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Home My WebLink AboutSoils ReportG EOTECH N ICAL INVESTIGATION REPORT Proposed FreeUp Storage Silt Expansion 357 South 16th Street Silt, Colorado Yeh Project No.: 222-22L June tA,2O22 "t' Prepared for: Spartan lnvestment Group, LLC t44O Brickyard Drive, Unit 4 Golden, Colorado 80403 Attn: Mr. Alex Dick Prepared by: Yeh and Associates, lnc. 588 North Commercial Drive Grand Junction, CO 81505 Phone: 970-382-9590 Inc.Yeh and AssociatesUIConsulting Enginccrs & ScicnL sts G EOTECH N ICAL INVESTIGATION REPORT Proposed FreeUp Storage Silt Expansion 357 South 16th Street Silt, Colorado Yeh Project No.: 222-22L June tO,2022 Reviewed by:Prepared by: Martin L. Skyrman, P.E. Senior Geotechnical Engineer Roger K. Southworth, P.E. Senior Project Manager Yeh and Associates Inc.wt Consu ng Enginccrs & Scicntists TABLE OF CONTENTS 1.0 PURPOSE AND SCOPE OF STUDY 2.0 PROPOSED CONSTRUCTION 3.0 srTE coNDrTroNs.............. 4.0 GEOLOGIC SEfi|NG.............. 5.0 SUBSURFACE INVESTIGATION 5,]" FIELD EXPLoRATION.... 5,2 LABoRAToRY TESTING 6.0 suBsuRFACE coND|floNs............... 7.0 DESIGN CONSIDERATIONS 8.0 RECOMMENDATIONS 8.1 HELTcAL PrERs........... 8.2 SHALLow FoUNDAT|oNS ............,........ 8.3 FLooR S1nes.......... 8.4 SErsMrc CoNSTDERATToNS ................... 8.5 DRATNAGE CoNstDERATtoNs ................ L L 2 3 4 4 5 6 6 7 7 ..'....,,..7 ........... 8 o o 10 10 8.6 CoRRosrvrrY ........ 8.7 Pnveverur 9.0 EARTHWORK RECOMMENDATIONS 9.L Stre GnueetNc Rruo SrntppttttG ............... 9.2 EXCAVATIoN AND TRENCH CONSTRUCTION 9.3 BUTLDTNG PAD PREPARATToN .................. 9.4 PRvEvrruT SUBGRADE PREPARATION ....... 9.5 FrLL MRrrnral 9,6 CoMpAcloN REeUTREMENTs................. LT TI t2 13 13 ...13 t4 10.0 HMtrATtoNs...... ..... L4 11.0 REFERENCES...... ...... 15 ryt TABLE OF CONTENTS (Continued) List of Figures FIGURE 1. PROJEcT LoCATION MAP FIGURE 2. SITE PHOTOGRAPH - EXISTING S T COruO IOruS..... FrcuRE 3. StrE PHoToGRApH - Ftrlo lwvrsttcnttotrt. List of Tables TABLE 1, RrcouvrruOED PAVEMENT SECTIONS. Lrsr oF APPENDTcES APPENDIX A - BORING LOCNTIOI{ PI.RI',I Apprruotx B - Locs nruo Lecrruo APPENDIX C _ LABoRATORY TEST RESULTS .2 .3 ,4 71. n il Proposed FreeUp Storage Silt Expansion Yeh Project No. 222-221, 1.0 PURPOSE AND SCOPE OF STUDY This report presents the results of our geotechnical investigation for the expansion of the existing FreeUp Storage Silt facility that will be constructed in Silt, Colorado. This investigation was performed in general accordance with our Proposal No.222-221, dated April 29,2022 and authorized by Mr. Alex Dick of Spartan lnvestment Group, LLC on May 6, 2022.Our scope of services included public and private utility locates, field exploration, laboratory testing, geotechnical engineering analyses, and preparation of this report. The purposes of this investigation were to evaluate the subsurface conditions on the site and to develop geotechnical recommendations to guide design and construction of the proposed expansion. Our scope of services included the following: o Notification of Colorado 811 for location of public utilities and use of a subcontractor to locate private utilities. o Drilling 11soil borings to evaluate the subsurface conditions in the proposed building and access drives. o Laboratory testing of the soils encountered during the field exploration to evaluate pertinent engineering properties of the soil. r Foundation design recommendations, including allowable bearing pressure, approximate depth to bearing stratum, and estimated movement. o Floor slab design considerations and floor slab subgrade preparation recommendations. r Pavement subgrade preparation and recommended pavement sections. o Earthwork, including recommendations for fill placement and compaction, suitability of the site soil for reuse as engineered fill, and subgrade preparation. e Discussion of geotechnical conditions that could impact construction, such as unstable subgrade soils, shallow groundwater, dewatering, and drainage. 2.0 PROPOSED CONSTRUCTION The project will consist of expanding the existing FreeUp Storage Silt facility in Silt, Colorado. The expansion will include four new structures; access drives with new pavements; and associated infrastructure. The location of the project site is depicted on the following Figure L, Project Location Mop. The new structures will consist of one 24,000 square foot one-story building (Building'L') and three 3,400 to 6,000 square foot one-story buildings (Buildings 'l' ,'J' , and 'K') in the existing gravel-surfaced RV/trailer storage areas. lt was assumed that the buildings will have maximum wall loads on the order of 2 to 3 kips per linear foot and maximum column loads on the order of 50 to 75 kips. T Proposed FreeUp Storage Silt Expansion Yeh Project No.222-221 A site grading plan was not available when this report was prepared. lt was assumed that grade changes of less than 2 feet will be required to develop the final site grades. We should be contacted if this information is incorrect so that we can determine if a revision of the recommendations contained herein is necessary. Figure 1 - Project Location Map A7;g\rwaY 6 --.- Lr G Highway 6 MurrWelding & Design {?! 6 E,{e FeclEK Drop Bo:i :: \4 Esl r 6 t.. trl @ Riuer' Fron{age f{tl ,.rvcr FrOr.)fdqe Rd .q::rl ira'ri:rrie FJ €o Holiddy lnn 3.0 SITE CONDITIONS The project site is generally level, surfaced with gravel and currently being used for RV storage/parking. The existing structures at the site are single-story, metal-clad structures. The type of foundation system for the existing structures is not known. Access drives between the existing structures are gravel surfaced. The site slopes gently to the south with a relatively small drainage pond, approximately 3 feet deep, located near the southern property boundary within the footprint of proposed Building 'K'. A photograph of the pond is shown in Figure 2. The site is bounded on the north bythe Union Pacific Railroad (UPRR) 2 :ii'J:::€ PROJECT SITE Proposed FreeUp Storage Silt Expansion Yeh Project No. 222-221. tracks, on the east by South L6th Street and commercial developments, on the south by lnterstate 70, and on the west by vacant land with apparent spoil piles present. In addition, abundant cattails, which are generally indicative of poor drainage and/or shallow groundwater, are present in a relatively large undeveloped parcel immediately north of the UPRR tracks northwest of the site. Figure 2 -Site Photograph, Looking South at Southern Property Boundary Near Existing Drainage Pond .,.-:., 4.0 GEOLOGIC SETTING The project site is in the Colorado River valley, southwest of the Grand Hogback Monocline and on the north limb near the axis of the shallow dipping Rifle Syncline approximately 800 feet north of the Colorado River. The following geologic descriptions are based on the Geologic Map of the Silt quadrangle, Garfield County, Colorado (Shroba and Scott, 2001). The site is located on surficial deposits mapped as flood-plain and stream channel deposits of silt, sand, pebbly to cobbly gravel with boulders, overlying claystone, mudstone, siltstone and sandstone of the Tertiary-age Wasatch Formation. The Wasatch Formation dips, or tilts, from horizontal to approximately 10 degrees to the southwest where it is exposed in surrounding areas approximately one mile from the project site. Additional surficial deposits may include artificial fill. The geohazard noted in the flood-plain deposits included flooding. Based on Federal Emergency Management Agency (FEMA, 2022)flood mapping, the project site is in an area of minimalflooding. Based on the Colorado EPA Map of Rado.n Zones, Garfield County is listed as a Radon Zone 1. Radon gas can be found in nearly all rock and soil and can move into buildings or other enclosed spaces and create a health hazard if radioactive particles are inhaled. Evaluation of the radon gas potential was not within our authorized scope of service and should be addressed by others. 3 Proposed FreeUp Storage Silt Expansion Yeh Project No. 222-221, 5.0 SUBSURFACE INVESTIGATION 5.1 Field Exploration A total of eleven borings were drilled for this project to depths ranging from approximately 10 to 16 feet. Ten borings, designated B-l through B-L0, were performed for structural design purposes, whereas boring B-11 was performed for design of pavements, The location of the pavement boring was provided to us by the project civil engineer. The borings generally were terminated due to auger refusal in dense gravels. The approximate boring locations are indicated on Figure A.I - Boring Location Plan atlached in Appendix A. A photograph of the drilling operations is shown in Figure 3. Figure 3 -Site Photograph, Drilling Operations at Boring B-7 Samples of the subsurface materials were obtained from the borings at select depths by driving either a split-spoon or modified California barrel sampler. Bulk samples of the soil were recovered from auger cuttings as the borings were advanced. The samples were transported to our laboratory where they were examined by the project geotechnical engineer and a program of laboratory testing was prepared. Penetration resistance measurements were made by driving the samplers into the subsurface materials with a 140-pound hammer falling 30 inches. The number of blows required to drive the sampler 12 inches, after an initial penetration of 6 inches for the standard sampler, constitutes the N-value as shown on the boring logs. The N-values can be correlated to the relative density of granular soil and the consistency of cohesive soil. 4 Proposed FreeUp Storage Silt Expansion Yeh Project No. 222-22'J, Water levels were recorded in each boring at completion of the drilling operations. The borings were backfilled with the auger spoil after the water level readings were obtained. The water level readings are presented on the boring logs. The drilling operations were monitored by a Yeh and Associates project geotechnical engineer. The engineer prepared field logs documenting the soil conditions encountered, groundwater levels, standard penetration test blow counts (N-values), sampling intervals, and types of samples obtained. The field logs were used by the project geotechnical engineer as an aid in preparing the final boring logs. Copies of the boring logs are presented in Appendix B. Our scope of services did not include survey of the boring locations. 5.2 Laboratory Testing The recovered soil samples were classified by the project geotechnical engineer in accordance with the Unified Soil Classification System (USCS). Laboratory tests were then performed on select samples to evaluate the pertinent engineering properties of the soil. The laboratory testing was conducted in general accordance with the American Society for Testing and Materials (ASTM) test procedures. The following laboratory tests were performed for this evaluation: o Water Content . Dry Unit Weight r Liquid and Plastic Limits o Grain Size Analysis o Percent Passing No. 200 Sieve o One-Dimensional Swell/Collapse Potential o Unconfined Compressive Strength of Soils o Water Soluble Sulfates r Chlorides o Resistivity .pH The laboratory test results are presented on the boring logs and summarized in Appendix C. Following the completion of the laboratory testing, the field descriptions were confirmed or modified as necessary and boring logs were finalized. Results of the Atterberg limit tests and grain size analyses were used to classify the soils according to AASHTO and the Unified Soil Classification System (USCS) standards. Atterberg limits tests were performed in general accordance with ASTM D4318 and the grain size analyses were performed in general accordance with ASTM D421. Dry density and moisture content tests were performed in general accordance with ASTM D7263 and ASTM D221'6, respectively. 5 Proposed FreeUp Storage Silt Expansion Yeh Project No.222-221 Results of one-dimensional swell/collapse testing, performed in accordance with ASTM D4546, indicate that a sample of lean clay with sand at a depth of 4 feet collapsed 1-.3 percent when wetted under a surcharge pressure of 500 psf. A sample of clayey sand at a depth of 4 feet collapsed 0.3 percent under a surcharge pressure of 500 psf. The results indicate the soils have a low collapse potential. Strength testing performed on six samples of sandy lean clay, lean clay with sand, or clayey sand at depths between 4 and 10 feet exhibited unconfined compressive strengths ranging from 422 to 2,988 pounds per square foot (psf). Four of the six samples tested had unconfined compressive strengths below 800 psf. These results indicate the soils have poor strength and support characteristics. 6.0 SUBSURFACE CONDITIONS Approximately 4 to 6 inches of gravel with sand was encountered at the surface in the borings. Native soils beneath the surficial gravel consisted of very soft to stiff sandy lean clay, very soft sandy silt, or very loose to medium dense silty, clayey sand. A two-foot thick layer of fat clay was encountered in boring B- 7 at depths between 12 and 14 feet. These deposits extended to depths of approximately 8 to l-4 feet and generally were underlain by medium dense to very dense gravel with silt and sand that extended to the boring termination depths. An approximately 1-foot thick layer of cobbles was encountered on top of the gravel stratum in boring B-3. The borings were terminated at depths of approximately 10 to L6 feet due to auger refusal in the dense gravels. Groundwater was encountered at depths between approximately 7 and 12 feet in the borings at the time of drilling. Variations in the groundwater level may occur seasonally. The magnitude of the variation will be largely dependent upon the amount of spring snowmelt, duration and intensity of precipitation, river levels, irrigation practices, site grading changes, and the surface and subsurface drainage characteristics of the surrounding area. Perched water tables may be present but were not encountered in the borings. 7.0 GEOTECHNICAT CONSIDERATIONS Due to weak and compressible soils encountered in the upper 8 to 14 feet of the exploratory borings, it is recommended to support the planned single-story structures on helical pier foundations bearing in the underlying dense gravels to mitigate low bearing capacity and differential settlement concerns. Alternatively, spread or strip footings bearing on in-situ soils and that are designed to accommodate differential settlement may be feasible for very lightly-loaded structures. Footings should be designed utilizing a reduced allowable bearing pressure presented subsquently with sufficient reinforcing steel to reduce differential foundation movements. Due to the shallow groundwater levels encountered at the time of drilling and high moisture content of the soft foundation soils, overexcavation below the footing bearing grades and replacement with structural fill to increase the allowable bearing pressure is not recommended as there is a likelihood for unstable subgrade conditions to develop during construction. ln 6 Proposed FreeUp Storage Silt Expansion Yeh Project No.222-22I addition, if shallow foundations are utilized for Building 'K', they must be extended at or below the existing bottom of drainage pond elevation so that building foundations bear uniformly on native soils. The low-strength clays/sands will be subject to consolidation/compression upon application of additional loads. Therefore, the site grades should not be raised by more than 2 feet in order to reduce the potential for settlement induced by the weight of the newly placed fill. We should be contacted if the site is going to be raised by more than 2 feet to determine the potential impact of the fill on the recommendations presented herein. The clay deposits exhibit generally low strength characteristics and may be unstable. Placement of a geogrid, coarse aggregate, or other forms of subgrade stabilization could be necessary to develop a suitable subgrade for floor slab and pavement support. The method of subgrade stabilization, if required, should be determined by the project geotechnical engineer at the time of construction. 8.0 RECOMMENDATIONS 8.1 Helical Piers Helical piers bearing in dense gravel are recommended to support the proposed structures. Typically, these systems are designed and installed by a specialty contractor working under a performance specification. The piers should penetrate the soft overburden soils and extend into the dense gravel stratum present at depths of about 8 to 14 feet at the boring locations to achieve target pier design capacities. Helical piers should be tested to verify design capacities. Depending on pier spacing, it is anticipated that the target depths for helical piers will be on the order of 10 to L6 feet. These pier lengths are estimates and the actual field depths may exceed these values. The structural engineer should determine the helical pier locations and capacity requirements. This information should be provided to a specialty design/build contractor to develop drawings for the helical piers. Provided the site grades are not raised by more than 2 feet, the foundation design does not have to account for downdrag loads. Uplift forces from swelling soils may also be neglected in the design. A representative of the geotechnical engineer should observe helical pier installation. 8.2 Shallow Foundations Alternatively, it may be feasible to support very lightly-loaded structures on spread or strip footings bearing on native clay soils provided they are designed to accommodate some degree of differential settlement. To limit potential foundation movement associated with the compressible subsoils, the reduced bearing pressure presented below should be utilized in design. 7 Proposed FreeUp Storage Silt Expansion Yeh Project No. 222-221, Foundations bearing on the in-situ soils can be designed for a maximum net allowable bearing pressure of 4OO pounds persquarefoot (psf). The allowable bearing pressure appliesto dead load plus design live load conditions and incorporates a factor of safety of approximately 3.0. The design bearing pressure can be increased by one-third or as allowed by local code, when considering transient loads, such as wind or seismic. Resistance to lateral loads will be provided by the passive earth pressure acting against the footings and the frictional resistance acting along the base of the footings. An ultimate passive earth pressure resistance of 300 pounds per square foot per foot (psf/ft) is recommended for design. A coefficient of sliding resistance of 0.33 is recommended for design. The lateral load resistance should incorporate a factor of safety of at least 1.5. ln accordance with Garfield County requirements, the foundations should bear a minimum of 36 inches below the final site grade for frost considerations. Due to the existing drainage pond within the planned footprint of Building 'K', footings for this structure should bear at or below the existing bottom of pond elevation to ensure all footings bear uniformly on native soils. Strip footings should have a minimum width of 16 inches and isolated column pad foundations should have a minimum dimension of 24 inches. We estimate that the total post-construction movement of foundations supported as recommended herein will be on the order of L inch or less. We estimate that the differential movement between comparably sized and loaded foundations could equal the total foundation movement. lt is recommended that the strip foundations be designed as rigid grade beams with reinforcing steel placed in the top and bottom of footings to reduce the potential for distress due to abrupt differential movement. Additional foundation movement can occur if water from any source infiltrates the foundation subgrade. Therefore, proper drainage should be provided in the final design and during construction. lt is recommended that paving be placed adjacent to building foundations to limit moisture infiltration. The soft clay soils at the footing bearing grades may become unstable during construction, especially during periods of precipitation. We recommend placement of a thin layer of flowable fill at the bottom of excavations to maintain the in-situ moisture content of the bearing soils, minimize soil disturbance, and assist in potential excavation dewatering efforts prior to placement of reinforcing steel and concrete. Foundation excavations should be observed by the project geotechnical engineer, or a representative of the engineer, to document that the foundation bearing stratum is similar to the conditions encountered in the borings. lf the subsurface conditions encountered differ from those presented herein, supplemental recommendations may be required. 8.3 Floor Slabs Slab-on-grade floors may be used for the proposed storage buildings and should be underlain by at least 6 inches of imported granular structural fill. The floor slab subgrade should be prepared in accordance 8 Proposed FreeUp Storage Silt Expansion Yeh Project No.222-22L with the recommendations presented in Section 9.3 of this report. For structural design of concrete slabs- on-grade, a modulus of subgrade reaction of t25 pounds per cubic inch (pci) may be used for floors supported on a minimum of 6 inches of granular structural fill. Additional floor slab design and construction recommendations are as follows: . Positive separations and/or isolation joints should be provided between slabs and all foundations, columns, or utility lines to allow independent movement. . Control joints should be provided in slabs to control the location and extent of cracking. . lnterior trench backfill placed beneath slabs should be compacted in accordance with recommended specifications outlined herein. . lf moisture-sensitive floor coverings are used on interior slabs, barriers to reduce the potential for vapor rise through the slab are recommended. . Floor slabs should not be constructed on frozen subgrade, . Other design and construction considerations, as outlined in Section 302.1 R of the "ACl Design Manual", are recommended. 8.4 Seismic Considerations Seismic structural design criteria are provided below: Design Code Reference ASCE 7-16 Site Soil Classification: Site Class D* GPS Coordinates: 39.5447 1-4 -107 .647 60l Ss = 0.354 g 51= 0.079 g Sr,,rs = 0.537 g Svr = 0.189 g Sos = 0.358I Sor = 0.126 g x The site class was based on the conditions encountered in our shallow exploratory soil borings and our knowledge of the soil conditions in the site vicinity. The soil characteristics extending beyond the depth of our borings were assumed for the purposes of providing this site classification. 8.5 Drainage Considerations Properly functioning foundations and floor slabs require appropriately constructed and maintained site drainage conditions. Therefore, it is extremely important that positive drainage be provided during construction and maintained throughout the life of the structures. lt is also important that proper planning and control of landscape and irrigation be performed. 9 Proposed FreeUp Storage Silt Expansion Yeh Project No.222-22I The buildings should be provided with downspouts extensions to direct water away from the structures, The downspouts should discharge into drainage swales or into the storm sewer system. lnfiltration of water into utility or foundation excavations must be prevented during construction. Backfill against footings and in utility trenches should be well compacted and free of all construction debris to reduce the possibility of moisture infiltration. ln areas where paved surfaces do not immediately adjoin the structures, the ground surface adjacent to the structures should slope down at a grade of about five percent for a distance of at least 10 feet from the perimeter walls. Planters, landscape areas or other surface features that could retain water adjacent to the structures should be avoided. These recommendations will help reduce the potential for soil movement and the resulting distress but will not eliminate this potential. 8.5 Corrosivity The concentrations of water-soluble sulfates measured in two samples obtained from the exploratory borings at depths of 1 to L2 feet ranged from 0.012 to 0.014 percent. Based on laboratory test results, we anticipate a Class O exposure based on a range of less than 0.L0 percent as presented in the American Concrete lnstitute (ACl) Guide to Durable Concrete. We recommend that a cement type to resist attack, as required by the ACt, be used at the site for concrete placed directly on native soils, or a layer of structural fill or aggregate base course be used as a separator between concrete and native material. ln addition, pH, water soluble chloride, and soil resistivity tests were performed on the same samples to evaluate the potential attack on concrete and buried metal at the site. Test results measured pH values of 6.9 to 7.6. The resistivity measurements were 979 to 1820 ohm-centimeters, and the concentration of water-soluble chlorides were 0.0065 to 0.0078 percent. A qualified corrosion engineer should review this data to determine the appropriate level of corrosion protection. 8.7 Pavement The project will include the construction of access drives that will surround the storage buildings. Design traffic volumes were not provided for our analysis. lt was assumed that the drives will be subject to automobile and light truck traffic, as well as moderately loaded delivery/moving vehicle traffic. A pavement design life of 20 years was assumed for the analysis. Recommended pavement sections for an estimated traffic loading of 75,000 18-kip equivalent single axle loads (ESALs) are presented in Table 1". A revision of the recommended pavement sections may be necessary if the design traffic loading conditions are different than assumed. An evaluation of the type and volume of traffic that each portion of the paved area will experience should be conducted to determine if the pavement sections presented herein are appropriate. A thinner pavement section may 10 Proposed FreeUp Storage Silt Expansion Yeh Project No.222-22I result in increased maintenance and/or shorter design life. The pavement subgrade should be prepared in accordance with the recommendations presented in Section 9.4 of this report. Table 1: Recommended Pavement Section Traffic Area Asphalt Pavement Aggregate Base Couse Structural Number Access Drives 4 inches 9 inches 2.84 The "design life" of a pavement is defined as the expected life at the end of which reconstruction of the pavement will need to occur. Normal maintenance, including crack sealing, slurry sealing, and/or chip sealing, should be performed during the life of the pavement. A rigid pavement section is recommended in loading and unloading areas and at dumpster locations due to the high static loads imposed by parking trucks in these areas. A minimum six-inch thick Portland cement concrete pavement bearing on compacted subgrade is recommended. Bituminous pavement should be constructed of dense-graded, central plant-mix, asphalt concrete. Base course, Portland cement, and asphalt concrete should conform to Garfield County or CDOT standard specifications. Material and compaction requirements should conform to recommendations presented in Sections 9,4 and 9.5 of this report. The pavement service life may be reduced due to water infiltration into the subgrade soils. This will result in a softening and loss of strength of the subgrade soils. A regular maintenance program to seal pavement cracks will help prolong the life of the pavement. 9.0 EARTHWORK RECOMMENDATIONS Site preparation and earthwork operations should be performed in accordance with applicable codes, safety regulations, and other local, state, or federal guidelines. Earthwork on the project should be observed and evaluated by Yeh and Associates (Yeh). The evaluation of earthwork should include observation and testing of engineered fills, subgrade preparation, foundation bearing soils, and other geotechnical conditions exposed during the construction of the project. 9.1 Site Grubbing and Stripping Existing gravel, vegetation, tree root balls, and other deleterious materials should be removed from the proposed building and pavement areas. All exposed surfaces should be free of mounds and depressions, which could prevent uniform compaction. 1,t Proposed FreeUp Storage Silt Expansion Yeh Project No. 222-221, 9.2 Excavation and Trench Construction Excavations within the on-site geologic materials will encounter a variety of soil types. We anticipate these materials will be excavatable with conventional heavy-duty earth moving equipment. The excavation contractor is responsible for determining the means and method necessary to accomplish earthwork operations. All excavations must comply with the applicable local, State, and Federal safety regulations, and with the excavation standards of the Occupational Safety and Health Administration (OSHA). Construction site safety, including excavation safety, is the sole responsibility of the Contractor as part of its overall responsibility for the means, methods, and sequencing of construction operations. Yeh's recommendations for excavation support is provided for the Client's sole use in planning the project, and in no way do they relieve the Contractor of its responsibility to construct, support, and maintain safe slopes. Under no circumstances should the following information be interpreted to mean that Yeh is assuming responsibility for either construction site safety or the Contractor's activities. We believe the overburden soil encountered on this site will classify as a Type C material, using OSHA criteria due to the possibility of saturated soil and high groundwater table. OSHA requires that unsupported cuts be no steeper than 1.5H:1V for Type C material for unbraced excavations up to 20 feet in height. Flattened slopes may be required if hazardous ground movement is observed or the slopes will be exposed for an extended period of time. Please note that the Contractor's OSHA-qualified "competent person" must make the actual determination of soiltype and allowable sloping in the field. Trench excavations are not anticipated to extend into the groundwater table, which was encountered at depths between 7 and L2 feet in the borings at the time of drilling. lf deeper excavations are planned for the project or if the groundwater table is higher at the time of construction, dewatering efforts may be needed. Utilizing appropriate construction dewatering equipment/systems such as well points, sumps, and trenches, will be the responsibility of the contractor. ln addition, trenching into unstable, saturated overburden soils will require temporary shoring, where construction of safe slopes is not feasible. QSHA requirements for excavation in unstable materials should be followed' The soils encountered in the proposed excavations may vary significantly across the site. The preliminary classifications presented above are based solely on the materials encountered in widely spaced exploratory test borings. The contractor should verify that similar conditions exist throughout the proposed area of excavation. As a safety measure, it is recommended that all vehicles and soil piles be kept to a lateral distance equal to at least the depth of the excavation from the crest of the slope. The exposed slope face should be protected against the elements and monitored by the contractor on at least a daily basis. 12 Proposed FreeUp Storage Silt Expansion Yeh Project No.222-221 9.3 Building Pad Preparation The stripped subgrade within the footprints of Buildings'l','J', and'L'should be scarified to a minimum depth of 8 inches, moistur''e conditioned to within 2 percentage points of the optimum moisture content, and recompacted to at least 95 percent of the standard Proctor maximum dry density (ASTM D 698). The site can then be raised to the design finish grade with engineered fill. Floor slabs should be underlain by a minimum of 6 inches of imported granular material meeting the requirements of Section 9,5 of this report. The ground surface should be sloped away from the buildings to promote drainage away from the structure. Due to the presence of the existing drainage pond within the footprint of Building'K', we recommend that the upper 2 feet of in-situ soils within the entire footprint be removed and recompacted to limit differential fill thickness and to mitigate associated settlement concerns. ln addition, we recommend that the pond side-slopes be laid back at an inclination 6h:1v, or flatter, prior to the overexcavation to avoid abrupt changes in fill thickness and to provide uniform floor slab support. 9.4 Pavement Subgrade Preparation The stripped pavement subgrade should be proof rolled under the observation of the project geotechnical engineer, or a representative of the engineer, to verify stability immediately prior to placing the aggregate base course or engineered fill to raise grade, if necessary. Proof rolling should be accomplished with a fully loaded water truck or similar heavy rubber-tired equipment weighing a minimum of 10 tons and should include multiple equipment passes in two directions. Any soft, loose, or otherwise unsuitable material detected during proof rolling operations should be removed and replaced with engineered fill or otherwise stabilized. The subgrade can then be raised to the design finish grade with engineered fill. We recommend a separator fabric, such as Mirafi 500x or equivalent, be used between the clay subgrade and aggregate base course (ABC) layer to prevent the fines from contaminating the ABC and reducing the strength of this layer. 9.5 Fill Material The on-site soils may be reused as fillto raise grade in the planned building and pavement areas provided it does not contain any deleterious material and provided any material greater than 4 inches in diameter is removed. lmported granular structural fill should meet the criteria of CDOT Class l- Structure Backfill. Aggregate base course should meet the requirements of CDOT Class 6 ABC. Samples of any imported material proposed for use on the project should be submitted to our office for approval and testing at least three (3) days prior to stockpiling at the site. 13 Proposed FreeUp Storage Silt Expansion Yeh Project No.222-22! 9.6 Compaction Requirements Fill should be placed in horizontal lift thicknesses that are suitable for the compaction equipment being used but in no case should exceed 8 inches by loose measure. Within the building and pavement areas, scarified and recompacted subgrades in addition to engineered fill consisting of on-site soils should be moisture conditioned to a water content within 2 percentage points of the optimum moisture content, and recompacted to a minimum of 95 percent of the standard Proctor maximum dry density. lmported granular fill or Class 6 ABC should be compacted to at least 95 percent of the modified Proctor (ASTM D1557) maximum dry density at a moisture content within 2 percentage points of the optimum water content. Trench backfill outside of structural and paved areas may be compacted to a minimum of 90 percent of the standard Proctor maximum dry density, We recommend that a qualified representative of Yeh and Associates visit the site during excavation and during placement of the structural fill to verify the soils exposed in the excavations are consistent with those encountered during our subsurface exploration and that proper foundation subgrade preparation is performed. 1O.O LIMITATIONS The recommendations in this report are based on our field observations, laboratory testing, and our present understanding of the proposed construction. lt is possible that subsurface conditions can vary beyond the limits explored. If the conditions found during construction differ from those described in this report, please notify us immediately so that we can review our report considering those conditions and provide supplemental recommendations as necessary. We should also review this report if the scope of the proposed construction, including the proposed loads or structure locations, changes from that described in this report. The scope of services for this project did not include, specifically or by implication, any environmental or biological (e.g. mold, fungi, and bacteria) assessment of the site or identification or prevention of pollutants, or conditions or biological conditions. lf the owner is concerned about the potential for such contamination, conditions or pollution, other studies should be undertaken and a professional in that field should be consulted. YehandAssociateshaspreparedthisreportfortheexclusiveuseofSpartanlnvestmentGroup,LLC. This report was prepared in substantial accordance with the generally accepted standards of practice for geotechnical engineering as they exist in the site area at the time of our investigation. No warranty is expressed or implied. The recommendations in this report are based on the assumption that Yeh and 1.4 Proposed FreeUp Storage Silt Expansion Yeh Project No.222-221 Associates will conduct an adequate program of construction testing and observation to evaluate compliance with our recommendations. 11.0 REFERENCES American Concrete lnstitute (ACl) 201.2R-08, 2008, Guide to Durable Concrete Colorado Department of Transportation (CDOT), 2021, Standard Specifications for Road and Bridge Construction. EPA, Colorado Radon Map accessed on June 2,2022 at https://www.epa.eov/sites/default/files/2014- 08/docu ments/colorado. pdf FEMA Flood Map Service Center, accessed on June 2,2022 al https://msc,fema.gov/portal/search?Add ressQuerv=Silt%2C%20Colorado#searchresultsanchor lnternational Code Council. lnternational Building Code. Falls Church, Va. :lnternational Code Council, 201.5. PaveXp ress, 2022, using AAS HTO 1993 / 1998, accessed on Februa ry t7, 2022 at http ://p rojects. pavexp ressdesign.com/ Shroba, R. and Scott, R.,2001, Geologic map of the Silt quadrangle, Garfield County, Colorado: U.S, Geological Survey, Miscellaneous Field Studies Map MF-2331-, scale L:24,000. U.S. Geological Survey, Seismic Design Web Service Documentation, accessed on June 9,2022. 15 Appendix A BORING LOCATION PLAN Job No.: 222-221 Plate: A-1 FREEUP STORAGE SILT EXPANSION BORING LOCATION PLAN '' "*il#*[Hli ffi:Tfl #H* ?[ h o,,,,a,r i I fli r*'l--r - FbrliFtsriilnlr*sitnlErit-rrif, r#rgf.tf -.ffi 'd$e$:ern Slope Llini Stma,5 $ft F-ISil rcms 38,ffi, HFI_ 6FC5S rEfl C€h5THJXn0{r LJS ftrcry66 toc. fFfthrccfhf,r,NORTH t t:,t)| BUII-DING !lr Appendix B BORING LOGS AND LEGEND tn Yeh and Associates, Inc. 4""t"@ Project:FreeUp Storage Silt Expansion Proiect Number:222-221 Legend for Symbols Used on Borehole Logs Sample Types ffi Bulk Sample of auger/odex cuttings Modified California Sampler (2.5 inch OD, 2.0 inch tD) X Standard Penetration Test (ASTM D1586) Drilling Methods m SOLID-STEM AUGER (4" OD) Lithology Symbols (see Boring Logs for complete descriptions) W m W Clayey Sand (SC)Cobbles and gravel m Fat Clay (CH)ffi WFTI hq Fill with Gravel as major soil Lean Clay (CL)Sandy Lean CIay (CL)sirt (ML)Silty Clay (CL-ML) Silty, Clayey Sand (sc-sM)Silty Sand (SM)Well-Graded Gravel (GW) Well-Graded Gravel with Sand (GW) Well-Graded Sand with Gravel (SW) Lab Test Standards Other Lab Test Abbreviations Moisture Content ASTM D2216 D7263 s (MSHTO T290-91Drv Densitv sahd/Fined ASTMContent ASTM D42 1, ASTM C136, 40 Chloride Content (AASHTO f2g-91ASTM ASTM D1 1 chl Atterbero nRsurd Limits D4318 Class.AASHTO M145, ASTM D3282 s/c UCCS (ASTM USCS Class. ASTM D2487 lFines = % Passino #200 Sieve Sand = % Passing?4 Sieve, but not passing #200 Sieve) D7012) R-Value DS ((-) (phi) Direct Shear ShearDS Re Direct Notes PtL Electrical Resistivitv Point Load Strenqth 1. Visual classifications are in general accordance with ASTM D2488, "Standard Practice for Description and ldentification of Soils (Visual-Manual Procedures)". 2. "Penetration Resistance" on the Boring Logs refers to the uncorrected N value for SPT samples only, as per ASTM D15B6. For samples obtained with a Modified California (MC) sampler, drive depth is 12 inches, and "Penetration Resistance" refers to the sum of all blows. Where blow counts were > 50 for the 3rd increment (SPTj or 2nd increment (MC), "Penetration Resistance" combines the last and 2nd{o-last blows and lengths; for other increments with > 50 blows, the blows for the last increment are reported. 3. The Modified California sampler used to obtain samples is a 2.S-inch OD, 2.0-inch lD (1.95-inch lD with liners), split-barrel sampler with internal liners, as per ASTM D3550. Sampler is driven with a 140-pound hammer, dropped 30 inches per blow. 4. "ER" for the hammer is the Reported Calibrated Energy Transfer Ratio for that specific hammer, as provided by the drilling company. NN o mJotu u @ I oo uoJooIU NoN Fo dF JI uFoo(oJoo Eu NoN Iqa(,oJ zto m U toFa IfUUt I NN NNN sJJ U ! Ea Fooo F o_a NoN(,oJ oz to m o tn Yeh and Associates, Inc.Project FreeUp Storage, Silt Expansion Name: Proiect Number:222-221 Boring No.; B-1 PAGE 1of 1 Boring Began: 511312022 Boring Completed: 51 1312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: 15.0 ft Ground Elevation: Coordinates: Location: Building L Weather Notes: Sunny lnclination from Horiz.: Vertical Night Work: ! Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southworth Symbol Depth Date 12.0 tt Co^ ;E tl-I -C. ^i1 o)ooOg E o- 0)o oo- F C)a E(Ea E c C) .= o Soil Samples o)o o-c=J Material Description Oo\ =r.s6OF20 O --oc^OEOo- o Co CO^O;e 6 c) ,c LL Atterberg Limits AASHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in 58FC(E(U 6.a -App Eo\ f- 6.=jC = 'ix.;€ o!d 5- '10 - 0.0 - 0.5 ft.wl and brown. - 8.5 ft. Sandy LEAN CLAY brown, Iow plasticity, moist to wet, soft. (Poor Recovery) Auger Refusal X 1-1-2 x 17.8 67.3 28 12 z 8.5 - 12.0 ft. Sandy SILT, brown, no plasticity, wet, very soft. 21.9 60.8 12.0 - 15.0 ft. GRAVEL w/ sand, brown, no plasticity, wet, loose to medium dense. X 2-6-4 10 Bottom of Hole at 15.0 ft. 04 BORING LOG 2021 - SPT CDOT SryLE LL% 222.221 FREEUP STORAGE BORING LOGS.GPJ 2021 YEH COLORADO TEMPTATE.GDT 2021YEH COLORADO LIBRARY.GLB 6/10/22 I!T o o o o o q o\ s) a v)0o() CD (D P o 3 Fl (D ;iOc) )uo =35o :..| N) N)N 'r'l NEcEa+o-g)(o JDgQ. .=m:X 9o) =TD A.$9 dx+lr1 :ruo 34-co(o dqolci'9 OPF -f(of.ZOodo6oco -orua s OIDE=,oo (o(o(o ooo+3ctt€.3 -oYOUof (t ogrN HeNYiNoofN c(oo t o TJ r5d.3rDP'' ul ))a<oc*ae€o-t+s F93r-.s=cD 8='ae'i: $ o@geA =+- ='5o(o"br+ p Fg6E * 9oo 1-> co'oo.-J='o s5 o!/ q6"u3e. *a N'f CDeO 0) Elevation (feet) Depth (feet) Sample Type/Depth Drillinq Method @ 9_ CN 0) 3p_ oa Lithology 0) o-" 0) ooao =.E o'f Moisture Content (%) Dry Density (pcf) Gravel Content ek) Sand Content (T") Fines Content e/") aq(o o oaoP ?il64d +8d OT.= !add o, o #7'-=gd a -oF ='q Ea Penetration Resistance Liquid Limit (%) Plasticity lndex O () -.t (nO D -oc @T N N) (n \A Io !to € q)a4o. 5 =6' o €o5+ o ao (,r o o € p. q) ad- o.5 3o.aj+ oa ooao P(,, Io '9. s o i.o rt- J- oF mt-{ o 0) @o 3 I o 0) 9no 0)f C' 0, rm zot- o € _5 A)fo- o €f of6o a z0 € (o-A, q o o€ -= N)Io o) s N)\ (o Eao vo3 D_ z.o7ooo oe NN o mJotd tof oo toIoo TU NoN Foq UFII t! oo toJo O IU No N 0-q aooJ (,zto m U(, toF U)cfUUdI Nq NNN JJ UJt U' Fooo FI U) NoN ooJoz to m o tn Yeh and Associates, Inc. Ccotechnical . Geological . Construction Serviccs Project FreeUp Storage, Silt Expansion Name: Project Number:222-221 Boring A/o.: B-3 PAGE 1of 1 Boring Began: 511312022 Boring Completed: 511312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: 10.5ft Ground Elevation: Coordinates: Location: Building L Weather Notes: Sunny lnclination from Horiz.: Vertical Night Work: ! Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southworth Symbol Depth Date 8.0 ft C€oiro BE, ul E^ oq)ooOg -o.oo oo- F () o- E(o (t) oE o =o Soil Samples o)o o-c#J Material Description 6J o\ .a -a 20O =atc-UOOo. >o co c.e^(J ro (o (, coc cc(qa co cO^O;s ao ,c I.L Atterberg Limits AASHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in coOOFC(s(E tia -A;i d)il-e Eo\=-IE: .;X.YO o- E 10- - 0.3 ft. FILL, GRAVEL w/ sand, and brown. 0.3 - 8.0 ft. Sandy CLAY brown, low plasticity, moist, medium stiff to stiff 8.0 COBBLES AND GRAVEL, brown, wet. 9.0 - 10.5 ft. GRAVEL dense. Pocket Penetrometer =.75 tsf UCCS=2385 psf Auger Refusal X 3-4 7 17.8 108.4 0.1 38.7 60.B 26 '10 A-4 (3) ct X 9-26-5014"76110'iij Bottom of Hole at 10.5 ft. 04 BORING LOG 2021 - SPT CDOT STYLE LL% 222-221 FREEUP STORAGE BORING LOGS.GPJ 2021YEH COLORADO TEMPLATE.GDT 2021YEH COLORADO LIBRARY.GLB 6i10/22 IT gl# ttsls) ^l o. "sl>Y'lqt2l ut.loolo alsD il(DZ'la al . :t3-Blc) ! =!d P.d o >J(Do )eo zF{so.: N) N)N-nl\)=\IBc!o o-0)(o -ogQ. .Im 9o)fTD q,sg dx+[r; IUO =D.-io(oi'r"r c='ldqof *.os!+l oE=ccoB€ooctodoco mfn s otrtr=.oO=' =' ='(o(o(o ooo+=(cI1E 3 -oYOq o.=(D" !toul\) XeNYiNoofNJN c(oo t o lrr d.3ulR'' ullKa<oc (t) =Ef,s 583s'$=cA) !2rO.Dr":Em9oEqA =+-!+or 5fF o t- -ao Y.<d+F :o 1(o5 =o- ! ==!zo='s$fAE=zlo 901A =aN'= oeo !L Elevation (feet) Depth (feet) Sample Type/Depth Drilling Method a 9_ @g) 3p. oa Lithology 0) o =.0) oooo =.E*of Moisture Content (%) Dry Density (pcf) Gravel Content (%) Sand Content (%) Fines Content e/") r* ='oJ= aEo o oooP 3F6+; +8- of 6'd o, o *7'-3tsg -oF ='q =a Penetration Resistance Liquid Limit (%) Plasticity lndex ol (! O)O) (o 0) 0) = o o €jr €o!+ (D o.o5 CN !D l\)o Io ;F mr !o a-iOJ€tt-o** -b =o60.E'<326 I-. =i.o d{ a at- o€Po P(, iFt- @o f o - o Fo oco3b 8-r\a5o) p. d.o<a- om.2 >--z3c)Q.-s> o=o_oc= g)f ln 0) o. € o A) -o. N(o i.)90..1 Otr d) 5 l.)o (, 5 (t !,) O) 90o) N) -{ tJ or-^ no D EEoa o= OEa6: c.7 0 @9AO f II I>< rr n: il!i@." -6gdRs- s= scQ- NNo @ mJ(, j t m J oo toJoo IU NoN Foq uFII UFoo toJoo-U NoN 0-q aooJ z Eo m ul(, doFaLf,t!ultu NN NNN sj I L!J Ia Fooo FIa NoN(, o)(,z do6 tn Yeh and Associates, Inc. Geotechnical . Ceological . Consfsction Serviccs Project FreeUp Storage, Silt Expansion 'lS',Name: Project Number:222-221 Boring No.: B-5 Boring Began: 511312022 Boring Compleied: 51 1312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: 11.0 ft Ground Elevation: Coordinates: Location: Building K Weather Notes: Sunny lnclination from Horiz.: Veftical Night Work: I Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southworth Symbol Depth Date 8.0 ft 5^E5de UI !^ b-oooOU Eo C)o 6)o. F o E(Ea Eoc o 5 o Soil Samples o)o oE=J Material Description c) o\ .ebOF20 =oc-6)EOo- i^-o Coco^Oro6- (! lrl co cds Ec (Ea coco^OSa- C) .g [L Atterberg Limits AASHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in coOOFC(E(E 5.u) -A&p -o\f-u.=JE: b.;X.YOi;9. I A- 10- 0.3 - 8.0 w/ sand, brown, low plasticity, moist, soft. Pocket Penetrometer =.75 tsf S/C=-1.30/o @ 500 UCCS=684 psf Auger Refusal X 2-3 q 23.0 25.1 101 .3 100.4 27.0 73.0 32 14 A-6 (B) CL ii; ,.Qtl-ll, 8.0 - 1 1.0 ft. GRAVEL w/ silt and sand, brown and gray, wet, dense. X 3-5-40 45 9.'1 54.0 36.4 9.6 Bottom of Hole at '1 1.0 ft. I NN o mJ C'tx E mf oo toJoo IU NoN Foq UFIL U]Foo toJoo It! NoN Iq s)ooJ zto m U(, uoFa I:lUUtI Nq NNN sJJ UJ E U) Fooo FIa NoN(,oJoz to m o tn Yeh and Associates, Inc. ceotechnical . Gcological . Construction Services Project FreeUp Storage, Silt Expansion Name: Project Number:222-221 Boring A/o.: B-6 PAGE 1of 1 Boring Began: 511312022 Boring Gompleted: 511312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: 14.0 ft Ground Elevation: Coordinates: Location: Building K Weather Notes: Sunny lnclination from Horiz.: Vertical Night Work: ! Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southworth Symbol Depth Date 9.5 ft c.9ciTodg LU E^ o-oooOU .c, o- c)o C)o F C) E. ENa !oc 0) o) 5 rf Soil Samples o)o oE=-J Material Description d) o\ fs ..p 6OF 20 O '6 38to coc 3c.o- (u (t co co- EE(g <D co C,O^();e o c)cir Atterberg Limits MSHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in 88 (8(g t).a -ahp# !o\ o.=IE: E6 o9(E: o- E 10- 0.0 - 0.3 GRAVEL w/ sand, and 0.3 - 9.0 ft. Silty CLAYw/ sand, low plasticity, moist, medium stiff 21.1 95.0 27.4 72.6 25 5 A-4 (2) CL-MLXJ-J b X 5-7-16 23 9.0 . 14.0 ft. GRAVEL w/ sand, brown and gray, wet, medium dense. Bottom of Hole at tr+.u tL. NNo @ coJq t to =oo toJoo IU N N o dF fI UFoo toJoo IU NoN rLq U)ooJ oz E.om u.l (D toFa o-f, u.lultI NN NNN JJ UJ I U) Fooo F a NoNooJ zto @ o tn Yeh and Associates, Inc. Gcotechnical . Ceological . Construction Serviccs Project FreeUp Storage, Silt Expansion Name: Proiect Number:222-221 Boring No.: B-7 PAGE 1of 1 Boring Began: 511312022 Boring Completed: 511312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: 15.5ft Ground Elevation: Coordinates: Location: Building I Weather Notes: Sunny Inclination from Horiz.: Vertical Night Work: ! Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southworth Symbol Depth Date 7.0 ft Co^ :#ts o)dg IJ.l E- o-oooOg E o)obo- F o o- E(E U) o-c (l.) o) 5 o Soil Samples (')o6E.=J Material Description oo\ f# .o6ots 20(J '6 c-3E-o coc3o6- (E (, c c)c roc (Ea cocO^O;s aocir Atterberg Limits AASHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in 88 #L(o(tr 6.u) -App f-u'='-r E J '^x.YO69 d E- 10- 15- ry ry O.() - 0.3 ft, FILL, GRAVEL and Sandy Silty CLAY, brown, low plasticity, moist to wet, soft to medium stiff. 20.9 95.1 55.9 24 7 pH=6.9 S=.014% Chl=.00778% Re=979ohm cm Pocket Penetrometer =0.5 tsf (No sample recovered) pH=7.6 S=.012% Chl=,00647% Re=1B2Oohm cm Auger Refusal X 2-2 4 u X 1-4 t ,4 10.0 - 12.0 ft. FAT CLAY brown, high plasticity, wet, soft to very soft. 12.0 - 15.5 ft. GRAVEL w/ silt and sand, brown and gray, wet, very dense. X 5-2'1-50/5"/ 1111'.7.8 59.0 31.5 9.5 Bottom of Hole at 15.5 ft. NNo mJ(,ttr to =oo toJoo IU oN Foq uF JL UFoo toJoo IU N d 0-q u)ooJoz &.o m Lrl(, toFa Il!l Lr.lt I NN NNN sJJuJ a Fooo FIa NoNooJ oz Eo6 tn Yeh and Associates, Inc. Gcotechnical . Ceological . Constructiotr Serviccs Project FreeUp Storage, Silt Expansion Name: Project Number: 222-221 Boring No.; B'8 PAGE 1of 1 Boring Began: 511312022 Boring Completed: 511312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: '15.0ft Ground Elevation: Coordinates: Location: Building I Weather Notes: Sunny lnclination from Horiz.: Vertical Night Work: ! Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southworth Symbol Depth Date 7.O ft 5^:#in (l) ?;s LU E- o-o(l)oOE c o-oobo- F 0) o- E(sa o-c o E o Soil Samples o)o oE,EJ Material Description Oo\ .o6o= 20 =ac-OEOo. o Co E' O -"' (! (t coco- !c(E <D co CO^O;s 6 C) .E LL Atterberg Limits AASHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in coOO'FC(8(E t).o -App E6\=-o.=JE = .;{ (u= o- 5- 10- m 0.3 - 12.0 ft. Clayey SAND, brown plasticity, moist to wet, loose. 16.4 28.O 106.8 93.0 58.0 42.4 42.1 23 A-4 (0) SC Pocket Penetrometer =0.75 tsf UCCS=787 psf Auger Refusal X 3-4 7 X 1-4 5 i:i;L.l 12.0 - 15.0 ft. GRAVEL w/ sand, brown and gray, wet, dense. 30-50/4"5014" Bottom of Hole at 1 5.0 ft. NN o o)otd tr mf oo toJo C) IU NoN Fo C? UFII uFoo toJoo I LX NoN 0-q a(,oJ zto m U(t toFa I:lUUtI NN NNN Jj UJ I @ Fooo FI U) NoN(tolo2 uo m o tn Yeh and Associates, Inc. Ccotechnical . Geological . Construction Services Project FreeUp Storage, Silt Expansion Name: Proiect Number:222-221 Boring No.: B-9 PAGE 1of 1 Boring Began: 511312022 Bori ng Completed: 5l'1312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: 16.0 ft Ground Elevation: Coordinates: Location: Building J Weather Notes: Sunny lnclination from Horiz.: Vertical Night Work: I Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southworth Symbol Depth Date 7.Oft co^ iro>.o LU -C. -i1 o(l)or]E .c. o.oo oo- F o E(E U) Eoc C) =o Soil Samples OJo o-c#-J Material Description do- =€..n 6o= 20 'a C-OEOo- a"-o C 6) c3o6- (E o coco-OS EC(!a C 0)c a c),cIL Atterberg Limits MSHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in coloo #Lgs 6.e -A&p !o\ =_6.=jC = '6xElgo9 o- q- 10- 15- 0.0 - 0.5 GRAVEL w/ sand, and 0.5'9.0 ft. Silty Glayey SAND, low plasticity, moist to wet, very loose. 21 .7 26-5 93.4 89.1 42.2 23 4 Pocket Penetrometer =0.25 tsf Pocket Penetrometer =0.25 tsf UCCS=785 psf Auger Refusal X 2-2 4 X PUSH rUSF z 9.0 - 13.0 ft. Sandy LEAN GLAY brown, low plasticity, wet, very soft. % l':t'l'.:l'13.0 - 16.0 ft. GRAVEL w/ silt and sand, brown and gray, wet, dense. X 18-22-23 45 8.3 57.0 30,8 12.2 Bottom of Hole at 16.0 ft. NNo c0Jq t to =oo troJoo IU NoN Foq ulF)I uFoo toJo O IU NoN I c? a oJ oz e.oo Lrl (D toFa If, !J L]Jt I NN NNN sJJ t!J Fa Fooo FIa NoN(, oJ oz Eo m o tn Yeh and Associates, Inc. Gcotechnical . Geological . Construction Serviccs Project FreeUp Storage, Silt Expansion Name: Project Number:222-221 Boring A/o.; B-10 PAGE 1of 1 Boring Began: 511312022 Boring Gompleted: 511312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: 13.5ft Ground Elevation: Coordinates: Location: Building J Weather Notes: Sunny lnclination from Horiz.: Vertical Night Work: ! Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southwofth Symbol Depth Date 7.0ft o^ '=Pin dJ>"e(I) .:.i LU -C-o-oo0)Oe c o- o)o c.)o- F C) o- E(Ea ooc o =o Soil Samples o)oE -c.=J Material Description Oo\ f# .o T) 20 '6 38 i"o o tro^os6- (E c c.) Cds EC a co cO^ O;S n,oE Atterberg Limits AASHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in 58 $(s,aa -(hpp !o\ f- :E: '^x.:oo9 o_ 5- 10- 0.0 - 0.5 ft. FILL, GRAVEL w/ sand, and 0.5 - s.5 CLAY brown, low plasticity,to wet, soft to very soft. Pocket Penetrometer =0.25 tsf (Poor Recovery) (Poor Recovery) Auger Refusal X 2-2 4 10-17 27 9.5 - 13.5 ft. GRAVEL w/ silt and sand, brown and gray, wet, medium dense to very dense. . 50/5.5"0/5.5 9.4 67.O 23.2 9.8 Bottom of Hole at 13.5 ft. N(!o\ @ oJ(,tt to J oo toJoo Iu NoN Fo ui 3L UFoo toJo(-) IU NoN L q oJ oztod Uo to a If,UUtu NN NNN sJJ ulJ Ia Fooo FIa NoN(,oJ zto m o tn Yeh and Associates Inc. Geotechnical . Ceological . Conslruction Serviccs Project FreeUp Storage, Silt Expansion Name: Project Number: 222-221 Boring No.: B-11 PAGE 1of 1 Boring Began: 511312022 Boring Gompleted: 511312022 Drilling Method(s): Solid-Stem Auger (4" OD) Total Depth: 10.0 ft Ground Elevation: Coordinates: Weather Notes: Sunny lnclination from Horiz.: Vertical Location: Between Building H and L Night Work: ! Driller: HRL Compliance Solutions Drill Rig: Diedrich D-90 Hammer: Automatic (hydraulic), ER: % Logged By: M. Skyrman Final By: R. Southworih Synbol Depth Date 7.0ft o^ Hg UJ .C. -b-oooOE =goo o F o o- E(tr U) 1fo,c, o o €'tro Soil Samples o)oo-cEJ Material Description CJ f a coc --oc^o?iod- o cp co^O-o o- E c c) cds Ec(ga c 0) cO^O;S 6 OJciI Atterberg Limits AASHTO & USCS Classifi- cations Field Notes and Other Lab Tests Blows per 6in 58 #Lo(E 6.9 -Ag# Eo\ f- JE: .;X.;oo9(g: o_ 5 O.O - 0.3 ft. FILL, GRAVEI to 0.3 LEAN CLAY bTown, low plasticity, wet, very loose. 62.5 37.5 41.1 pH=6.9 S=.014% Chl=.00778% Re=979 ohm cm Pocket Penetrometer =0.5 tsf UCCS=422 psf S/C=0.3% @ 500 X 1-2 J 24.2 18.6 92.4 98.1 27.9 90.8XPUSHrUSF Bottom of Hole at 10.0 ft. Appendix C TABORATORY TEST RESUTTS =-!---t- $cdded 'O|oh3ifll . E!trrtrEflilErrrlcar Summary of Laboratory Test Results roject No:222-221 Project Name:Free U sitt Date:51251202t Location Boring No. (final) B-1 B-1 B-2 B-2 B-3 B-4 B-4 B-5 B-5 B-5 B-6 B-7 B-7 B-7 B-B 8,9 B-1 0 B-B P,_O B-9 14 - 15.5 10-12 4-5 4-5 I , 10.5 4.5-5 4-4.5 9 -'10 4-5 4-5 14-15 12 - 14' 8.5 - 9.5 3.5-5 Depth (ft) 1-5 13 - 13.5 14 - 15.5 10-Sep 4-5 9-10 4-5 SPT MC MC MC MC MC SPT Bulk MC SPT Sample Type Bulk SPT SPT MC MC MC MC SPT BULK MC MC 16.4 7.8 20.9 21.1 9.1 25.1 23.0 29.2 18.7 17.8 16.9 27.6 21.9 17.8 Natural Moisture Content (%) 9.4 o_J 26.5 21.7 26 95.1 95 100.4 101 .3 103.6 108.4 Natural Dry Density (pcf) 89.1 93.4 93 106.8 54.0 0 0 0 19.0 \ /o/ SandGravel >#4 (%) 67.0 57.0 0 EOn 42.9 31.0 39.0 65.5 23.2 30.8 58.0 JI.J 36.4 27.0 55.9 72.6 9.1 73.0 J/- t 69.0 61.0 15.8 64.4 60.8 67.3 Fines < #200 ("h) Gradation 9.8 12.2 42.2 42.1 42.0 9.5 23 24 25 aa 41 20 27 28 LL zc 20 to 18 16 PL 19 15 17 20 18 14 10 o 12 PI Atterberq 4 B 7 q 7.6 PH o.o12 Water Soluble Sulfate % 0.014 1820 ohm.cm Resistivity 979 Chloride to 0.00778 0.00647 -t.J (0.5ksf) % Swell (+) / Consoli- dation (-) 684 2988 2385 Unconf- Comp- Strength (osf) 785 tot R-Value A-6 (8) A-7-6 ( 13 ) A-4 (3) AASHTO A-4 (0) CLASSIFICATION USCS SC UL CL CL B-4,7,11 03GRAINSIZEYEH 222-221 FREEUPSTORAGEBORINGLOGS.GPJ 2A21YEH COLORADOTEI\,4PLATE.GDT 2021 YEHCOLORADOLIBRARY.GLB 6/10/22 m m ! mzzo 2 2oI ma tra q. m mzc F mna o s O N Li F NO O 5 o NO 6o o (ro oO oo o NOO o)d){--t@@(O(oOo (I o (' o (' 0 (' 0 PERCENT FINER BY WEIGHT N)N('CDSS('l('O(JTO(JTO(tO(J]o(rocI o Ioo O O on z 6 Nm 2 t-t- m-lmTa o E @rm @ on mr- U) zo @ r--l 7 r- (- I I ) -{ / 4 J .-.- A Ea. { (!on mIorm o^m+T - oo>(,'b 4'a6'r$-t 6.o = o 0)(h (-\a6'oD C/)*o5 r-r llr ll so 0) o sa f,o- slrfoa s a. sa 0) o tp {.l Ieo I qt o N{ @ (0 ob (.) !to) o)Fr x @ fN Fo J !oo o) !,lN J lrro @ I(, Fo f (.) o No) o) o (^) soo o) b * Et rtt d Io) (.) o 5 I No N ob (.) 5 o) 90o) o IDt (.ott ob 5N ie CtrJ IT o' Fs a. v)ooo !D o -ca o ooo o m o o o 0 @ I rfl m z t- g U, on-uJO=O rO J:.ooo6-=S(>@-7 E= o ==NU)oN€9 N o)xlO <ooo)-or" 0) 9" Q8$AFc- l\)-O =N)c)N=of -1.1-oocoa o(/)S =('o.-O a-cn\J: mXo 0):ia. o = 03GRAINSIZEYEH 222-221 FREEUPSTORAGEBORINGLOGS.GPJ 2A2lYEHCOLORADOTEN,4PLATE.GDT 2O2lYENCOLORADOLIBRARY.GLB 6i,IO/22 tra q. m mzc rDmn @ tr 9n o N Li o s- N O o o o o NO o o (n O o OO O N O o)o)-{{@@(o(ooo(IO('O('O('O PERCENT FINER BY WEIGHT N)N)(J)(r55(n('O(}rO(nO(rO(JrO('O('r oO o on za Nm2^ t-t- m-lmfra I PO OO (lo TDt!t-ma T mr <j) zo CNr-l 7or ) /1 I d' ) -) { / ----EJ / (!oFmTot-m U^mEI - o$>ua ^f$-ld r'.\ov = o o(-E66'oo0)4o5 rt- llr- -It s 6) 0) o ;R CN 0)f,o- srl :lo6 sa s O o) o ID I(t Io I6) @ ol- (., N) @ J5 ob NJo { s.)o x ID I(,l @b (JrIo (*) 9)s (.o b, ID Io) F(rr f N o I t- N(Jr No (,t ob N{L { l.to) + IDt{ F(tl A o I = N5 { { ob 55 J ('l(,r (o I5 (D' Fe g a(t)o C) Fo CDa s) o o @ Q 0e o a @ 2, rn m z t- La OI-u5(D=(DEJI.ooox-ro(Da-WzE= F- ==N(nON€s NJl := =A <Ooo) -ot-" 0)g q8 or- f=(-, C-NCO:fNo I\) =oJ TI-oocca o cDs:fAj(D a"cn\J: mxE 0)f @. of, 03GRAINSIZEYEH 222-221 FREEUPSTORAGEBORINGLOGS.GPJ 2021YEH COLORADOTEI\,4PLATE.GDT 2021YEH COLORADOLIBRARY.GLB 6/10/22 tra q. m mzc @mn CN 2 o o N ,- Noo o o o O o NO (D O O oO oo OO O NOO o)o)--J-{@@(o@oO('O(JIO(JTO(nO PERCENT FINER BY WEIGHT NN(,(rSA(}l('o(ro('o(}Io(nO(JrO(' O PO PoO on za Nm 2 r_F- m-tmna oo @ @rma on mr- CN zo q--t onor- -l ) --- .-4. .Y J"' J / -. / q,onm-ot-m o m1l-{- odt>(, 'F>{a hi -{ 5:.o :J O 9lat-(t- =ri$ c/) 6':f r-t- llr- T] s G)-0) o saq) =o- sl! =oa s a. sa o) o ID I{ 5b (rt !oo (*r irt (0 irt E t! Io F(Jr f o U,o Nu) C'I @ ob Ctt 90o r l\)o ID I6 (.o itt 9o grl(0 F N + ID I(0 s trl A o ao Ia = N(.) I <0 A ob Ctr{ 6 5 N) ie I5 gl# ilP3l!e;15olA Fl>':'l c,lNla.loolO alF0 EtCD 3'l utrlu Kl =i3.t 5 fils) 2 ]Tl m z t- a6 ot0-o OEJI.ooox-aoo-a-WzD= a ==NCDOPq3 N d9fA <Uoo)-or-., 0)I' OQ9) lo (-N CO:J l\)oN) =:o = r'l-oocca o 0)d =(oio a-cn\-,r: mXE 0):l @. of U.S. SIEVE NUMBERS HYDROMETERU.S. SIEVE T .Tu \I I t-T-I \ \ \ \ \ i I I \ V ). \ 3 \ 4 \ E.\I I )L \ \ 6 4 3 21.5 1314 1t2318 3 4 6 810 141620sO40 5060 100 140200 100 OA 90 B5 BO 75 70 65 60 F :E 55 C) Hso5 m45 tr, tu 40z LL ^-J5Fz I.U 30 C)t uJ 25(L 20 15 10 5 0 100 10 I o.1 0.01 0.001 GRAIN SIZE IN MILLIMETERS COBBLES GRAVEL SAND SILT OR CLAY BOREHOLE DEPTH (ft) AASHTO Classification USCS Classification LL PL PI %Gravel %Sand %Fines %sitt %Clay O B-9 '|.4.0 57.0 30.8 12.2 tr B-10 13.0 67.0 23_2 9.8 A B-11 4.5 0.0 62.5 37.5 *B-11 9,5 0.0 58.9 41.1 NNo mJ tt tr m J oo toJoo-U NoN Fcq UF JI LUF oo doJoo I ul NoN cq U)ooJ z Eom U(, toFa Ilu!lt I NN NNN IU uNaz ato o llt Yeh and Associates, Inc. Geotechnical . Geological . Construction Services SIEVE ANALYSIS Project No. Report By: Checked By: 222-221 M. Connors M. Skyrman Date: 06-10-2022 Yeh Lab: Grand Junction FreeUp Storage, Silt Expansion silt, co tn Yeh and Associates, Inc,CIay Lab - Denver GcoEchdcal . Gcological . Colstnration $crticor o\ + 6) a I Cq 0 U 16.0 14.0 12.0 r0.0 8.0 6.0 4.0 2.0 0.0 -2.0 -4.0 -6.0 -8.0 -10.0 -12.0 -14.0 - 16.0 0.1 10 100 Applied Normal Pressure, ksf Water Added I I I 7 I \ \ Boring Number Depth, ft Natural Dry Density, pcf lYlolsrure Content, o/ Consolidation(-) /Swell(+),7o Soil Classification SWELL / CONSOLIDATION GRAPH B-5 4-4.5 101.3 23.0%-1.3 A.-6(8)/CL Drawn By M.A Job No:222-22t Proiect Name Freeup Storage, Silt Expansion Checked Bv:M.S. YEH & ASSOCIA INC tn Yeh and Associates, Inc.Clay Lab - Denver Gcobohntcal . Gcolosical ' Constnrction $cwlccr o\ + q) a I o cB 0 U 16.0 t4.0 t2.0 10.0 8.0 6.0 4.0 2,0 0.0 -2.0 -4.0 -6.0 -8.0 -10.0 -12.0 -14.0 - 16.0 Water Added I I I ( I ) 0.1 I 10 100 Applied Normal Pressure, ksf Boring Number Depth, ft Natural Dry Density, pcf Moisture Content, ol Consolidation(-) /Swell(+),7o Soil Classification SWELL / CONSOLIDATION GRAPH B-11 4.5-5 98.1 18.6%-0.3 A-4(0)/SM Drawn By:M.A Job No:222-221 Proiect Name:Freeup Storage, Silt Expansion Checked By:M.S. YEH & ASSOCIATES INC fll@ Clav- Lab Denver STRESS-STRAIN CURVE oF coHESrvE soIL (ASTM D 2166) Project No: Sampled by: Boring No: Tested by: naa 11t M-skyrrnan B-3 Project Name: Date Sampled Depth (ft): 511612022 4-5 Freeup Storage, Silt Expansion Date Tested: Blow Counts: 5118/27 MA Checked by:M. Skvrman Soil Classiflcation:A-4 a ICL Stress-Strain Curve d o a 4000.0 3900.0 3B00.0 3700.0 3600.0 3500.0 3400.0 3300.0 3200.0 3100.0 3000.0 2900.0 2800.0 2700.0 2600.0 2500.0 2400.0 2300.0 2200.o 2100.0 2000.0 1900.0 1800.0 1700.0 1600.0 1500.0 '1400.0 1300.0 1200.0 1 100.0 '1000.0 900.0 800.0 700.0 600.0 500.0 400.0 300.0 200.0 100.0 0.0 0.o"/" 1.o"/" 2.0ya 3.o% 4.o% 5.0yo 6.oT" 7.0% 8.00/0 9.o%'lo.0yo'11.0%12.0yo13.0vo'14.00/.15.00/o Strain ((Percent) Unconfined Compressive Strength (q") : Natulal Moisture: 17.B % Natural Density(Dry): 108.4 Pcf Average Diameter (D): 1.900 inches Average High (L): 3.984 inches L/D Ritio: 2.10 2385 psf @, 12.0% Strain Axial Strain Axial Stress I /Ot (osf) 0.0%0.0 0.3%131.7 0.5%tot./ 0.8%191 .5 1.0%226.3 4 aol 260.B 1.5%285.1 1.8%324.3 358.3 a ao/402.1 2.50k 440.7 2.Bo/o 474.1 3.0%Fla a 3.3%550.3 3.5%5S7.8 o.o /o 635.4 4.0%721.5 4.3%773.1 4.5o/o BO9.B 4.8%865.8 5.0%916.5 53%962.2 5.5%"1012.5 5.8%1072.O 6.0%1131.2 6.3o/o 1 175.8 6.5%1239 1 6.8%1235.7 1284.4 7.3Yo 1337.4 7.5%1394.8 7.8%1451.9 8.0%'1504.0 8.3%1560.5 8.5%1616.6 8.8%1677.O 9.0%1732.5 9.304 1787.6 9.5%1837.8 LB%1956.4 10.0%1950 S 10.3%2059.4 10.5%2126.3 10.8%2165.7 11.0%2204.8 11.3%2261.6 11.5%2309.1 11.8%2302.6 12.00k 2385.4 12.3o/o 2378.6 12.5o/.2447.3 12.Bok 2537.7 13.1Yo 2530.4 13.3%23B6.6 .IJ Gcoteehnlcal . Geologlcal .Clav- Lab Denver STRESS-STRAIN CURVE oF coHESrvE sorl- (ASTM D 2166) oject No: rmpled by: rring No: sted by: 222-221 I\,'lskyrman B-4 Project Name Date Sampled: Depth (ft): Freeup Silt Expansion 511612022 Date Tested Blow Counts sl18l22 4.5-5 MA Checked by:M. Skyrman A-7-6 (13 ) / CLril Classification Axial Stress (psf) 0.0 247.5 3S0.0 521.9 653.2 827.9 9'13.8 1057.7 1181.3 '1309.2 1441.3 1558.2 1664.8 1775.6 1885.9 1990.8 2076.0 2179.8 2268.8 2343.1 2431.1 2504.6 2577.6 2645.5 2708.3 2770.8 2814.4 2866.9 2914.5 2943.4 2967.5 2982.3 2987.8 2979.6 2971.4 Strain 0.0% 0.3% 0.5% 0.8% 1.0% 1.3% 1.5% 1.8% 2.0% 2.3% 2.5% 2.8% 3.0% 33% 3.5% 3.8% 4,0% 4.3% 4.5% 4.8% 5.0% 5.3% 5.5% 5.8% 6.0% 6.3% 6.6% 6.8% 7.104 7.3% 7.6% 7.8% B.1o/o 8.3% 8.6% Stress-Strain Curve 4000.0 3900.0 3800.0 3700.0 3600.0 3500.0 3400.0 3300.0 3200.0 3100.0 3000.0 2900.0 2800.0 2700.0 2600.0 2500.0 2400.0 2300.0 2200.0 2100.0 2000.0 1900.0 1800.0 1700.0 1600.0 1500.0 1400.0 1300.0 '1200.0 1 100.0 1000.0 900.0 800.0 700.0 600.0 s00.0 400.0 300.0 200.0 '100.0 0.0 0 ao- aa c) U) .0% 1.0% 2.0% 3.0% 4I% 5.0% 6.0% 7.0% 8.0% 9.0o/o 10.Oo/o11.0%12.0%13.0%14.0%15'00 Strain ((Percent) ./ :' ./ ../ -: ,f ,,j/ - , -/ ,,t, f J. Unconfined Compressive Strength (q,) : o//o Natural Moisture: 18.7 % Natural Density(Dry): 103.7 Pcf Average Diameter (D): 1.922 inches Average High (L): 3.969 inches L/D Ritio: 2.06 2988 psf @ 8.1% Strain Jra@ Clav- Lab Denver STRESS-STRAIN CURVE oF coHESrvE sorl- (ASTM D 2166) Project No: Sampled by: Boring No: Tested by: 222-221-- I\4. Skyrrnan - B-5 Project Name: Date Sampled: Freeup Storage , Silt Expansion 5t16t2022 Date Tested: Blow Counts: 5118122 Soil Classification: Depth (ft):4.5-5 MA Checked by:M. Skyrman Stress-Strain Curve o 2000.0 '1900.0 1800.0 1700_0 1600.0 1 500.0 1 400.0 1300.0 1200.0 1 100.0 1000.0 900.0 800.0 700.0 600.0 500.0 400.0 300.0 200.0 100.0 0.0 o a o.ooA 1.oo 2.0V.3.0% 4.0% 5.0% 6.0% 7.0% 8.00/6 9.0%1l.0o/o11.0%12.0o/o13.oo/o14.o'k15.0yo Strain ((Percent) Unconfined Compressive Strength (q.) : Natural Moisture: 25.1 % Natural Densitv(Drv): 100.4 pcf Average Diamete r' (D): 1 .9'10 inches Average High (L): 3.846 inches L/D Ritio: 2.01 684 psf @ 13.3% Strain Axial Strain Axial Stress (o/o {psf) 0.0%0.0 0.3%70.2 0.5to 80.0 0.8%104.7 1.OYo 114.4 1.3o/o 119.1 1.60/o 148.4 1.80/o 157.9 2-1"/o 177.2 2.3%404 A 2.60/o 200.7 2.90/o 224.6 3.1% 3.4%247.7 3.6%271.2 a oo/^285.0 4.2%2n2 E 4.4%"321.8 4.7%330 5 4.9%344.0 5.2o/o 357.3 5.5%375.4 5.7o/o 388.5 6.O%401.6 6.2%419.4 6.5%437.0 6.Bok 449.9 7.Ook 462.6 7.3Y"475.3 7.50/o 487.9 7.BTo 500.4 8.104 512.9 8.3%529.9 8.6%533.0 8.8%545.2 9.1To 552.8 9.4o/o 564.9 9.6%576.9 9.S%584.3 10.1%596.1 10/%607.9 10.7%61 5.1 10.9%ozz.J 11.2%624.5 11/%636.5 11 .7o/o 647.9 12.0To 654.8 12.2o/o ool./ 12.50k 66B.6 12.7o/o 671.0 13.00 673.3 13.3o/o 684.4 13.5%682.4 '13.8%676.0 I,rt Geotichnlqal . Geologlcal . Comtrrctlm Sader ClaV.Lab Denver oject No: rmpled by: rring No: sted by: aaa aa 1 l\rl^Skyrman B_8 STRESS-STRAIN CURVE oF coHESrvE sorl- (ASTM D 2166) Project Name: Freeup Storage, Silt Expansion Date Sampled:5t16t2022 Date Tested Depth (ft):4.5-5 Blow Counts: Checked by:M. Skyrman 5118122 MA ril Classification: Strain 0.0% 0.3% 0.5o/o 0.8% 1.0% 1.3% 1.5% 13% 2.1% 2.3% 2,6% 2.B% 3j% 3.3% 3.6% 3.9% 4.1% 4A% 4.6% 4.9% 5.1% 5.4% 5.6% 5.9% 6.204 A-4 0 /SC Stress-Strain Gurve 2000.0 1900.0 1800.0 1700.0 1600.0 1s00.0 1400.0 1300.0 1200.0 6 1100.0g g 1000.0 E6 9oo.o 800.0 700.0 600.0 500.0 400.0 300.0 200.0 100.0 0.0 0.0% 1.0% 2.0oh 3.0o 4.0% 5.0o/o 6.0ok 7.0oA 8.0% 9.0% 10.0%11.0%12.00 13.0%14.0%15.00/" Strain ((Percent) Unconfined Compressive Strength (q,) : o//o Natural Moisture: 16.4 To Natural Density(Dry): 106.8 Pcf Average Diameter (D): 1.921 inches Average High (L): 3.894 inches L/D Ritio: 2.03 787 psf @ 5.1% Strain Axial Stress (psf) 0.0 49.6 69.2 98.6 142.6 181 .5 229.9 283.0 335.8 393.'1 440.5 487.6 534.5 585.9 637.0 678.3 719.4 741.2 758.2 779.8 787.1 785.0 782.9 757.3 750.6 atf C - Lab DenverGeotechllaal . Geologlcal . a.\a al l IV^Skyrnnan B-9 STRESS,STRAIN CURVE oF coHESrvE soIL (ASTM D 2166) oject No: rmpled by: rring No: sted by: Project Name Date Sampled: Depth (ft): Freeup Storage , Silt Expansion 5t16t2022 Date Tested Blow Counts slt8122 9.5-10 MA Checked by:M. Skyrman ril Classification: Axial Stress (psf) 0.0 85.9 107.7 131 .9 151.1 170.1 193.9 217.6 241.2 274"2 302.3 330.3 362.8 404.7 432.2 450.0 496.1 527.8 568.7 595.3 631.2 657.5 688,3 709,6 726.3 752.0 768.4 770.9 773.4 785.0 782.5 7BO.B Strain o//o 0.0o/o 0.3o/o 0.5% 0.8% 1.0% 1.3% 15% 1.8% 2.0% 2.3% 2.5% 2.8% 3.0% 3.3% 3.5% 38% 4.OYo 43% 4.5% 4.8% 5.0% 5.3% 5.5% 5.Bo/o 6.0% 6.3% 6.5% 6.8% 7.0% 7.304 7.5o/o 7.8% Stress-Strain Curve 2000.0 1900.0 1B00.0 1700.0 '1600.0 '1500.0 1400.0 1300.0 1200.0 1100.0 1000.0 900.0 800.0 700.0 600.0 500.0 400.0 300.0 200.0 '100.0 0.0 ao- aao a 0.0% 1.o% 2.0% 3.0% 4.0% 5.0% 6.o0/o 7.00/o 8.0% 9.0%10.0%11.0%12.0%13.0%14.00/o15.00/o Strain ((Percent) .:.. Unconfined Compressive Strength (q") : 785 psf @ 7.3% Strain o//o Natural Moisture: Natural Density(Dry): Average Diameter (D): Average High (L): L/D Ritio: 26.5 89.1 1.930 3.986 2.07 o//o pcf inches inches ]ra C1 - Lab DenverGeot*chnloal . Geologlcal . 222-22t Ivl^Skyrma" B-l I STRESS-STRAIN CURVE oF coHESrvE sorl. (ASTM D 2166) oject No: rmpled by: rring No: sted by: Project Name: Date Sampled Depth (ft): Freeup Storag e, Silt Expansion 5t16t2022 Checked by: Date Tested: Blow Counts: M. Skyrman slt8122 MA ril Classification Axial Stress (psf) 0.0 BB.4 105.8 125.6 145.3 165.0 184.5 198.9 218.3 242.s 261.6 275.7 294.6 303.6 322.4 326.4 345.0 353.8 362.5 376.0 379.8 393.2 401.7 410.2 413.9 422.3 421.1 420.0 418.9 a Strain o//o 0.0% 0.3% 0.5% 0.8% 1.0% 1.3% 1.5% 1,8% 2.0% 2.3% 25% 2.8% 3.0% 3.3% 3.5% 3.8% 4.0% 4.3% 4.5% 4.8% 5.0% 5.3% 55% 5.8% 6.0% 6.3% 6.5% 6.8% 7 Stress-Strain Gurve 2000.0 1900.0 1800.0 1700.0 1600.0 1500.0 1400.0 1300.0 1200.0 6o- aa C) a '1 100 0 1 00 0.0 900.0 B00.0 700.0 600.0 500.0 400.0 300.0 200.0 100.0 0.0 o.O% 1.0% 2.0o/o 3.0To 4.0% 5.0% 6.0% 7.0% 8.0% 9.0% 10.0%11.0%12.0%13.O%14.0ok150% Strain ((Percent) Unconfined Compressive Strength (q") : o/o Natural Moisture: 24.2 % Natural Density(Dry): 92.4 Pcf Average Diameter (D): '1.903 inches Average High (L): 3.976 inches L/D Ritio: 2.09 422 psf @ 63% Strain