. (See Estate File No. 10-E-324 in the Cabarrus County Clerk of Court.) The Last Will and Testament of Ronald Gold Overcash devised the residue and remainder of his property to the Trust. See Certification of Trust recorded in Book 11925, Page 318, Cabarrus County Registry. TO HAVE AND TO HOLD the aforesaid lot or parcel of land and all privileges and appurtenances thereto belonging to the Grantee in fee simple. The Grantor, as Trustee, covenants with the Grantee that Grantor has done nothing to impair such title as Grantor received, and Grantor will warrant and defend the title against the W lawful claims of all persons claiming by, under or through Grantor, as Trustee, other than the following exceptions: All easements or rights -of -way, restrictions and covenants, minimum building setbacks, zoning laws and ordinances, and any exceptions of record ("of record" to include, without limitation, any and all surveys of the Property,.or any portions thereof) affecting the property hereby conveyed. IN WITNESS WHEREOF, the Grantor has caused this instrument to be duly executed and delivered. A�n j (SEAL) Donald E. Whitaker, as Trustee of the Ronald Gold Overcash Trust dated March 31, 2003, as amended on September 13, 2013 NORTH CAROLINA CABARRUS COUNTY �a I��S jTlCLr&j to H^ �a-yt a Notary Public in and for said County of and State, do hereby certify that Donald E. Whitaker, as Trustee of the Ronald Gold Overcash Trust dated March 31, 2003, as amended on September 13, 2013, personally appeared before me this day and acknowledged the due execution of the foregoing instrument. Witness my hand and notarial seal, this the 10 day of December, 2016. ivly Commission Expires: MARY ELIZABETH STEWART NOTARY PUBLIC CABARRUS COUNTY, N.C. FILED CABARRUS COUNTY NC WAYNE NIXON _REGISTER OF DEEDS FILED Dec 19. 2016 AT 03:55 pm BOOK 12282 START PAGE 0109 END PAGE 0112 INSTRUMENT # 33680 EXCISE TAX $0.00 MKL NORTH CAROLINA SPECIAL WARRANTY DEED Excise Tax: $0.00• This conveyance is for business conveyance only and is without consideration. Therefore, no revenue or excisotax stamps are required for recording this deed pursuant to N.C. General Statutes. Section 105-228.29 (See N.C. Attorney General Opinion in 43 N.C.A.G. 79 (1973)) Parcel Identifier No. Part of 4690-69-0018 and 469049-5667 Verified by County on the day of .20 By: AtaitBox to: instrument was prepared by: Moore R Van Allen PLLC. 100 N. Trvon Street. Ste. 4700, Charlotte, NC 23202 Attn: E. olds ***No title examinatinn conducted by nrennrer •*• Brief description for the Index: Portion oFTa.x Parcels noted above located to the North of Goodman Road THIS DEED made this _'CO_�— day of _'�> ��016. by and between GRANTOR CK AFI-ON RIDGE LAND. LLC. a North Carolina limited liability company 301 S. College Street, Suite 2800 Charlotte, NC 28202 GRANTEE CK AFTON RIDGE LAND. LLC. a North Carolina limited liability company 301 S. College Street. Suite 2800 Charlotte, NC 28202 Enter in appropriate block for each Grantor and Grantee: name, mailing address, and, if appropriate, character of entity, e.g. corporation or partnership. The designation Grantor and Grantee as used herein shall include said parties. their heirs. successors. and assigns, and shall include singular, plural, masculine, feminine or neuter as required by contest. WFFNESSEPI I, that the Grantor; for a valuable consideration paid by the Grantee, the receipt ofwhich is hereby acknowledged. has and by these presents does grant, bargain, sell and convey unto the Grantee in fee simple, all that certain lot, parcel of land or condominium unit situated in the No. 2 Township. Cabanus County, North Carolina and more particularly described as follows: See "Exhibit A" attached hereto and incorporated herein by reference. Page I of J NC Bar Association Form No. 6 © Re, ised 7/2013 Printed by Agreement with the NC Bar Association CHARM 35390Sr2 This standard form has been approvcd jointly by: North Carolina Bar Association - NC Bar Form No. 6 North Carolina Association of Realtors. Inc. - Standard Form 6 The property hereinabove described was acquired by Grantor by instrument recorded in Book ZI ZOZ, Paee q 7 and Book Pape /0. All or a portion of the property herein conveyed _ includes or X does not include the primary residence of a Grantor. A map showing the above described property is recorded in Plat Book / Z. . Paee SZ . The sole purpose of this document is to reflect the recombination of Lots I and 2 on said plat. TO HAVE AND TO HOLD the aforesaid lot or parcel of land and all privileges and appurtenances thereto belonging to the Grantee in fee simple. And the Grantor covenants with the Grantee. that Grantor has done nothing to impair such title as Grantor received. and Grantor will warrant and defend the title against the lawful claims of all persons claiming by, under or through Grantor, other than the following exceptions: 1. All easements and restrictions of record. 2. Zoning and other land use regulations and all laws applicable to the Property. 3. The lien of 2017 ad valorem taxes which are not yet due or payable. The sole purpose of this deed is to effect a combination of those properties labeled as Lot 1 (5.54 acres) and Lot 2 (232 acres) on that plat recorded in Book 7-2- . Page 152 of the Cabarrus County Registry. [signature page follows] Page 2 of J NC Bar Association Form No. 6 O Revised 712013 Printed by .Agreement with the NC Bar Association CHAR2\I653909,2 This standard form has been approved jointly by: North Carolina Bar Association - NC Bar Form No. 6 North Carolina Association of Realtors. Inc. - Snwndad Form 6 IN WITNESS WHEREOF, the Grantor has duly executed the foregoing as of the day and year first above written. CK AFTON RIDGE LAND, LLC, a North Carolina limited liability company By: Childress I in Properties, Inc., its manager i1 By: Name: Landon att, III Title: Vice President State of North Carolina - County of 11I 1, the undersigned Notary Public ofthe County of and State aforesaid, certify that Landon R. Wyatt, III personally appeared before me this day and acknowledged the due execution of the ping instrument for the purposes therein expressed. Witness my hand and Notarial stamp or seal this day of 0 , 2016. My Commission wis V (1 0 Notary Public (Affix Seal) �NO'i& LOhyF°V. Notary's1 imed or Typed Nime R Q�P 0 G o N010 pVg�� A 2` Page J of 3 NC Bar Association Form No. 60 Revised 7R0I7 Printed by Agreement with the NC Bar Association CRAR2U851908 This standard form has been approved joimty by: North Carolina Bar Ass iariao- NC Bar Form No. 6 North Carolina As o iation of Realtors, Inr. Standard Form 6 EXHIBIT A Being that certain parcel of land lying and being situate in Township No. 2, Cabamts County, North Carolina and being more particularly described as follows: Beginning at a rebar located at a southern comer of Donald E. Whitaker, Trustee, recorded in Book 10691, Page 81. said point being the northwest corner of the herein described tract and having North Carolina Grid Coordinates (NAD83/2011) N: 610.669.47 feet and E: 1,495,620.39 feet, said point being the POINT OF BEGINNING; thence along the southern line of said Donald E. Whitaker. Trustee North 40043'41 "East 220.07 feet to a rebar at the northwest comer of 6200 Glen Afton. LLC. recorded in Book l 18) 4. Paue 148: thence along the line of said 6200 Glen Afton, LLC South 18'42'40" East 579.16 feet to an iron pipe: thence South 18'42'40" East 10.00 feet to a 24-inch pine tree; thence South 85°28'44" East 10.00 feet iron pipe: thence South 85°28'44" East 97.20 feet to a rebar at the northwest comer of Paul and Wanda Williams. recorded in Book 443. Page 680, thence alone the line of said Williams South 05'20'32" West 610.61 feet to a rebar located on the northern right of way line of Goodman Road. a 60-foot public right of way; thence South OS020'32" West 30.31 feet to a point in the centerline of Goodman Road; thence along the centerline of said Goodman Road the following six calls: (1) South 83°38'55" West 55.63 feet to a point; (2) South 82'10'49" West 102.31 feet to a point; (3) South 80°00'39" West 69.50 feet to a point; (4) South 78°46'36" West 39.30 feet to a point: (5) South 78°21'27" West 3553 feet to a point and (6) South 77°48'01" West 64.53 feet to a point on the eastern line of Nancy and Richard Smith, recorded in Book 10422. Page 344; thence leaving the centerline of Goodman Road and following the said eastern line of Smith North 03'18'09" East 30.00 feet to an iron pipe located on the northern right of way line of Goodman Road: thence North 05' 18'09" East 698.05 feet to a rebar, thence along a new line North 12e54'10" West 383.16 feet to the POINT OF BEGINNING. containing 342,607 square feet. or 7.865 acres, more or less. Page 4 of 4 NC Bar Association Form N'o.6 O Re,iscd 712013 Printed by Agrcetnent with the NC Bar association CHAR2u 853908,2 This standard form has been appmynl jointly by - North Carolina Bar Association — NC Bar Form No. 6 Nonh Carolina Association of Realtors. Inc. —Standard Form 6 State of North Carolina Department of the Secretary of State Limited Liability Company ARTICLES OF ORGANIZATION SO S I D: 1558497 Date Filed: 12/6/2016 9:49:00 AM Elaine F. Marshall North Carolina Secretary of State C2016 337 00674 Pursuant to §57D-2-20 of the General Statutes of North Carolina, the undersigned does hereby submit these Articles of Organization for the purpose of forming a limited liability company. The name of the limited liability company is: CK Afton Ridge Land, LLC (See Item lof the Instructions for appropriate entity designation) 2. The name and address of each person executing these articles of organization is as follows: (State whether each person is executing these articles of organization in the capacity of a member, organizer or both. Note: This document must be signed by all persons listed.) Name Address Capacity Landon R. Wyatt, III . Go Childress Klein, 301 S. College St, #2800 Organizer Charlotte, NC 28202 3. The name of the initial registered agent is: Cyrus Johnson, Esq. 4. The street address and county of the initial registered agent office of the limited liability company is: Number and Street 301 S. College Street, Suite 3500 Charlotte 28202 Mecklenburg City State: NC Zip Code: County: 5. 1.1 The mailing address, if different from the street address, of the initial registered agent office is: Number and Street n/a City State: NC Zip Code: County: Principal office information: (Select either a or b.) a. ❑N The limited liability company has a principal office. The principal office telephone number: 704-342-9000 The street address and county of the principal office of the limited liability company is: Number and Street: 301 S. College Street, Suite 2800 City: Charlotte NC State:_ Zip Code: 28202 County: Mecklenburg CORPORATIONS DIVISION P.O. Box 29622 RALEIGH, NC 27626-0622 (Revised December2016) 2 (Form L-01) The mailing address, if different from the street address, of the principal office of the company is: Number and Street: City: State: Zip Code: County: b. ❑ The limited liability company does not have a principal office. Any other provisions which the limited liability company elects to include (e.g., the purpose of the entity) are attached. 8. (Optional): Listing of Company Officials (See instructions on the importance of listing the company officials in the creation document. Name Title Business Address Privacy Redaction 9. (Optional): Please provide a business e-mail addres The Secretary of State's Office will e-mail the business automatically at the address provided above at no cost when a document is filed. The e-mail provided will not be viewable on the website. For more information on why this service is offered, please see the instructions for this document. 10. These articles will be effective upon filing, unless a future date is specified: This is the 2nd day of December 20 16 CK Afton Riclae Land, LLC Signature Landon, R. Wyatt, III, Organizer Type or Print Name and Title The below space to be used if more than one organizer or member is listed in Item #2 above. Signature Type and Print Name and Title Signature Type and Print Name and Title NOTE: 1. Filing fee is $125. This document must be filed with the Secretary of State. CORPORATIONS DIVISION P.O. Box 29622 RALEIGH, NC 27626-0622 (Revised December2016) 3 (Form L-01)