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Home My WebLink AboutSW5220302_Soils/Geotechnical Report_20220406GEOTECHNICAL EXPLORATION REPORT NORTH CAROLINA NATIONAL GUARD NCNG JFHQ HELIPAD DISTRICT DRIVE RALEIGH, NORTH CAROLINA JOB NUMBER: 42866 PREPARED FOR: NORTH CAROLINA NATIONAL GUARD 1636 GOLD STAR DRIVE SUITE 2600 RALEIGH, NORTH CAROLINA 27607 January 30, 2020 & 0 a TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. TABLE OF CONTENTS 1. PROJECT INFORMATION.................................................................................... 1 2. FIELD EXPLORATION.......................................................................................... 2 2.1 Hand Auger Borings........................................................................................... 2 2.2 Test Pits............................................................................................................... 2 3. SITE GEOLOGY....................................................................................................... 3 4. LABORATORY TESTING...................................................................................... 3 5. SUBSURFACE CONDITIONS................................................................................ 4 5.1.1 Hand Auger Borings............................................................................... 4 5.1.2 Test Pits................................................................................................... 5 6. GEOTECHNICAL COMMENTARY..................................................................... 5 7. LIMITATIONS OF REPORT.................................................................................. 5 8. CLOSURE..................................................................................................................5 APPENDICES Appendix A — Figures Appendix B — Boring Logs Appendix C — Laboratory Test Result Appendix D — Field Report sEl�E TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. January 30, 2020 North Carolina National Guard 1636 Gold Star Drive Suite 2600 Raleigh, North Carolina 27607 Attention: Lieutenant Colonel Robyn Bryant Re: Geotechnical Exploration Report NCNG JFHQ Helipad District Drive Raleigh, North Carolina Timmons Group Project No. 42866 Lieutenant Colonel Bryant: 5410 Trinity Road Suite 102 Raleigh, NC 27607 P 919.866.4951 F 919.859.5663 www.timmons.com Timmons Group is pleased to submit this geotechnical exploration report for the referenced project. The objectives of our services were to explore subsurface conditions and provide a summary of encountered conditions and laboratory test results. This report is a revision to our Revised Geotechnical Engineering Report dated July 2, 2019. The report has been updated to provide only the geotechnical fieldwork data and laboratory test data performed to date. 1. PROJECT INFORMATION The site is just south of the existing North Carolina National Guard Joint Force Headquarters located at 1636 Gold Star Drive in Raleigh, North Carolina. A Site Vicinity Map is shown in Figure 1. Proposed construction will consist of a helipad and associated parking lots and paved drives. Some of the new pavement is expected to receive occasional fuel truck traffic. Mass grading will require excavation and fill depths on the order of 10 feet. The site is bounded by District Drive with the North Carolina National Guard Joint Force Headquarters beyond to the north, Wade Avenue to the south, the North Carolina State Laboratory of Public Health and Office of the Chief Medical Examiner to the west, and Western Wake Fire Revised Geotechnical Data Report Project No.42866 NCNG JFHQ Helipad — Raleigh, NC January 30, 2020 Department to the east. Ground surface elevations in the proposed construction area range from approximately 440 feet in the middle of the site to approximately 424 feet at the northern edge of the site. Site grades generally slope downward from the central peak to the north, south, east, and west. 2. FIELD EXPLORATION The field exploration included a visual site reconnaissance by a representative of Timmons Group, performance of five (5) soil test borings (B-1 through B-5), and performance of nine (9) test pit excavations (T-1 through T-9). Boring and test pit locations were selected by Timmons Group. A representative from Timmons Group established their locations in the field using GPS equipment. Approximate boring locations are shown on Figure 2 in Appendix A. Approximate test pit locations are shown in Appendix D. 2.1 Hand Auger Borings Hand auger borings were performed to depths of approximately 2.5 to 10 feet below the existing ground surface with hand auger drilling techniques. Samples of subsurface soils were taken within the borings at approximate 1-foot depth intervals. Dynamic cone penetrometer (DCP) tests were conducted at 2-foot depth intervals in general accordance with method described by Sowers and Hedges (Dynamic Cone for Shallow In -Situ Penetration Testing, 1966). Several bulk samples of auger cuttings were also collected. Water levels were measured in open boreholes at the time of drilling. Upon completion, boreholes were then backfilled up to the original ground surface with drill cuttings. Representative portions of split -spoon soil samples were returned to our laboratory for quantitative testing and visual classification in general accordance with Unified Soil Classification System guidelines. Boring logs and a generalized soil profile (Figure 3), which present specific information from the borings, are included in the Appendix. Stratification lines shown on the boring logs and profile are intended to represent approximate depths of changes in soil types. Naturally, transitional changes in soil types are often gradual and cannot be defined at particular depths. Boring elevations shown on the logs and profile were obtained from the project topographic plan and should be considered approximate. 2.2 Test Pits After encountering debris -laden existing fill in two of the borings (B-1 and B-2), nine test pits were performed at the site. This exploration is described in our field report dated March 7, 2019, shown in Appendix D. KA Revised Geotechnical Data Report Project No.42866 NCNG JFHQ Helipad — Raleigh, NC January 30, 2020 3. SITE GEOLOGY According to the North Carolina Department of Environment, Health, and Natural Resources, Division of Land Resources, NC Geological Survey, the site is located in the Piedmont Physiographic Province. In general, the Piedmont Province consists of generally rolling, well- rounded hills and ridges with a few hundred feet of elevation difference between the hills and valleys. Elevations in the Piedmont Province range from 300 to 600 feet above sea level near its border with the Coastal Plain to 1,500 feet at the foot of the Blue Ridge. Resistant knobs and hills, called monadnocks, which occur in the Piedmont Province, include the Sauratown, South, and Uwharrie Mountains (Medina, Reid, and Carpenter, 2004). According the referenced Survey, the site is underlain by Felsic Mica Gneiss. Felsic Mica Gneiss is described as interlayered with biotite and hornblende gneiss and schist. 4. LABORATORY TESTING Laboratory testing was performed on representative soil samples obtained from the borings. This testing consisted of natural moisture content, Atterberg limits, grain size analyses, Standard Proctor, and California Bearing Ratio (CBR) on soils. Laboratory tests were performed in general accordance with applicable ASTM procedures. Individual laboratory test data sheets are provided in the Appendix. Summaries of laboratory test data are provided in the tables below. Natural Moisture and Classification Tests Grain Size Atterberg Limits Natural Analysis Depth Moisture USCS o Boring (Feet) Content Classification (%) LL PL PI Sand % And Fines* Gravel B-2 1-2 13.9 40 29 11 46.2 53.8 ML** B-3 1-2 12.5 22 15 7 57.1 42.9 SC* B-4 7.0 27.7 64 47 17 46.1 53.9 NM** *Material passing No. 200 sieve (clay and silt) **Based on visual classification and Atterberg limits 3 Revised Geotechnical Data Report Project No.42866 NCNG JFHQ Helipad — Raleigh, NC January 30, 2020 Standard Proctor and CBR Testing Standard Proctor Natural Optimum Maximum Boring Depth Moisture Moisture Dry CBR o /oSwell USCS (Feet) Content Content Density (01„) Classification (%) (%) (pcf) B-2 1-2 13.9 12.2 121.2 3.4 2.7 ML** B-3 1-2 12.5 12.0 122.1 1.9 0.1 SC* Based on the Atterberg limits testing, near -surface soils are of low to high plasticity. Based on comparison of natural moisture contents of near -surface soils to the optimum moisture contents of the bulk samples, near -surface soils appeared near optimum moisture at the time of our exploration. Some wetting or drying of the on -site soils could be required prior to their re -use as fill. However, the amount of moisture manipulation will likely depend on prevailing weather conditions. 5. SUBSURFACE CONDITIONS 5.1.1 Hand Auger Borings Borings encountered approximately I to 6 inches of surficial topsoil. Below topsoil, fill soils were encountered in borings B-1 and B-2 to depths of approximately 2.5 to 3.5 feet. Refusal materials were encountered below these depths. The borings were offset multiple times from the original locations but were unable to be excavated deeper. Encountered fill consisted of soft to firm silty clays and sandy silts (CL, ML). Much of the fill contained wood, asphalt, concrete and rock fragments, tires, silt fencing, and other trash. Near the refusal depth in borings B-1 and B-2, the fill contained asphalt and concrete fragments along with other trash. We expect refusal in borings B-1 and B-2 occurred on asphalt or concrete debris. DCP values within the fill profile ranged from 4 to 5 blows per increment. It is possible that some SPT N-values were amplified due the presence of asphalt, rock, and concrete fragments and may not represent the true consistency of the soil. It is our opinion that the existing fills encountered in the borings are not consistent with -a controlled fill intended to support structures. The fill contains excessive debris. Below surface materials in borings B-3, B-4, and B-5, "undisturbed" residual soils were encountered to depths of about 10 feet. These soils consisted of medium dense clayey sands (SC), and soft to stiff silty clays, and silts with varying amounts of clay and sand (CL, ML, MH). DCP values within these soils ranged from 3 to 20+ blows per increment, with typical values of 8 to 18 blows per increment. 4 Revised Geotechnical Data Report Project No.42866 NCNG JFHQ Helipad - Raleigh NC January 30 2020 At the time of drilling, water was not encountered in the borings. It is important to realize that groundwater levels will fluctuate with changes in rainfall and evaporation rates. In addition, perched groundwater could be encountered within near -surface soils, particularly after rainfall. 5.1.2 Test Pits Due to the presence of fill material and trash in two of the initial hand auger borings (13-1 and 13- 2), several test pits (T-1 through T-9) were completed to further explore the fill mass on site. Test Pits T-1 through T-7 encountered approximately 6 to 9 feet of fill material mixed with trash, while Test Pits T-8 and T-9 encountered undisturbed soils below the surficial topsoil layer. Perched ground water was also encountered in several of the borings. A detailed summary of test pits findings along with photographs can be found in the Field Report located in the Appendix D of this report. 6. GEOTECHNICAL COMMENTARY We understand the design recommendations for pavements at this site will be provided by others. The goal of this report is to provide information based on field exploration done by Timmons Group. 7. LIMITATIONS OF REPORT While this exploration has been conducted in accordance with generally accepted geotechnical engineering practices, there remains some potential for variation of the subsurface conditions in unexplored areas of the site. 8. CLOSURE We appreciate this opportunity to be of service to you on this project. If you have any questions regarding this report or if we can be of further assistance, please contact us at (804) 200-6500. Respectfully submitted, TIMMONs GROUP esse L. Israel, E.I. Geotechnical Professional �o\11110i'li`� @� SEAL 029383 `'�✓ ®'� G l t� � : 5 J. Nathan Reeves P.E. e. � , Senior Geotechnical Engineer f`i€;+sfi"""� NC Registration No. 29383 5 APPENDIX A FIGURES 5 5 +} or � n _ qk P:% ti k SCALE: NTS CHECKED BY: JNR PLOTTED BY: JLI DATE: 2/20/19 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. PROJECT NUMBER: 42866 North Carolina 1p � �,�-. Q Technolp W slthase Blvd +1, 4K LIF.fk"ice N SITE VICINITY MAP NCNG HELIPAD DISTRICT DRIVE RALEIGH, NORTH CAROLINA NORTH DRAWING 1 - 5 ..-�..�. �..,..- tf- �.J \ BORING LOCATIONS BORING NORTHING FASTING DEPTH j / / T9u- R OF BOLT B-1 748389.91 2084909.68 10' 8-2 748382.46 2085034.45 10, B-3 748331.84 2085324.45 10, / 100 0 100 200 BA 748260.36 2085124.84 10, Approximate Soil B-5 748165.64 2085314.53 10, Test Boring Locations SCALE: 1 "='106' FEET Scale: Not to scale . �! �� Boring Location Plan Figure No. Date: 2/19/19 NCNG Helipad Drag By: JLl T I M M O N S GROUP Raleigh, North Carolina 2 ProjectNo.: 42866 YOUR VISION ACHIEVED THROUGH OURS. O co U) D W 0 Ir 0- W C) Ir D U) co D U) 440 438 436 434 co co W 432 430 428 426 .... ........... ........... ........... ........... .... .... ........... ........... ........... ........... ........... ........................ ........................ ........................ ........... ............ * ........... ........... .......... ........... B-5 .... .... .................... . ........ ........... .... .... ........... ........... ........... ........... .................................................................................................. ........................ ........... ........ .......... ........... .... .... ........... ........... ........... ........... .......... . ........................ ........................ ........................ ........... ........................ ........... ......... ......... ........... .... .... ........... ........... ........... ........... .................................................................................................. ........................ ........... ......... ......... ........... .... ........... ........... ....................... ........................ ........................ ........................ ....................... ........... ........... ......... ......... ........... .... ........... ........... ........... .................................................................................................. ........................ ........... ......... ......... ........... .... ........... ........... ....................... ........................ ........................ .................................... ........... ........... * ........... ......... ......... ........... .... ......... .......... B-2 .................................. ................................... .......... ........... B -4 ........... ........... ......... ........... .... ........... .................... ........... ........... ........ ................... ........... ......... 00( 00( 00( 00( 00( 00( .................................. ......... ........................ ......... ........................ ........................................................... ........................ ........................ ........................ ........................ ......... ......... ........ ........... ........ ........... ........ ........... ......... ........... .......... ........ . ......... ........... .......... ........... .... .... .... ........... .... ........... .... ........... ........... ........... 00< ........... ......... ......... ........................ ......... ........... ........... ........................ ........... ........... .............................................. T ........................ ........................ ........................ ........................ ............................................ B.3 ......... .......... 7 . ......... * ........... ...................... ..................... ........... ......... ........... ....... ........... ......... ......... ........... ......... ..... .... .... .... ........... .... ........... .... ....................... ........... ........... ........... ........... ........... ........... ........... ....................... .................................... ........... ................................. . ......... ........ ......... . .. ... .. ........................ ............................................ ........................................... ............................................ ......... ........................ ......... ........................ ......... ......... ......... ......... ......... .......... ..... ...... .................... .................... ..................... ........ ........... ......... ........... ........ ........... .................... ......... ........... ........... ......... ........... .......... ........... ........... ........... ....................... .... .... ........... .... ........... .... ........... ........... ........... ........... ........... ........... ........... ........... ........... ........... ................................... ........... ........................ .............................................. ........... ........... ........... ........... ........... ........... ........... ........... ........... ........... ........... ........... .... .... .... .... ........... .... ........... .... ........... ........... ........... ........... .......................................................... ........... ....................... ........................ ............................... ......... ......... ......... ............................................ . ......... ........................ .................................. ......... ....................... ......... ........................ .............................................. ........... ........... ........... .......... ........... ........... ........... ........... ........... ........... ........... ........... .... .... .... .... ........... .... ........... .... ........... ........... ........... ........... ........... ........... ........... ........... ........................ .............................................. ................................... ........... ........... ........................ ........... ........... ......... ........... ........... ........... ........... .......... .......... .... 424 ........... ........... ........... ........... ........... .............. . * .......... ......... ......... ........................ .................................. . .......... ........... ........... .... ...... ........... ............................................ .. .... .... ........... ........... .... .......... ............................................ .. ........... ........... .... 422L Lithology Symbols Groundwater Symbols ETopsoil Fill (made At End E2 ground) a of Drilling V At 24 Hours Clayey Sand IN Silt Exploration Symbols B-01 (Exploration ID) 1 E Elastic Silt Low Plasticity Ed Clay 13 (N-Value) 53% 98%(RQD REC) % Soil Profile T I M M O N S GROUP NCNG Helipad YOUR VISION ACHIEVED THROUGH OURS. Raleigh, NC PROJECT NUMBER DRAWN BY DATE DRAWN 42866 JLl 2/27/19 Timmons Group HORIZONTAL SCALE APPROVED BY FIGURE VERTICAL SCALE JNR 3 APPENDIX B BORING LOGS TIMMONS GROUP YOUR WSION ACHIEVED THROUGH OURS. KEY TO BORING LOG TERMINOLOGY Relative Density — Used for soils with less than 50% passing No. 200 sieve Consistency — Used for soils with 50 percent or more passing No. 200 sieve Relative Density SPT N-Value blows/ft Consistency SPT N-Value blows/foot Very Loose 0 to 3 Very Soft 0 to 2 Loose 4 to 10 Soft 3 to 4 Medium Dense 11 to 30 Firm 4 to 8 Dense 31 to 49 Stiff 9 to 15 Very Dense Greater than 50 Very Stiff 15 to 30 Hard 31 to 49 Very Hard Greater than 50 Grain Size Terminolo U.S. Standard Sieves Natural Moisture Content Term Particle Size Boulder 12 inches + Dry Very little apparent moisture, dusty Cobble 3 to 12 inches Coarse Gravel % to 3 inches Moist Damp, but no free water visible Fine Gravel #4 to % inches Coarse Sand #10 to #4 Medium Sand #40 to #10 Wet Visible free water, or in cohesive soil, clearly saturated Fine Sand #200 to #40 Silt and Clay <#200 PLASTICITY CHART - USED FOR MATERIAL < #40 SIEVE so- For classifi 50 a 0Gr7 A z F F d J a 10 7 4 0 70 .. 1:6 0 10 16 20 30 40 SO 60 11 LIQUID LIMIT {LL): cation of fine-grained soils and r fine-grained fraction ofcoarse-grained soils. , J Equation of ".["-line Hotixontal at P7=1 to LC=25.3, � J then Pl�.73 (n-?0) G Equation of "L'"'-line ['ertiral at LL=16 to PI=7, then Pl�.9(L.IrB) SOIL CLASSIFICATION CHART MAJOR DIVISIONS SYMBOLS TYPICAL DESCRIPTIONS GRAPH LETTER GRAVEL AND CLEAN GRAVELS ' �r .' r 16 • • GW WELL -GRADED GRAVELS, GRAVEL - FSANNED MIXTURES, LITTLE OR NO ° °° 3. o p�o p GP POORLY -GRADED GRAVELS, GRAVEL - SAND MIXTURES, LITTLE OR NO FINES GRAVELLY SOILS (LITTLE OR NO FINES) COARSE GRAINED SOILS MORE THAN 50% OF COARSE FRACTION GRAVELS WITH FINES 0 00 ° °° ° ° p O GM SILTY GRAVELS, GRAVEL - SAND - SILT MIXTURES RETAINED ON NO. 4 SIEVE (APPRECIABLE AMOUNT OF FINES) /+G G CLAYEY GRAVELS, GRAVEL - SAND - CLAY MIXTURES SAND AND CLEAN SANDS SW WELL -GRADED SANDS, GRAVELLY SANDS, LITTLE OR NO FINES MORE THAN 50% OF MATERIAL IS Sp POORLY -GRADED SANDS, GRAVELLY SAND, LITTLE OR NO FINES LARGER THAN NO. 200 SIEVE SIZE SANDY SOILS (LITTLE OR NO FINES) SANDS WITH FINES S M SILTY SANDS, SAND - SILT MIXTURES MORE THAN 50% OF COARSE FRACTION PASSING ON NO. 4 SIEVE (APPRECIABLE AMOUNT OF FINES) SC CLAYEY SANDS, SAND - CLAY MIXTURES INORGANIC SILTS AND VERY FINE ML SANDS, ROCK FLOUR, SILTY OR CLAYEY FINE SANDS OR CLAYEY SILTS WITH SLIGHT PLASTICITY CL INORGANIC CLAYS OF LOW TO MEDIUM PLASTICITY, GRAVELLY CLAYS, SANDY CLAYS, SILTY CLAYS, LEAN CLAYS FINE GRAINED SOILS SILTS AND LIQUID LIMIT LESS THAN 50 CLAYS — — — — OL ORGANIC SILTS AND ORGANIC SILTY CLAYS OF LOW PLASTICITY MORE THAN 50% OF MATERIAL IS SMALLER THAN NO. 200 SIEVE MH INORGANIC SILTS, MICACEOUS OR DIATOMACEOUS FINE SAND OR SILTY SOILS SIZE SILTS AND LIQUID LIMIT CLAYS GREATER THAN 50 CH CLAYS OF HIGH PLASTICITY PLASTICITY OH ORGANIC CLAYS OF MEDIUM TO HIGH PLASTICITY, ORGANIC SILTS 0 0 0 HIGHLY ORGANIC SOILS '/ 0" / 0" / 0" / N „ „ „ „ PT PEAT, HUMUS, SWAMP SOILS WITH HIGH ORGANIC CONTENTS NOTE: DUAL SYMBOLS ARE USED TO INDICATE BORDERLINE SOIL CLASSIFICATIONS •• * BORING B-1 . � Timmons Group PAGE 1 OF 1 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. PROJECT NUMBER 42866 PROJECT NAME NCNG Helipad CLIENT North Carolina National Gaurd PROJECT LOCATION Raleigh, NC DATE STARTED 1 /30/2019 COMPLETED 1 /30/2019 GROUND ELEVATION 438 ft HOLE DEPTH 3.5 feet DRILLING CONTRACTOR Timmmons Group BOREHOLE WATER LEVELS: DRILLING METHOD Hand Auger AT END OF DRILLING --- LOGGED BY J. Israel, E.I. CHECKED BY N. Reeves, P.E. AT 24 HOURS DRILLING --- NOTES Refusal w/ Offset CAVE DEPTH z o z w O SAMPLING a a Q S MATERIAL DESCRIPTION BLOW COUNT w N LAB TESTS REMARKS w p > J (N-VALUE) Lu w O a 0 TOPSOIUROOT MAT 00 SILTY CLAY: (CL): gray and brown, wet, firm, with fine to medium sand, and organics, and DCP 5-5-5 construction debris, FILL MIXED WITH 435 ASPHALT CHUNKS Refusal at 3.5 feet. Bottom of borehole at 3.5 feet. 4040060 BORING B-2 Timmons Group PAGE 1 OF 1 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. PROJECT NUMBER 42866 PROJECT NAME NCNG Helipad CLIENT North Carolina National Gaurd PROJECT LOCATION Raleigh, NC DATE STARTED 1 /30/2019 COMPLETED 1 /30/2019 GROUND ELEVATION 436 ft HOLE DEPTH 2.5 feet DRILLING CONTRACTOR Timmmons Group BOREHOLE WATER LEVELS: DRILLING METHOD Hand Auger AT END OF DRILLING --- LOGGED BY J. Israel, E.I. CHECKED BY N. Reeves, P.E. AT 24 HOURS DRILLING --- NOTES Refusal w/ Offset CAVE DEPTH z 2 O a Q MATERIAL DESCRIPTION Lu W 435 TOPSOIUROOT MAT SANDY SILT: (ML): brown, fine to medium grained, wet, soft, with mica, and organics, and construction debris, FILL MIXED WITH ASPHALT CHUNKS Refusal at 2.5 feet. Bottom of borehole at 2.5 feet. z J Lu O SAMPLING a 00 BLOW COLINTc w N LAB TESTS (N-VALUE) U , O d CP 2-4-5 REMARKS •• * BORING B-3 . � Timmons Group PAGE 1 OF 1 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. PROJECT NUMBER 42866 PROJECT NAME NCNG Helipad CLIENT North Carolina National Gaurd PROJECT LOCATION Raleigh, NC DATE STARTED 1 /30/2019 COMPLETED 1 /30/2019 GROUND ELEVATION 432 ft HOLE DEPTH 10 feet DRILLING CONTRACTOR Timmmons Group BOREHOLE WATER LEVELS: DRILLING METHOD Hand Auger AT END OF DRILLING --- LOGGED BY J. Israel, E.I. CHECKED BY N. Reeves, P.E. AT 24 HOURS DRILLING --- NOTES CAVE DEPTH z o z w O SAMPLING a a `.' Q S MATERIAL DESCRIPTION BLOW COUNT w N LAB TESTS REMARKS w p > J (N-VALUE) Lu w O a 0 TOPSOIL DCP 6-7-12 CLAYEY SAND: (SC): tannish red -brown, fine to 430 medium grained, medium dense, with silt DCP 8-9-11 CLAYEY SILT: (ML): tannish red, stiff, with fine 5 to medium sand DCP 10-11-17 SILT: (MH): red to pink, stiff, with mica 425 DCP 8-15-15 10 Bottom of borehole at 10.0 feet. •• •.� BORING B-4 . � Timmons Group PAGE 1 OF 1 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. PROJECT NUMBER 42866 PROJECT NAME NCNG Helipad CLIENT North Carolina National Gaurd PROJECT LOCATION Raleigh, NC DATE STARTED 1 /30/2019 COMPLETED 1 /30/2019 GROUND ELEVATION 436 ft HOLE DEPTH 10 feet DRILLING CONTRACTOR Timmmons Group BOREHOLE WATER LEVELS: DRILLING METHOD Hand Auger AT END OF DRILLING --- LOGGED BY J. Israel, E.I. CHECKED BY N. Reeves, P.E. AT 24 HOURS DRILLING --- NOTES CAVE DEPTH z o z w O SAMPLING a a `.' Q S MATERIAL DESCRIPTION BLOW COUNT w N LAB TESTS REMARKS w p > J (N-VALUE) Lu w O a 0 TOPSOIL 435 DCP 2-2-3 CLAYEY SILT: (ML): reddish pink, soft to stiff, with mica DCP 20+ SILTY CLAY: (CL): red, stiff, with fine to ' medium sand 5 DCP 15-20+ SANDY SILT: (MH): reddish pink, stiff, with mica, and clay 430 DCP 20+ 10 Bottom of borehole at 10.0 feet. •• * BORING B-5 . � Timmons Group PAGE 1 OF 1 TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. PROJECT NUMBER 42866 PROJECT NAME NCNG Helipad CLIENT North Carolina National Gaurd PROJECT LOCATION Raleigh, NC DATE STARTED 1 /30/2019 COMPLETED 1 /30/2019 GROUND ELEVATION 441 ft HOLE DEPTH 10 feet DRILLING CONTRACTOR Timmmons Group BOREHOLE WATER LEVELS: DRILLING METHOD Hand Auger AT END OF DRILLING --- LOGGED BY J. Israel, E.I. CHECKED BY N. Reeves, P.E. AT 24 HOURS DRILLING --- NOTES CAVE DEPTH z o z w O SAMPLING a a `.' Q S MATERIAL DESCRIPTION BLOW COUNT w N LAB TESTS REMARKS w p > J (N-VALUE) Lu w O a 0 TOPSOIL 440 DCP 10-12-19 SILTY CLAY: (CL): orangeish red, stiff, with fine to medium sand ' DCP 15-20+ SILTY CLAY: (CL): reddish pink, stiff 5 DCP 15-20+ CLAYEY SILT: (MH): reddish pink, stiff, with 435 mica SANDY SILT: (MH): pinkish tan, stiff, with mica SILT: (MH): pinkish tan, stiff, with mica, CHUNKS OF MICA DCP 14-16-17 10 Bottom of borehole at 10.0 feet. APPENDIX C LABORATORY TEST RESULTS 80 70 L 60 A s T 50 1 C 1 40 T Y 1 30 N D X 20 10 0 0 ASTM D-4318 20 40 Specimen Identification LL PL B-2 1.0-2.0' 40 29 B-3 1.0-2.0' 22 16 B-4 7.0' 64 47 0. 60 80 100 LIQUID LIMIT (LL) PI Fines Classification 11 63.8 Brown Medium to Fine Sandy Silt 7 42.9 Brown Silty Clayey Medium to Fine Sand 17 63.9 Red Brown Micaceous Course to Fine Sandy Silt PROJECT NCNG Helipad - Raleigh, NC JOB NO. 1-19-0137-CA DATE 2/26/19 Date Recieved: 1/30/2019 ATTERBERG LIMITS' RESULTS Dates Tested: 1/30-2/20/2019 3200 Wellington Court, Ste 108 Raleigh, NC 27615 U.S. Standard Sieve Sizes #4 #10 #20 #40 #60 #100 #200 Grain Size In Millimeters GRAVEL SAND FINES COARSE FINE COARSE MEDIUM FINE SILT SIZES CLAY SIZES Boring No. Elev./Depth Nat. W.C. L.L. P.L. P.I. Soil Description or Classification GRAIN SIZE DISTRIBUTION B_2 1.0-2.0' 13.9 40.0 29.0 11.0 Brown Medium to Fine Sandy Silt Project: Job No.: 1-19-0137-CA NCNG Helipad Date Recieved: 1/30/2019 3200 Wellington Court, Ste 108 Raleigh, NC Date: 2/26/19 Dates Tested: 1/30-2/20/2019 Raleigh, NC 27615 U.S. Standard Sieve Sizes #4 #10 #20 #40 #60 #100 #200 Grain Size In Millimeters GRAVEL SAND FINES COARSE FINE COARSE MEDIUM FINE SILT SIZES CLAY SIZES Boring No. Elev./Depth Nat. W.C. L.L. P.L. P.I. Soil Description or Classification GRAIN SIZE DISTRIBUTION B_3 1.0-2.0' 12.6 22.0 15.0 7.0 Brown Silty Clayey Medium to Fine Sand Project: Job No.: 1-19-0137-CA NCNG Helipad Date Recieved: 1/30/2019 3200 Wellington Court, Ste 108 Raleigh, NC Date: 2/26/19 Dates Tested: 1/30-2/20/2019 Raleigh, NC 27615 U.S. Standard Sieve Sizes #4 #10 #20 #40 #60 #100 #200 Grain Size In Millimeters GRAVEL SAND FINES COARSE FINE COARSE MEDIUM FINE SILT SIZES CLAY SIZES Boring No. Elev./Depth Nat. W.C. L.L. P.L. P.I. Soil Description or Classification GRAIN SIZE DISTRIBUTION B-4 7.0' 27.7 64.0 47.0 17.0 Red Brown Micaceous Course to Fine Sandy Silt Project: Job No.: 1-19-0137-CA NCNG Helipad Date Recieved: 1/30/2019 3200 Wellington Court, Ste 108 Raleigh, NC Date: 2/26/19 Dates Tested: 1/30-2/20/2019 Raleigh, NC 27615 01 30 25 20 15 10 05 00 95 90 Job No: 1-19-0137-CA Date: 2/26/19 Job Name: NCNG Helipad Job Location: Raleigh, NC Boring No: B-2 Sample No: Depth: 1.0-2.0' TEST RESULTS Method of Test: ASTM D 1557A Maximum Dry Density: 121.2 PCF Optimum Moisture Content: 12.2% Natural Moisture Content: 13.9% Atterberg Limits: LL 40.0 PI 11.0 Soil Description: Brown Medium to Fine Sandy Silt Date Recieved: 1/30/2019 Dates Tested: 1/30-2/20/2019 CURVES OF 100% SATURATION FOR SPECIFIC GRAVITY EQUAL TO: 2.80 2.70 2.60 -Al 85 80 75 0 5 10 15 20 25 30 35 40 45 WATER CONTENT (Percent Dry Weight) MOISTURE -DENSITY RELATIONSHIP 3200 Wellington Court, Ste 108 Raleigh, NC 27615 01 30 25 20 15 10 05 00 95 90 Job No: 1-19-0137-CA Date: 2/26/19 Job Name: NCNG Helipad Job Location: Raleigh, NC Boring No: B-3 Sample No: Depth: 1.0-2.0' TEST RESULTS Method of Test: ASTM D 1557A Maximum Dry Density: 122.1 PCF Optimum Moisture Content: 12.0% )S� Natural Moisture Content: 12.5% Atterberg Limits: LL 22.0 PI 7.0 Soil Description: Brown Silty Clayey Medium to Fine Sand Date Recieved: 1/30/2019 Dates Tested: 1/30-2/20/2019 CURVES OF 100% SATURATION FOR SPECIFIC GRAVITY EQUAL TO: 2.80 2.70 2.60 F 85 80 75 0 5 10 15 20 25 30 35 40 45 WATER CONTENT (Percent Dry Weight) MOISTURE -DENSITY RELATIONSHIP 3200 Wellington Court, Ste 108 Raleigh, NC 27615 GeoTechnologies, Inc. JOB #: 1-19-0137-CA DATE: 2/26/2019 NOTES: PROCTOR DATA: Opt. Moisture - 12.2% SOIL DESCRIPTION: CBR DATA SHEET ASTM D-1883 JOB NAME: NCNG Helipad SAMPLE I.D.: B-2 Depth: 1.0-2.0' TEST PROCEDURE: ASTM D-1557 Max. Dry Density - 121.2 PCF Brown Medium to Fine Sandy Silt CBR SPECIMEN DATA Swell Data MOISTURE CONTENT 12.3% Initial Reading 0.527 WET DENSITY 133.4 lbs./cuff Final Reading 0.650 DRY DENSITY 118.8 lbs./cuff Mold Height 4.591 % COMPACTION 98.0 % % Swell 2.68 LOAD CELL 5000 LB. RATE OF DEFORMATION .05 in./min. SURCHARGE USED 10 Ibs. •111 ■■�.�■■■■■■■■■■■■■■■■■■■■■■ 1 11 1 1 1 1 1 1 11 1 1 1 .1 CBR @ 0.1" 3.4 CBR @ 0.2° 4.5 % SWELL 2.7 GeoTechnologies, Inc. CBR DATA SHEET ASTM D-1883 JOB #: 1-19-0137-CA JOB NAME: NCNG Helipad DATE: 2/26/2019 NOTES: PROCTOR DATA: Opt. Moisture - 12.0% SOIL DESCRIPTION: SAMPLE I.D.: B-3 Depth: TEST PROCEDURE Max. Dry Density - 122.1 PCF Brown Silty Clayey Medium to Fine Sand 1.0-2.0' ASTM D-1557 CBR SPECIMEN DATA Swell Data MOISTURE CONTENT 12.5% Initial Reading 0.145 WET DENSITY 134.9 lbs./cuff Final Reading 0.150 DRY DENSITY 119.9 lbs./cu.ft. Mold Height 4.594 % COMPACTION 98.2 % % Swell 0.11 LOAD CELL 5000 LB. RATE OF DEFORMATION .05 in./min. SURCHARGE USED 10 Ibs. 100.00 I 90.00 - 80.00 - - 70.00 - - I 60.00ell - y 50.00 - L co 40.00 30.00 ---- -- 20.00 - -rz - I 10.00 - 0.00 0.00 0.10 0.20 0.30 0.40 0.50 0.60 Penetration (in.) CBR @ 0.1" 1.9 CBR @ 0.2" 2.4 % SWELL 0.1 APPENDIX D FIELD REPORT TIMMONS GROUP YOUR VISION ACHIEVED THROUGH OURS. FIELD REPORT Project Name: NCNG Helipad Location: Raleigh, NC Project No.: 42866 Permit No.: Client: NCNG Weather: Sunny, Cold Contractor: Neil Barnhill Date: 3/7/19 Technician: J. Israel & P. Strom Portal to Portal Time: 3 Hours Summary: Timmons representatives arrived on site to observe the digging of several test pits in suspected fill mass that had previously been encountered in hand auger borings and proposed parking lot. Several trees were cleared to gain access to fill mass area from off load site. A total of nine (9) test pits were excavated. Test pits labeled T-1 through T-7 encountered buried organic/debris materials ranging in depth from 6 to 9 feet below surface. Test pits labeled as T-8 and T-9 did not encounter any previously placed fill material. Depths and locations are to be considered approximate. Test pits labeled T-I through T-7 encountered approximately 6 to 9 feet of previously placed fill composed of poorly compacted highly plastic soils mixed with organics and various pieces of trash. Trash was dispersed throughout the fill soil profile and was composed of various plastics, asphalt, concrete, and stone chunks, tires, silt fencing, and aluminum cans. Perched ground water was also encountered in the upper part of the profile of several test pits. Below the fill material residual soils were encountered. These residual soils were primarily composed of firm to stiff red to orange sandy micaceous silts and silty micaceous clays. The previously placed fill soils and organic/debris are not suitable for structural fill and will need to be removed from proposed structure areas. The estimated amount of unsuitable soils is 17,361 cubic yards. However, the depth and extent of removal should be determined at time of excavation and as directed by qualified technician or engineer once structural areas are identified in the field. T-8 did not encounter any fill material. Residual soils were observed below the top approximately 8 inches of topsoil/root mat underlain by firm red micaceous silty clay. Test pit was dry at time of excavation. T-9 was completed at the approximate location of proposed B-6 in the proposed future parking area. T- 9 encountered approximately 8 inches of topsoil/root mat underlain by approximately 4 feet of firm red micaceous silty clay, followed by firm to stiff red to orange fine sandy micaceous silt to test pit termination depth (approximately 8 feet). Test pit was dry at time of excavation. See attached site photos and diagrams. Report By: Reviewed By: Patrick Strom (Signature) Jesse L. I Date: 3/7/19 E.I. 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