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Home My WebLink About014 - Appendix L - Geotech Report Rawhide EngineeringInc. 6871 King Avenue West,Suite GIK,Billings,Montana(406)969-5305 PRELIMINARY GEOTECHNICAL INVESTIGATION REPORT SOUTH 40 SUBDIVISION SOUTH 19TH AVENUE & WEST GRAF STREET BOZEMAN, MONTANA PREPARED FOR: Mr. Matt Ekstrom Morrrison Maierle PO Box 1113 Bozeman, MT 59771 Rawhide Engineering, Inc. October 21,2022 ERawhide Engineering Inc. October 21, 2022 Morrison Maierle PO Box 1113 Bozeman, MT 59771 SUBJECT: Preliminary Geotechnical Investigation Report South 40 Subdivision South 19th Avenue & West Graf Street Bozeman, Montana Dear Mr. Ekstrom: This report presents the results of our preliminary geotechnical investigation for the South 40 Subdivision located on South 19th Avenue & West Graf Street in Bozeman, Montana. The site location and test pit locations are shown on the Vicinity/Site Map shown on Plate 1 at the end of this report. This site is proposed to have residential and commercial property. Our recommendations contained in this report are based on exploratory test pits, laboratory testing, engineering analysis and preparation of this report. The recommendations required to design preliminary foundations and utility installation are contained in the attached report. These conclusions and recommendations, along with restrictions and limitations on these conclusions, are discussed in the attached report. We appreciate this opportunity to be of service to you, and look forward to future endeavors. If you have any questions regarding this report or need additional information or services, please feel free to call the undersigned. pNT,gN�. Sincerely, ' ROBERT WAYNE RAWHIDE ENGINEERING, INC. // KUKES Jason A. Frank Principal Pi NA�E Enclosures: Report (1 hard copy, 1 pdf) Rawhide Engineering, Inc. October 21,2022 TABLE OF CONTENTS PAGE INTRODUCTION ...........................................................................................................................1 ProjectDescription..............................................................................................................1 Scopeof Service.................................................................................................................I Authorization ......................................................................................................................I Professional Statements and Limitations............................................................................I PROPOSED CONSTRUCTION......................................................................................................2 FIELDINVESTIGATION .................................................................................................................2 LABORATORYTESTING ..............................................................................................................2 MoistureContent Tests........................................................................................................3 SoilClassification Tests.......................................................................................................3 Resistivityand pH Tests......................................................................................................4 SUBSURFACE SOILS AND GROUNDWATER............................................................................4 RECOMMENDATIONS...................................................................................................................4 Excavations ......................................................................................................................4 Material .................................................................................................................5 Placement and Compaction ....................................................................................5 FOUNDATIONS........................................................................................................................5 Shallow Foundations.................................................................................5 StructuralFill..................... ...........................................................................................6 CompactionRequirements...................................................................................................7 CONCRETESLAB-ON-GRADE.....................................................................................................7 SITEDRAINAGE ............................................................................................................................8 APPENDICES A Plates October 21,2022 PRELIMINARY GEOTECHNICAL INVESTIGATION REPORT SOUTH 40 SUBDIVISION SOUTH 19TH AVENUE &WEST GRAF STREET BOZEMAN, MONTANA INTRODUCTION Project Description This report is to determine the subsurface soils on this site and provide preliminary recommendations for future development of residential and commercial property. The project also includes utilities and interior streets. The new buildings will be on South 19th Avenue & West Graf Street in Bozeman, Montana as shown on the site map, Plate 1 at the end of this report. Scope of Services Our scope of services for this project consisted of the following: 1. Excavating 6 exploratory test pits to a depth ranging from 8.0 to 9.0 feet below existing site grades. 2. Laboratory testing to determine the characteristics of the site soils for use in engineering design. 3. Engineering analysis to aid in the preliminary design of structure foundations and structural pavement sections. 4. Provide information as to the existing groundwater conditions at the time of our exploration. 5. Provide recommendations for earthwork and construction on the site. This study did not include evaluations of site seismicity, liquefaction, faulting, or other potential geologic or environmental hazards. This study did not include a groundwater study or the design of a dewatering system. Authorization Authorization to proceed with our work on this project was provided on September 22, 2022. Professional Statements and Limitations Recommendations presented in this report are governed by the physical properties of the soils encountered in the exploratory test pits, laboratory testing, current groundwater conditions, the project layout and design data described in the following proposed construction section. 1 The recommendations presented in this report are based on exploratory test pit locations shown on the site map. Variations in soils may exist between the explored locations and the nature and extent of soil variations may not be evident until construction occurs. If subsurface conditions other than those described in this report are encountered and if project design and layout is substantially altered from the information in this report, Rawhide Engineering should be notified so that recommendations can be reviewed and amended, if necessary. This report has been prepared for design purposes for our client and specifically for this project in accordance with the generally accepted standards of practice at the time the report was written. No warranty, either expressed or implied, are intended or made. Other standards or documents referenced in any given standard cited in this report, or otherwise relied upon by the authors of this report, are only mentioned in the given standard; they are not incorporated into it or "included by reference," as that latter term is used relative to contracts or other matters of law. PROPOSED CONSTRUCTION It is our understanding that this project will include residential and commercial development with utility installation and interior street construction. Structural loads and foundation type will be designed at a later date if the project proceeds on this site. FIELD INVESTIGATION In order to determine and evaluate the subsurface conditions across the site, 6 exploratory test pits were completed using a track hoe provided by Rawhide Engineering. Test pit depths were 8.0 to 9.0 feet below the existing ground surface. The location of the test pits shown on the Vicinity/Site Map were dimensioned from property corners with the site map provided. This location should be considered accurate only to the degree implied by the method used. The field investigation was under the direct control of an experienced member of our geotechnical staff who logged the soil conditions for each test pit. Samples were obtained from bulk samples during the test pit excavation. The bulk samples were examined by field personnel, logged and sealed to prevent moisture loss prior to laboratory testing. After completion, the groundwater level in the test pit was recorded and the test pits were backfilled using the excavated material. The test pit logs included at the end of this report are labelled TP-1 through TP-6. A test pit log legend and a description of the Unified Soil Classification System used to identify the soils is included with the test pit logs. 2 LABORATORY TESTING A laboratory testing program was utilized to provide the necessary data for engineering analysis of this project. The testing was used to evaluate the index and engineering properties specifically for the conditions encountered during our field exploration. The following program was used for this project. Moisture Content Tests—ASTM D2216 Moisture content tests were conducted on selected samples obtained from the site. These tests were used to aid in identifying the current soil conditions and aid in classifying the soils. Moisture content tests are shown on the test pit logs. Soil Classification Tests —ASTM D422, D1140, D4318, D2487 and D2488 In order to classify the soils according to the Unified Classification System, soil gradations and Atterberg Limits test were conducted on selected samples. The results of this testing is shown below and on the test pit logs. Gradations and Atterberg Limits Tests Percent Passing Sieve Size TP-3 @ 1.0-3.0' No. 4 100 No. 10 97 No. 20 83 No. 40 71 No. 80 59 No. 200 52 Plastic Index 10.7 Unified Sandy Lean Clay Classification I (CL 3 CORROSIVITY AND pH TESTING The City of Bozeman requested corrosivity and pH testing for the soils on the site to determine the life expectancy of metal underground utilities. Four test pits were sampled at a depth of 6.5 feet below existing site grades. The samples were all gravel with sand. The testing will be performed by Energy Lab in Billings, Montana. The test results will be forwarded when completed by the outside laboratory. SITE CONDITIONS The site is located on the southeast corner of 1911 Avenue and Graf Street in Bozeman, Montana. The site is bordered by 191h Avenue on the West, Graf Street on the North and developed residential property and agricultural land on the remaining sides. The site is currently covered by vegetation. This 40 acre parcel slopes to the northwest. Drainage consists of infiltration and runoff to topographical low areas. SUBSURFACE SOILS AND GROUNDWATER The soil conditions encountered on the site generally consist of a layer of vegetated topsoil which was underlain by a layer of sandy lean clay to depths ranging from 2.5 to 3.5 feet. Beneath the sandy lean clay we encountered gravel with sand and cobbles to the depths explored of 8.0 to 9.0 feet below existing site grades. The sandy lean clay with sand layer was medium stiff and has a moderate plastic index. The gravel with sand was dense and was granular non-plastic. Groundwater was encountered in the test pits at depths ranging from 4.8 to 6.8 feet during our exploration in October 2022. RECOMMENDATIONS Prior to construction, the topsoil with vegetation layer should be stripped and removed from the site. It appears about 1.0 foot can be used as a reasonable estimate for average depth of stripping. Prior to placing fill for the future building pads, the building pad area should be scarified, moisture conditioned and compacted to 95% of ASTM D698. Excavations resulting from removal operations should be cleaned of all loose material and widened as necessary to permit access to compaction equipment. Excavations The contractor is ultimately responsible for the safety of workers and should strictly observe federal and local OSHA requirements for excavation shoring and safety. All temporary slopes should comply with OSHA requirements for Type A soils in the upper fine grained soils and Type C in the native gravel with sand. During wet weather, runoff water should be prevented from entering excavations. 4 It appears that excavation for footings and utility trenches can be readily made with either a conventional backhoe or excavator in the native soil materials. We expect the walls of the footing trenches in the near surface fine grained soils and lower gravel with sand to stand near vertically without significant sloughing. If trenches are extended deeper than five feet or are allowed to dry out, the excavations may become unstable and should be evaluated to verify their stability prior to occupation by construction personnel. Shoring or sloping of any deep trench walls may be necessary to protect personnel and provide temporary stability. All excavations should comply with current OSHA safety requirements for Type A soils in the upper fine grained soils and Type C in the native gravel with sand. (Federal Register 29 CFR, Part 1926). Backfills for trenches or other excavations within pavement areas should be compacted in six to eight inch layers with mechanical tampers. Jetting and flooding should not be permitted. We recommend all backfill be compacted to a minimum compaction of 97% of the maximum dry density as determined by ASTM D698. The moisture content of compacted backfill soils should be within 2% of the optimum. Poor compaction in utility trench backfill may cause excessive settlements resulting in damage to the pavement structural section or other overlying improvements. Compaction of trench backfill outside of improvement areas should be a minimum of 90% relative compaction. Material - Pipe bedding shall be defined as all material within six inches of the perimeter of the pipe. Backfill shall be classified as all material within the remainder of the trench. Material for use as bedding shall consist of clean, granular materials, and shall conform to requirements for bedding material listed in the Standard Specifications. Placement and Compaction - Pipe bedding shall be placed in thin layers not exceeding eight inches in loose thickness, and conditioned to the proper moisture content for compaction. All other trench backfill shall be placed in thin layers not exceeding eight inches in loose thickness, conditioned to the proper moisture content, and compacted as required for adjacent fill. If not specified, backfill should be compacted to at least 97% relative compaction in areas under structures, utilities, roadways, parking areas, concrete flatwork, and to 90% relative compaction in undeveloped areas. Foundations At this time this is a preliminary report and the size and design of residential and commercial buildings is not known. We would recommend that future buildings would be constructed with conventional shallow stem wall foundations. The foundations can bear on the native gravel with sand layer. If the gravel layer is lower than the footing elevation they should be excavated down to the gravel with sand and cobble layer. Due to the large cobbles encountered on this site, it 5 may be advantageous to place 1 foot of structural fill under the entire building envelope to aid in concrete forming and provide a uniform bearing surface. Structural loads are not available for this project. Based on our exploration we would recommend an allowable bearing capacity of 4,000 psf for the native gravel with sand layer or compacted structural fill. Settlements will be calculated later when the type of building and structural loads are known. Structural fill shall be placed in layers, moisture conditioned, and compacted to 98% of ASTM D698. Exterior continuous footings should be 4.0 feet in depth to provide frost protection. Interior column footings should be embedded 1 foot in depth for confinement. Wall foundation dimensions should satisfy the requirements listed in the latest edition of the International Commercial Code. Reinforcing steel requirements for foundations should be provided by the design engineer. The allowable bearing pressures, indicated above, are net values, therefore, the weight of the foundation and backfill may be neglected when computing dead loads. Allowable bearing pressures may be increased by one-third for short-term loading such as wind or seismic. Resistance to lateral loads in the gravel with sand may be calculated using an allowable passive equivalent fluid unit weight of 360 pounds per cubic foot and an allowable coefficient of friction of 0.47 applied to vertical dead loads. Both passive and frictional resistances may be assumed to act concurrently. An allowable active equivalent fluid pressure of 38 pounds per cubic foot may be used. The International Building Code (IBC) site class for this project is Class C. This site may require a dewatering system to install utilities. Designing a dewatering system was not part of our scope of services. The dewatering system should be designed by a competent engineer with experience designing dewatering systems and there effects on adjacent structures. Structural Fill Structural fill will be used beneath the footings and should consist of dense gravel with sand and conforming to the following gradation and plastic index. Sieve Size Percent Passing 3 Inch 100% No. 4 25-65% No. 200 <20% Plastic Index 12 or less All structural fill shall be placed in eight inch loose lifts and uniformly moisture conditioned to within +/-2% of optimum moisture content. The contractor shall provide and use sufficient equipment of a type and weight suitable for the conditions encountered in the field. The 6 equipment shall be capable of obtaining the required compaction in all areas, including those that are inaccessible to ordinary rolling equipment. Compaction Requirements The following table lists the compaction requirements for structural fill, foundation backfill, utility trench backfill and street subgrade preparation. COMPACTION REQUIREMENTS Structural Fill Beneath Foundations 98% of ASTM D698 Backfill Against Foundations 95% of ASTM D698 Utility Trench Backfill 97% of ASTM D698 Building Pad Construction 95% of ASTM D698 Concrete Slab-on-Grade Construction Prior to constructing concrete slabs, the upper six inches of slab subgrade should be scarified, moisture conditioned to within 2% of optimum, and uniformly compacted to at least 95% of maximum dry density as determined by ASTM D698. The building pad may be constructed using on site soils or imported fill and then covered by the base course. Scarification and compaction will not be required if floor slabs are to be placed directly on undisturbed compacted structural fill. All concrete floor slabs should have a minimum thickness of four inches. Slab thickness and structural reinforcing requirements within the slab should be determined by the design engineer. At least eight inches of crushed base aggregate should be placed beneath slab-on-grade floors to provide uniform support. The aggregate base should be compacted to a minimum of 95% relative compaction. In floor slab areas where moisture sensitive floor coverings are planned, an impermeable membrane (e.g. 10-mil thick polyethylene) should be placed over the base course to reduce the migration of moisture vapor through the concrete slabs. The impermeable membrane should be installed as required by the flooring manufacturer. Current literature from the American Concrete Institute and the Portland Cement Association recommend that the vapor barrier is placed on top of the crushed base course and the concrete is placed directly on the vapor barrier. 7 Site Drainage Final elevations at the site should be planned so that drainage is directed away from all foundations and concrete slabs. Parking areas should be designed to drain surface water off the sight and away from structures. According to the International Commercial and Residential Code, structures should be designed to have 6" of fall in the first 10 feet away from the structure. If this cannot be attained, drainage swales need to be constructed to drain water away from the structure and off of the site. Down spouts with 6 foot extensions should be used for residential structures. 8 APPENDIX A Plates Site / Vicinity Map ') rmms i Project Location -- �,� f�' �''`:_. was -.;.�•�� Y ,�C•r� �. i �{�y.` �- V. a .�✓:�..�iU'�iie3.�LJf3:'.3�3J ��• r /""'' is �'� ��• �. C- vt.-- _ -/ '�!�-�.-.:ice_;' -- -- - �'•--- - �� _.�+�{� `� --,�[. TP-1 - TP-2 I +— TP-3 � { � t • i - ♦ -- nnisbnlLrff -Jacobs St RE k,,...,...,�. Fnglur.��ln,�/nr. TEST PIT LOG LOGGED BY: J. Frank PROJECT: South 40 Subdivision DRILL METHOD: Excavator RW. Graf Street& South 19th Avenue DRILLER: K2 Ventures ERawhide CLIENT: Morrison Maierle - Bozeman DATE: 10/14/22 Engineering Inc. LOCATION: Bozeman, Montana ELEVATION: SAMPLES LABORATORY TESTING 0 O TEST PIT NUMBER: 1 v F �n o = �— G U o U L o u `" MATERIAL DESCRIPTION AND COMMENTS U 3 Topsoil with Vegetation and Organics - Brown, Moist, 1 Medium Stiff 2 CL Sandy Lean Clay- Brown, Moist, Medium Stiff, Moderate Plastic Index 3 4 GP Gravel and Cobbles with Sand - Gray/Brown, Moist to Wet, 5 Dense, Granular Non-Plastic 6 Groundwater Level at 6.4 Feet 7 Sample at 6.5 Feet for Corrosive Soils Tests 8 9 Test Pit Ends at Approximately 9.0 Feet Depth 10 Groundwater Was Encountered at 6.4 Feet 11 12 13 14 15 16 17 18 19 20 6871 King Ave. West, Suite G1 K, Billings, MT 59106 (406) 969-5305 Fax:(406) 969-5307 TEST PIT LOG LOGGED BY: J. Frank � PROJECT: South 40 Subdivision DRILL METHOD: Excavator RW. Graf Street& South 19th Avenue DRILLER: K2 Ventures ERawhide CLIENT: Morrison Maierle- Bozeman DATE: 10/14/22 Engineering Inc. LOCATION: Bozeman, Montana ELEVATION: SAMPLES _ LABORATORY TESTING O �^ r' TEST PIT NUMBER: 2 U o c� G o cCi N MATERIAL DESCRIPTION AND COMMENTS 3 ° Topsoil with Vegetation and Organics - Brown, Moist, Medium Stiff 1 2 CL Sandy Lean Clay - Light Brown to Brown, Moist, Medium Stiff, Moderate Plastic Index 3 GP Gravel and Cobbles with Sand -Gray/Brown, Moist to Wet, 4 Dense, Granular Non-Plastic 5 Groundwater Level at 4.8 Feet 6 7 Sample at 6.5 Feet for Corrosive Soils Tests 8 Test Pit Ends at Approximately 8.0 Feet Depth 9 Groundwater Was Encountered at 4.8 Feet 10 11 12 13 14 15 16 17 18 19 20 6871 King Ave. West, Suite G1 K, Billings, MT 59106 (406) 969-5305 Fax:(406) 969-5307 TEST PIT LOG LOGGED BY: J. Frank _QJA�; PROJECT: South 40 Subdivision DRILL METHOD: Excavator W. Graf Street& South 19th Avenue DRILLER: K2 Ventures R Rawhide CLIENT: Morrison Maierle- Bozeman DATE: 10/14/22 E Engineeri,:g Inc. LOCATION: Bozeman, Montana ELEVATION: SAMPLES _ LABORATORY TESTING O T y = TEST PIT NUMBER: 3 o 0 U MATERIAL DESCRIPTION AND COMMENTS� 3 c Topsoil with Vegetation and Organics - Brown, Moist, 1 Medium Stiff 2 CL Sandy Lean Clay - Brown, Moist, Medium Stiff, F 14.2 10.7 51.6 2.0 Moderate Plastic Index 3 4 GP Gravel and Cobbles with Sand -Gray/Brown, Moist to Wet. 5 Dense, Granular Non-Plastic 6 Groundwater Level at 6.5 Feet 7 8 Test Pit Ends at Approximately 8.0 Feet Depth 9 Groundwater Was Encountered at 6.5 Feet 10 11 12 13 14 15 16 17 18 19 20 6871 King Ave. West, Suite G1 K, Billings, MT 59106 (406) 969-5305 Fax:(406) 969-5307 TEST PIT LOG LOGGED BY: J. Frank __j � PROJECT: South 40 Subdivision DRILL METHOD: Excavator RW. Graf Street& South 19th Avenue DRILLER: K2 Ventures ERawhide CLIENT: Morrison Maierle - Bozeman DATE: 10/14/22 Engineering Inc. LOCATION: Bozeman, Montana ELEVATION: SAMPLES LABORATORY TESTING 0 Y TEST PIT NUMBER: 4 MATERIAL DESCRIPTION AND COMMENTS Topsoil with Vegetation and Organics - Brown, Moist, Medium Stiff 1 2 CL Sandy Lean Clay with Some Scattered Gravels- Brown, Moist Medium Stiff, Moderate Plastic Index 3 4 GP Gravel and Cobbles with Sand - Gray/Brown, Moist to Wet. 5 Dense, Granular Non-Plastic 6 7 Groundwater Level at 6.8 Feet 8 9 Test Pit Ends at Approximately 9.0 Feet Depth 10 Groundwater Was Encountered at 6.8 Feet 11 12 13 14 15 16 17 18 19 20 6871 King Ave. West, Suite G1 K, Billings, MT 59106 (406) 969-5305 Fax:(406) 969-5307 QjTEST PIT LOG LOGGED BY: J. Frank _ � PROJECT: South 40 Subdivision DRILL METHOD: Excavator W. Graf Street& South 19th Avenue DRILLER: K2 Ventures R Rrrwhirle CLIENT: Morrison Maierle- Bozeman DATE: 10/14/22 E Engineering Inc. LOCATION: Bozeman, Montana ELEVATION: SAMPLES LABORATORY TESTING 0 T TEST PIT NUMBER: 5 it u o � MATERIAL DESCRIPTION AND COMMENTS U 3 c Topsoil with Vegetation and Organics - Brown, Moist, 1 Medium Stiff 2 CL Sandy Lean Clay - Brown, Moist, Medium Stiff, Moderate Plastic Index 3 4 GP Gravel and Cobbles with Sand -Gray/Brown, Moist to Wet, Dense, Granular Non-Plastic 5 6 7 Sample at 6.5 Feet for Corrosive Soils Tests Groundwater Level at 6.8 Feet 8 9 Test Pit Ends at Approximately 8.5 Feet Depth Groundwater Was Encountered at 6.8 Feet 10 11 12 13 14 15 16 17 18 19 20 6871 King Ave. West, Suite G1 K, Billings, MT 59106 (406) 969-5305 Fax:(406) 969-5307 TEST PIT LOG LOGGED BY: J. Frank PROJECT: South 40 Subdivision DRILL METHOD: Excavator RW. Graf Street& South 19th Avenue DRILLER: K2 Ventures ERawhide CLIENT: Morrison Maierle - Bozeman DATE: 10/14/22 Engineering Inc. LOCATION: Bozeman, Montana ELEVATION: SAMPLES LABORATORY TESTING y = x o f TEST PIT NUMBER: 6 o .. U CZ MATERIAL DESCRIPTION AND COMMENTS 3 E: Topsoil with Vegetation and Organics- Brown, Moist, 1 Medium Stiff 2 CL Sandy Lean Clay - Brown, Moist, Medium Stiff, Moderate Plastic Index 3 4 GP Gravel and Cobbles with Sand -Gray/Brown, Moist to Wet, Dense, Granular Non-Plastic 5 Groundwater Level at 5.4 Feet 6 7 Sample at 6.5 Feet for Corrosive Soils Tests 8 9 Test Pit Ends at Approximately 9.0 Feet Depth 10 Groundwater Was Encountered at 5.4 Feet 11 12 13 14 15 16 17 18 19 20 6871 King Ave. West, Suite G1 K, Billings, MT 59106 (406) 969-5305 Fax:(406) 969-5307 TEST PIT LOG LEGEND MATERIAL DESCRIPTION Soil Pattern USCS Symbol USCS Classification µ FILL Artificial Fill GP or GW Poorly/Well graded GRAVEL GM Silty GRAVEL GC Clayey GRAVEL GP-GM Poorly graded GRAVEL with Silt GP-GC Poorly graded GRAVEL with Clay SP or SW Poorly/Well graded SAND SM Silty SAND SC Clayey SAND SP-SM Poorly graded SAND with Silt SP-SC Poorly graded SAND with Clay SC-SM Silty Clayey SAND ML SILT MH Elastic SILT CL-ML Silty CLAY CL Lean CLAY CH Fat CLAY PCEM PARTIALLY CEMENTED CEM CEMENTED BDR BEDROCK CONSISTENCY Cohesionless Soils Cohesive Soils Cementation VL Very Loose So Soft MH Moderately Hard L Loose F Firm H Hard MD Medium Dense S Stiff VH Very Hard D Dense VS Very Stiff VD Very Dense SAMPLING SPT Shelby Tube NR No Recovery Bulk Sample Water Table RRawhide E Engineering Inc. UNIFIED SOIL CLASSIFICATION SYSTEM CrIteda for As&Wbg Group Symbols and Group Rastas thing Uboratory Tests• Sop Classtatso t Group Symbol Group Name' Coarse Gndrtcd Soft Caravels Chen Gravels Cu a 4 and 1 s Cc s 34 GW Weal ended WavO MOM than 50%retained Mom tlwrt 50%of rouse Leas Om S%Mats` Cu<4 and/or 1 J.Cc 3.3m GP Poorly waded waysf frac6orteetatrte0 on on No.200 slave No.4 sieve Gravels vEttt Etna Fines ofasstty as UL or MH Gal SBy gravora•" Mom Ittun 12%flnes° Fines ciassdy as CL or CH GC Clayey groom°" Sands Dean Sands Cu a 6 and 1 s Cc s 3' SW Weagraded sang' 50%or more of cosrss Less than 5%lump° Cu c 6 and/or 1>Cc>3` SIP Posy Waded sand' traction passes 4 sbve Sands%M tines Flrtos Cssstfy as ML or MH Sal Sft rand— ham Crap 12%Ones° Fbws Ctssatty as CL or CFI SC Ctayay sand"" lirw•Geabmd Sofa Sttts and Osys tnorgank PI>7 and plots on or above A'Bras' CL Lem day-- 50%50%or mote pasiros ate L*W fta b"than 60 PI<4 or plots babes A true' ML No.200 slaw "gale Liquid lbrA-own dyad <0.75 OLorgant datl"� Liquid Btni-not dtlod orwft an,— SMs and Clays trnrgatdc PI plots at or above W Ino CH Fat dr/— Liquid Ift t 50 or etOre Pt rusts bebw A'am MH Elastic SM"' orgaft Liquid&Y*-oven dried dw"Yl <0.75 OH Liquid grO-not dried Orgartk ta3f'"f° mwdy orpanle sob Prlmarfy orgatde rnaW,dark In color.and crgardo odor PT Poo "Based a1 the material passtnp the 31n.(75 mm)sieve MN Ones we o rgandc,add NAM orgsrttc 13rtes'to group name. *If field sample contained cobbfas or boulders,or bath,add Will cobblos 1 If soft confabs 215%gravei.add**t!I prover to group name. or bouldem or boV to group nano. j cnmvwta r4ar�rtlh 3 1M ?%&r wo nvp&a tkw nymeetn• [a 4m w.ts cmisad KM ACetberg Iu l riot to shaded area.so7 is a C41w silly day gravel wlfh sk GW-GC wall-Waded wavel waft day.GP-WA poory Hoof.-W*ts 16 b prod plus No 200.Wd 1utOt send'or'1wid+ gravel;vt/ddwvor b prodomFnsnL graded grave!-V%sit.GP-GC point grader!gravel vAlh day. L tf son confabs a 30%plus No.200 pn'domMar dy sand.add °Sands wM 5 to 12%Wtes mqube dual symbols: SWSM well-Wsdod 'saw to group narm sand wqh sK SW-SC wdWadod sand vft day.SPSM poorly graded U If soil coetatrs 2 30%puts No.200.pmdonktnwtfy travet sand mm SUL SP•SC poorly graded sand%VM day add*WaveDyr to group name. a Cu m ono Cc>Z (Df "PI a 4 and plus an or above A Une. Do x Ow o PI<4 or plots botow A Bw. If loll wnbdns a 15%sand.add'Aft sand'to group name. °PI plot on or above'A Itne. otf Poles dessify as CL-ML.use drml syrtt4ol GC.GK or SC-WA o PI Pyob betow'A'line. 60 For cfasatficatlan of flno•gratned ✓, sells and Aso gratnad hecllan 50 ofZ. Ooarse- fed seEla Hodmoraat al Pbs to LL.25 b 40 Own P%A73 0 4 M rgraftn w V'•rats �j► z vordod at LLe10 30 Own P1.O.la(LL-3) aD %mod MH or OH IL 10 7 -- 4 - r .- OL 0 0 10 is 2D 30 40 So 60 70 80 g0 too Ho LIQUID LIMIT(I-L) R � EERawhide F.nRineerinR/nc