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Home My WebLink AboutEX_06_RS_Geotech_Report_230303_v1Geotechnical & Earthquake Engineering Consultants GEOTECHNICAL REPORT SOUTH SIDE TRAIL AND PEDESTRINE BRIDGE DEVELOPMENT MAY CREEK TRAIL PARK Renton, Washington PROJECT NO. 22-399 March 3, 2023 Prepared for: City of Renton EXHIBIT 6 Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 March 3, 2023 Project No. 22-399 22-399 May Creek Trail Geotechnical Report i PanGEO, Inc. TABLE OF CONTENTS PROJECT DESCRIPTION ......................................................................................................... 1 SITE DESCRIPTION ................................................................................................................... 1 GEOLOGY .................................................................................................................................... 2 FIELD EXPLORATIONS ........................................................................................................... 2 LABORATORY TESTING ......................................................................................................... 2 SUBSURFACE CONDITIONS ................................................................................................... 2 SOILS ........................................................................................................................................... 2 GROUND WATER.......................................................................................................................... 4 CONCLUSIONS AND RECOMMENDATIONS ...................................................................... 4 EARTHQUAKE FAULTING ............................................................................................................. 4 SEISMIC DESIGN PARAMETERS .................................................................................................... 4 LIQUEFACTION POTENTIAL .......................................................................................................... 4 FOUNDATION RECOMMENDATIONS .............................................................................................. 5 Bridge Support ........................................................................................................................ 5 Walkway Support .................................................................................................................... 5 TRAIL CUTS AND FILLS ................................................................................................................ 6 MODULAR BLOCK & GABION WALLS .......................................................................................... 7 LIMITATIONS AND UNIFORMITY OF CONDITIONS ...................................................... 8 CLOSURE ..................................................................................................................................... 9 REFERENCES ............................................................................................................................ 10 Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 March 3, 2023 Project No. 22-399 22-399 May Creek Trail Geotechnical Report ii PanGEO, Inc. LIST OF FIGURES (follows text) Figure 1 Vicinity Map Figure 2 Site and Exploration Plan Figure 3 Generalized Subsurface Profile, Section A-A’ APPENDIX A: FIELD EXPLORATION BORING LOGS APPENDIX B: LABORATORY TEST RESULTS Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 1 GEOTECHNICAL REPORT MAY CREEK TRAIL AND PEDESTRINE BRIDAGE RENTON, WASHINGTON PROJECT DESCRIPTION The City of Renton plans to construct a new trail along May Creek west of I-405, which will include a pedestrian bridge crossing May Creek (see Figures 1 & 2). Currently there is a soft surface trail along the north bank of May Creek, which extends to the I-405 corridor and the south bank area is undeveloped. The proposed construction will include a pedestrian bridge crossing May Creek, some elevated boardwalks in wetland areas, and new trails above the south bank of May Creek. Long term plans include the extension of the north bank trail beneath I-405 to link up with already constructed trails on the east side of the corridor. SITE DESCRIPTION The site is located in the northernmost extension of the City of Renton where May Creek flows westward to Lake Washington. The ground surface along the north or right bank of the river at the proposed pedestrian bridge is relatively level at an elevation of approximately 36 feet and the area is well wooded with fir and deciduous trees and undergrowth (see Plate 1). Much of the north bank is within the mapped 100-year flood plain of May Creek. The south or left bank ascends moderately to steeply to the southwest at a grade of about 40% ( see Plate 1). The left bank is being actively undercut by the creek. The left bank is vegetated with blackberry thickets. Plate 1 – Right bank abutment in foreground and left bank abutment in excavated area in background Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 2 GEOLOGY The Washington State Geologic Information Portal suggests that the May Creek Trail Park is underlain by alluvium. FIELD EXPLORATIONS Subsurface conditions at the bridge site were explored with two borings (PG-1 and PG-2) that were drilled at the locations shown on Figure 2 using a track mounted hollow stem auger drill rig owned and operated by Geologic Drill Partners of Bellevue, Washington. The drill was equipped with 6-inch outside diameter hollow stem augers. Soil samples were obtained at 2½- foot depth intervals in the top 10 feet, and at 5-foot intervals thereafter. The sampling was conducted in general accordance with Standard Penetration Test (SPT) sampling methods (ASTM test method D-1586) in which the samples were obtained using a 2-inch outside diameter split-spoon sampler. The sampler was driven 18” into the soil using a 140-pound weight freely falling 30 inches. The number of blows required for each 6-inch increment of sampler penetration was recorded. The number of blows required to achieve the last 12 inches of sample penetration is defined as the SPT N-value. The N-value provides an empirical measure of the relative density of cohesionless soil, or the relative consistency of fine-grained soils. An engineering geologist from PanGEO was on site to coordinate field activities, monitor the auger advancement, and log the materials retrieved from the sampler. Logs of the borings are presented in Appendix A, and the underlying subsurface conditions are summarized below. LABORATORY TESTING To determine the index properties of the soils, selected samples were submitted for grain size analyses and Atterberg limit testing. The results of the tests were incorporated into the summary logs and detailed test results are presented in Appendix B. SUBSURFACE CONDITIONS SOILS The soils encountered in PG-1 on the right bank, consisted of beds of alluvium overlying glacial outwash material, with glaciolacustrine material at depth. The alluvium extends to a depth of roughly 14 feet below the ground surface. Boring PG-2 on the left bank also encountered about 10 Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 3 feet of colluvium overlying glacial outwash and glaciolacustrine beds. The subsurface conditions at the bridge site are illustrated in Figure 3. The soil units encountered are more fully described below. Overbank Alluvium: Test boring PG-1 encountered 2 feet of loose, brown, non-plastic SILT with fine sand. The soil unit was interpreted as overbank alluvium or a flood deposit. Alluvium (Upper Bed): Underlying the overbank alluvium in PG-1 was a 3.7-foot bed of loose, brown GRAVEL with sand and silt, which we interpreted as alluvium from May Creek. Peat: Peat was encountered between depths of 5.7 and 8.3 feet in boring PG-1. Alluvium (Lower Beds): below the peat in PG-1 was a 6-foot thick sequence of loose, green gray, interbedded SILT and silty SAND. The bed was laminated, and the fines were non-plastic to slightly plastic. Based on the low N-value of 8, this bed was also interpreted as recent alluvium. Colluvium: In boring PG-2, the uppermost soil unit was loose, mixed brown and gray SILT with fine sand. This soil was non-plastic, with rusty bands and a trace of organics, approximately 4.5 feet thick, and was interpreted as colluvium. Below the uppermost soil bed in PG-2 was a 5-foot bed of medium dense, brown, silty, fine sand. The soil was non-plastic, with rapid dilatancy and occasional silt interbeds. This unit also was interpreted as colluvium, based on relatively low N-values and its location at the base of a steep slope. Glacial Outwash Gravels: Both borings penetrated a unit of medium dense to very dense, silty, fine to medium SAND to fine to coarse SAND. Laboratory testing indicated that this unit was classified as SW in PG-1 and SM in PG-2. It was encountered at a depth of 14 feet in PG-1 and 9.5 feet in PG-2. Based on the N-values and composition, this soil was interpreted as Glacial Outwash. It was about 8 feet thick in both borings. Glaciolacustrine Drift: The deepest soil unit found consisted of hard or very dense, gray to green, gray, clayey SILT. Laboratory testing classified the soil as ML. Field examination indicated that the soil was slightly plastic to low plastic, massive, with occasional drop stones or sandy interbeds. This soil was interpreted as glaciolacustrine drift and was found at depths of 22 feet and 18 feet below surface in PG-1 and PG-2, respectively. Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 4 GROUND WATER Groundwater was encountered at a depth of 2 feet in both borings. We anticipate that groundwater levels will be controlled by the surface elevation of the creek and that water levels at the abutments will be at or slightly above the creek level. Groundwater levels are expected to fluctuate with seasonal flow changes in the creek. CONCLUSIONS AND RECOMMENDATIONS EARTHQUAKE FAULTING The location of the bridge lies south of the Seattle Fault Zone which extends easterly, just north of Mercer Island. The inferred southernmost strand of the Seattle Fault is located about a mile north of the bridge location. In our opinion, fault rupture at the site is unlikely in a future earthquake. SEISMIC DESIGN PARAMETERS In accordance with AASHTO (2019), the WSDOT Seismic Design Manual (WSDOT 2019), and ASCE 7-16, the following provides ground acceleration design parameters (% g) corresponding to an event having a 7 percent probability of exceedance in 1,000 years for the site which is underlain by Site Class D soils. As SDS (0.2 Sec) SD1 (1 Sec) 0.41 g 0.96 g 0.27 g B/C Boundary 0.47 g 1.03 g 0.47 g Site Class D LIQUEFACTION POTENTIAL The upper 10 to 15 feet of soil encountered in the borings are susceptible to liquefaction in the design earthquake as based on simplified screening contained in section 6.4.2 of the Geotechnical Design Manual (WSDOT, 2020). Consequently, the pedestrian bridge will require pile support and the seismic design of the bridge will need to consider reduced lateral support as a result of liquefaction. Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 5 The potential for liquefaction-induced lateral spreading is low because of the site’s relatively level topography. FOUNDATION RECOMMENDATIONS Bridge Support Considering the generally light loads on the pedestrian bridge and the desire to minimize ground disturbance during construction, we recommend supporting the bridge on 8-inch diameter single helical anchors drilled to a depth of about 43 feet and to a minimum torque of 3,000 ft.-lbs. as based on our design using software from MacLean Civil Products, who is the manufacturer of helical anchors. The anchor design is also based on the use of D6 1.5” diameter bars above the lead helical section. The helical anchors described above would have an ultimate bearing and tension capacity of 30 Kips. The mechanical capacity of D6 shafts and couplers is twice the ultimate design capacity of the anchor and the buckling capacity of the shaft is greater than the ultimate compression capacity of the anchors. At least one helical anchor at each abutment should be load tested in tension to confirm anchor capacity. Walkway Support We understand that the project will also include wood platform walkways over ecologically sensitive areas. We suggest that these walkways be supported on Diamond Piers™ (www.diamondpiers.com) or small 2 or 3 inch diameter pin piles. Recommendations for these foundations are provided below. Diamond Piers Diamond Piers have been used to provide vertical support to boardwalks constructed over environmentally sensitive terrain. The system consists of individual precast concrete elements which are cast with sleeves that allow steel rods to be driven through the concrete elements and into the underlying soil. Because of the geometry of the sleeves, the element is able to provide both vertical and lateral support to the elevated boardwalk with typical vertical and lateral load capacities of 600 pounds. Pin Pines Alternatively, the walkway may be supported on 2 or 3 inch diameter pin piles driven to refusal in the glaciolacustrine beds underlying the site at depths of about 15 to 20 feet. Two inch Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 6 diameter piles Schedule-80, ASTM A-53 Grade “A” pipe driven to refusal at depths of about 20 to 30 feet may support an allowable load of 3 tons and 3-inch diameter Schedule-40, ASTM A- 53 Grade “A” pipe piles driven to refusal may be capable of supporting an allowable load of 10 tons. Refusal for 2” diameter piles is defined as less than 1-inch of penetration under continuous driving with a 90-lb jackhammer. Refusal for 3” diameter piles is defined as the following: Hammer Size Blow per Minute Refusal Criteria (3-inch pile) 600 lbs. 1000 12 seconds per inch 850 lbs. 900 10 seconds per inch 1100 lbs. 900 6 seconds per inch At least 3% (but no more than 5) of the 3-inch pin piles should be load tested. All load tests shall be performed in accordance with the procedure outlined in ASTM D1143. The maximum test load shall be 2 times the design load. The objective of the testing program is to verify the adequacy of the driving criteria, and the efficiency of the hammer used for the project. Lateral capacity of vertical pin piles should be ignored in design calculations. Some resistance to lateral loads may be accomplished by battering the piles to a slope of no more than 1(H):4(V). Lateral forces from wind or seismic loading may be resisted with pile caps where passive soil resistance may be determined using an equivalent fluid weight of 300 pounds per cubic foot (pcf). This value includes a factor of safety of at least 1.5 assuming placement of a compacted structural fill adjacent to the sides of the pile caps. For seismic loading, passive pressures may be increased by one third. TRAIL CUTS AND FILLS Where possible, we recommend using 2(H):1(V) cut and fill slopes for new trails to minimize slope instability and surface erosion. Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 7 MODULAR BLOCK & GABION WALLS At locations where trails traverse steep slopes, we recommend locating the trail on a full bench cut and installing modular blocks or gabion baskets to retain the uphill cuts. Gabions should be constructed in accordance with WSDOT Standard Plan Sheet D-6, and Section 8-24.3(3) Gabion Cribbing of the 2022 WSDOT Standard Specifications. Each gabion basket should be placed horizontally and with a minimum of 6 inches of setback from the basket below, hence creating an average wall face inclination of no steeper than 1H:6V. Dimensions of gabion baskets may vary depending on the supplier. Minimum Width – In general, as a minimum, all gabion baskets should have a minimum width equal to the greater of 2½ feet or one-third the wall height. Minimum Embedment - Walls should have a minimum of one foot of embedment. All walls should be founded on competent native soils or on properly compacted fill. Foundation Preparation – We recommend over excavating the footings at least 6-inches and backfilling with Crushed Surfacing Top or Base Course (CSTC/CSBC) (WSDOT 9- 03.9(3)), or an approved equivalent. We also recommend placing a geotextile fabric at the bottom of the over-excavation before placing structural fill. The geotextile fabric for separation may be selected based on Table 3, Section 9-33.2(1) of the WSDOT Standard Specifications. Design Parameters for Gravity Walls Soil Properties Wall Backfill1 Retained Soil2 Foundation Soil Unit Weight (pcf) 130 130 115 Friction Angle (deg) 36 36 30 Cohesion (psf) 0 0 0 For the Service Limit State, the wall shall be designed to accommodate a maximum differential settlement of 4 inches per 100 feet of wall length. For the Extreme Event I Limit State, the wall shall be designed for a horizontal seismic acceleration coefficient kh of 0.192g and a vertical seismic acceleration coefficient kv of 0.0g. Notes: 1 – Wall backfill should be Gravel Borrow or Gravel Backfill for Walls (WSDOT, 2022). 2 – Retained material should conform to the requirements for Select or Gravel Borrow (WSDOT, 2022) Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 8 Resistance Factors for Spread Footing Design Limit State Bearing Shear Resistance to Sliding Passive Pressure Resistance to Sliding Strength 0.45 0.8 0.5 Service 1.0 1.0 1.0 Extreme 0.9 0.9 0.9 The recommended lateral pressure assumes that adequate wall drainage provisions will be incorporated into the design and construction of the walls, and that properly compacted free- draining structural fill will be used for wall backfill. On-site soils should not be used as wall backfill because of its poor drainage characteristics. LIMITATIONS AND UNIFORMITY OF CONDITIONS PanGEO, Inc. (PanGEO) prepared this report for WSP America and the City of Renton. The recommendations contained in this report are based on a site reconnaissance, a subsurface exploration program, review of pertinent subsurface information, and our understanding of the project. Variations in soil conditions may exist between the locations of the explorations and the actual conditions underlying the site. The nature and extent of soil variations may not be evident until construction occurs. If any soil conditions are encountered at the site that are different from those described in this report, PanGEO should be immediately notified to review the applicability of the recommendations presented herein. Additionally, PanGEO should also be notified to review the applicability of these recommendations if there are any changes in the project scope. This report has been prepared for planning and design purposes for specific application to the proposed project in accordance with the generally accepted standards of local practice at the time this report was written. No warranty, express or implied, is made. This report may be used only by the client and for the purposes stated, within a reasonable time from its issuance. Land use, site conditions (both off and on-site), or other factors including advances in our understanding of applied science, may change over time and could materially affect our findings. Therefore, this report should not be relied upon after 36 months from its issuance. PanGEO should be notified if the project is delayed by more than 36 months from Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 9 the date of this report so that the applicability of the conclusions and recommendations presented herein may be evaluated considering the time lapse. Within the limitations of scope, schedule and budget, PanGEO engages in the practice of geotechnical engineering and endeavors to perform its services in accordance with generally accepted professional principles and practices at the time this report and/or its contents was prepared. No warranty, express or implied, is made. The scope of PanGEO’s work did not include environmental assessments or evaluations regarding the presence or absence of wetlands or hazardous or toxic substances in the soil, surface water or ground water at this site. PanGEO does not practice or consult in the field of safety engineering. PanGEO does not direct the contractor’s operations, and cannot be held responsible for the safety of personnel other than our own on the site; the safety of others is the responsibility of the contractor. It is the client’s responsibility to see that all parties to this project, including the designer, contractor, subcontractors, etc., are made aware of this report in its entirety. The use of information contained in this report for bidding purposes shall be at the contractor’s sole option and risk. Any party other than the client who wishes to use this report shall notify PanGEO of such intended use and for permission to copy this report. Based on the intended use of the report, PanGEO may require that additional work be performed and that an updated report be reissued. Noncompliance with any of these requirements will release PanGEO from any liability resulting from the use this report. CLOSURE PanGEO is pleased to support WSP America and the City of Renton Parks Department with geotechnical engineering recommendations. Please call with any questions. Stephen H. Evans, L.E.G. W. Paul Grant, P.E. Senior Engineering Geologist Principal Geotechnical Engineer Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 May Creek Trail Renton, Washington March 3, 2023 22-399 May Creek Trail Geotechnical Report PanGEO, Inc. 10 REFERENCES AASHTO, 2019. LRFD Bridge Design Specifications, 7th edition, American Association of State Highway and Transportation Officials. Washington, D.C. WSDOT, 2022. Geotechnical Design Manual (GDM), M 46-03, Washington State Department of Transportation WSDOT, 2012. Standard Specifications for Road, Bridge and Municipal Construction, M 41-10, Washington State Department of Transportation Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 Project No.Figure No. 22-399 Fig 1.ppt 1/26/2023(12:14 PM) SHE 22-399 1 VICINITY MAP May Creek Trail Improvements 4260 Lake Washington Blvd North Renton, Washington Base Map from the Washington State Geological Information Portal Not to Scale Project Site N Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 Project No.Figure No. 22-399 Fig 1.ppt 1/26/2023(12:14 PM) SHE 22-399 1 VICINITY MAP May Creek Trail Improvements 4260 Lake Washington Blvd North Renton, Washington Base Map from WSP Survey Vertical datum NAVD 88 Scale 1”:30’ Legend: PanGEO Boring PG-2 PG-1 N 2 2 Bridge Location Plan Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 0 10 20 30 40 50 60 70 80 90 100 110 120 Distance (ft.) -20 -10 0 10 20 30 40 50 El e v a t i o n ( i n f e e t ) -20 -10 0 10 20 30 40 50 El e v a t i o n ( i n f e e t ) 6 10 17 31 63 50/5 7 4 6 8 19 50/6 62 A A' May Creek Trail Improvements N 41st Street and Lake Washington Blvd N Renton, Washington 22-399 322 - 3 9 9 P r o f i l e A . g r f w / 2 2 - 3 9 9 L o g s & P r o f i l e s . x l s 1 / 2 7 / 2 3 ( 1 : 3 6 : 2 7 ) S H E Graphics Legend: BH-1 48 21 50/5 88 31 42 31 50/3 SPT N-valueGroundwater Level Soil Unit Boundries Groundwater Seep Topographic Surface SOUTH NORTH ? ? PG-2 PG-1 MD to VD, silty f. to m. SAND Loose SILT w/ f. sandl MD silty f. SAND Loose interb'd SILT and silty SAND MD to VD, f. - c. SAND GENERALIZED SUBSURFACE PROFILE PROPOSED BRIDGE SITE SECTION A - A' May Creek Soft PEAT Loose SILT w/ sand Loose GRAVELw/ silt & SAND Hard, clayey SILT ? ? ? ?? ? ? ? ? ? ? ?? ? Glaciolacustrine Beds Glacial Outwash Colluvium Alluvial Deposits Hard, clayey SILT Approximate Location of Proposed Bridge Abutment Approximate Location of Proposed Bridge Abutment Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 APPENDIX A: FIELD EXPLORATIONS Appendix A contains written and graphical borehole logs presenting the factual and interpretive results of our exploratory drilling program. The descriptions of the materials encountered in the subsurface explorations are based on the soil and rock samples extracted from the borings. The sample descriptions are augmented by observation of the drilling action and drill cuttings brought to the surface during field operations. The paragraphs below describe the field operations and sampling procedures used during the geotechnical field explorations. FIELD EXPLORATIONS The subsurface exploration program consisted of drilling two test borings at bridge site, one on each bank. The drilling was conducted between October 20, 2023. Borings PG-1 and PG-2 were advanced to depths of 24.5 and 21 feet, respectively, where drilling refusal was met. The approximate boring locations are shown on Figure 2. A representative of PanGEO logged the test borings. Soil samples were collected from selected intervals in each boring. The right bank borings were drilled with a Bobcat truck mounted drill rig provided by Geologic Drill Partners. Both borings were drilled with hollow stem augers. SAMPLING METHODS Standard penetration tests were taken in both borings at 2.5-foot intervals to 10 feet, and 5-foot intervals thereafter. Final sample in PG-2 was taken 23 feet, as practical drilling refusal had been met The number of blows to drive the sampler each 6 inches over an 18-inch interval was recorded and indicated on the boring logs. The number of blows to drive the sampler the final 12 inches is termed the SPT resistance, or N-value, and is used to evaluate the strength and consistency/relative density of the soil. The hammer used to perform SPT sampling was rope and cathead mechanism. The efficiency of the hammer mechanism is considered when evaluating the liquefaction potential of a soil. The SPT N-values reported on the borehole logs are field values, and are therefore not corrected for hammer efficiency, overburden stress or rod lengths. An engineering geologist from PanGEO was present throughout the field exploration program to observe the borings, assist in sampling, and to prepare descriptive logs of the explorations. Soils Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 Proposed May Creek South Side Trail and Bridge Renton, Washington March 2, 2023 22-399 May Creek Trail Geotechnical Report A - 1 PanGEO, Inc were classified in general accordance with the guidelines shown on Figure A-1. Summary boring logs are included as Figures A-2 and A-3. The stratigraphic contacts shown on the summary logs represent the approximate boundaries between soil types; actual stratigraphic contacts encountered at other locations in the field may differ from the contact elevations shown on the logs may be gradual rather than abrupt. The soil and groundwater conditions depicted are only for the specific date and locations reported, and therefore, are not necessarily representative of other locations and times. Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 MOISTURE CONTENT 2-inch OD Split Spoon, SPT (140-lb. hammer, 30" drop) 3.25-inch OD Spilt Spoon (300-lb hammer, 30" drop) Non-standard penetration test (see boring log for details) Thin wall (Shelby) tube Grab Rock core Vane Shear Dusty, dry to the touch Damp but no visible water Visible free water Terms and Symbols for Boring and Test Pit Logs Density SILT / CLAY GRAVEL (<5% fines) GRAVEL (>12% fines) SAND (<5% fines) SAND (>12% fines) Liquid Limit < 50 Liquid Limit > 50 Breaks along defined planes Fracture planes that are polished or glossy Angular soil lumps that resist breakdown Soil that is broken and mixed Less than one per foot More than one per foot Angle between bedding plane and a planenormaltocoreaxis Very Loose Loose Med. Dense Dense Very Dense SPT N-values Approx. Undrained Shear Strength (psf) <4 4 to 10 10 to 30 30 to 50 >50 <2 2 to 4 4 to 8 8 to 15 15 to 30 >30 SPT N-values Units of material distinguished by color and/orcomposition frommaterial unitsabove andbelow Layers of soil typically 0.05 to 1mm thick, max. 1 cm Layer of soil that pinches out laterally Alternating layers of differing soil material Erratic, discontinuous deposit of limited extent Soil with uniform color and composition throughout Approx. Relative Density (%) Gravel Layered: Laminated: Lens: Interlayered: Pocket: Homogeneous: Highly Organic Soils #4 to #10 sieve (4.5 to 2.0 mm) #10 to #40 sieve (2.0 to 0.42 mm) #40 to #200 sieve (0.42 to 0.074 mm) 0.074 to 0.002 mm <0.002 mm UNIFIED SOIL CLASSIFICATION SYSTEM MAJOR DIVISIONS GROUP DESCRIPTIONS Notes: MONITORING WELL <15 15 - 35 35 - 65 65 - 85 85 - 100 GW GP GM GC SW SP SM SC ML CL OL MH CH OH PT TEST SYMBOLS 50%or more passing #200 sieve Groundwater Level at time of drilling (ATD)Static Groundwater Level Cement / Concrete Seal Bentonite grout / seal Silica sand backfill Slotted tip Slough <250 250 - 500 500 - 1000 1000 - 2000 2000 - 4000 >4000 RELATIVE DENSITY / CONSISTENCY Fissured: Slickensided: Blocky: Disrupted: Scattered: Numerous: BCN: COMPONENT DEFINITIONS Dry Moist Wet 1. Soil exploration logs contain material descriptions based on visual observation and field tests using a systemmodified from the Uniform Soil Classification System (USCS). Where necessary laboratory tests have beenconducted (as noted in the "Other Tests" column), unit descriptions may include a classification. Please refer to thediscussions in the report text for a more complete description of the subsurface conditions. 2. The graphic symbols given above are not inclusive of all symbols that may appear on the borehole logs.Other symbols may be used where field observations indicated mixed soil constituents or dual constituent materials. COMPONENT SIZE / SIEVE RANGE COMPONENT SIZE / SIEVE RANGE SYMBOLS Sample/In Situ test types and intervals Silt and Clay Consistency SAND / GRAVEL Very Soft Soft Med. Stiff Stiff Very Stiff Hard Phone: 206.262.0370 Bottom of BoringBoulder: Cobbles: Gravel Coarse Gravel: Fine Gravel: Sand Coarse Sand: Medium Sand: Fine Sand: Silt Clay > 12 inches 3 to 12 inches 3 to 3/4 inches 3/4 inches to #4 sieve Atterberg Limit Test Compaction Tests Consolidation Dry Density Direct Shear Fines Content Grain Size Permeability Pocket Penetrometer R-value Specific Gravity Torvane Triaxial Compression Unconfined Compression Sand 50% or more of the coarsefraction passing the #4 sieve.Use dual symbols (eg. SP-SM)for 5% to 12% fines. for In Situ and Laboratory Testslisted in "Other Tests" column. 50% or more of the coarsefraction retained on the #4sieve. Use dual symbols (eg.GP-GM) for 5% to 12% fines. DESCRIPTIONS OF SOIL STRUCTURES Well-graded GRAVEL Poorly-graded GRAVEL Silty GRAVEL Clayey GRAVEL Well-graded SAND Poorly-graded SAND Silty SAND Clayey SAND SILT Lean CLAY Organic SILT or CLAY Elastic SILT Fat CLAY Organic SILT or CLAY PEAT ATT Comp Con DD DS %F GS Perm PP R SG TV TXC UCC Figure A-1 Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 GS Loose, brown SILT with fine sand: slightly moist, non-plastic.(Overbank Alluvium). Loose, brown GRAVEL with silt and sand: wet. (Alluvium). Soft, dark brown, fibrous PEAT: wet. (Peat). Loose, green gray, interbedded SILT and silty SAND: very moist, laminated, slightly plastic and non-plastic. (Alluvium). Medium dense to very dense, gray, fine to coarse SAND (SW): wet,trace silt and fine gravel, homogeneous, well graded, massive to indistinctly laminated. (Glacial Outwash). Hard, green gray, clayey SILT (ML): moist, low plastic, homogeneous,massive, occasional drop stones. (Glaciolacustrine Drift). Bottom of Boring. S-1 S-2 S-3 S-4 S-5 S-6 S-7 4 3 4 4 3 1 3 3 3 3 4 4 7 9 10 50/6 32 22 40 Remarks: 0.0 2.5 5.0 7.5 10.0 12.5 15.0 17.5 20.0 22.5 25.0 The stratification lines represent approximate boundaries. The transition may be gradual. MATERIAL DESCRIPTION Figure A-2 Ot h e r T e s t s Sa m p l e N o . Completion Depth: Date Borehole Started: Date Borehole Completed: Logged By: Drilling Company: De p t h , ( f t ) May Creek Trail Improvements 22-399 N41st Street and Lake Washington Blvd. N, Renton, WA Northing: , Easting: 24.5ft 10/20/22 10/20/22 S. Evans Geologic Drill Partners Sheet 1 of 1 Project: Job Number: Location: Coordinates: Sy m b o l Sa m p l e T y p e Bl o w s / 6 i n . HSA SPT Surface Elevation: Top of Casing Elev.: Drilling Method: Sampling Method: LOG OF TEST BORING PG-1 N-Value 0 Moisture LL 50 PL RQD Recovery 100 >> Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 GS GS Loose, brown and gray SILT with fine sand: wet, non-plastic,homogeneous, rusty bands, trace organics. (Colluvium). Medium dense, brown, silty, fine SAND (SM): wet, non-plastic, rapiddilatancy, one silt interbed with rusty band at lower contact, homogenous. (Colluvium). Dense to very dense, brown, silty, fine to medium SAND (SM): wet,non-plastic, homogeneous, laminated, occasional gravel, one silt rip-up clast. (Glacial Outwash). Brown gray, occasional rusty bands, one light brown clayey siltinterbed. Hard, gray, clayey SILT: moist, low plastic, homogeneous, massive,occasional sand interbeds. (Glaciolacustrine Drift). Bottom of Boring. S-1 S-2 S-3 S-4 S-5 S-6 3 3 3 3 5 5 7 8 9 9 13 19 13 23 40 20 50/5 Remarks: 0.0 2.5 5.0 7.5 10.0 12.5 15.0 17.5 20.0 22.5 25.0 The stratification lines represent approximate boundaries. The transition may be gradual. MATERIAL DESCRIPTION Figure A-3 Ot h e r T e s t s Sa m p l e N o . Completion Depth: Date Borehole Started: Date Borehole Completed: Logged By: Drilling Company: De p t h , ( f t ) May Creek Trail Improvements 22-399 N41st Street and Lake Washington Blvd. N, Renton, WA Northing: , Easting: 20.9ft 10/20/22 10/20/22 S. Evans Geologic Drill Partners Sheet 1 of 1 Project: Job Number: Location: Coordinates: Sy m b o l Sa m p l e T y p e Bl o w s / 6 i n . HSA SPT Surface Elevation: Top of Casing Elev.: Drilling Method: Sampling Method: LOG OF TEST BORING PG-2 N-Value 0 Moisture LL 50 PL RQD Recovery 100 >> Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 22-399 May Creek Trail Geotechnical Report A - 1 PanGEO, Inc. APPENDIX B: LABRATORY TESTING Appendix B contains the results of laboratory testing conducted on selected samples for classification purposes, according to Unified Soil Classification system. Tests done included natural moisture, grainsize and Atterberg tests. Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047 0 10 20 30 40 50 60 0 20 40 60 80 100 CL MH CH Specimen Identification PG-1 MLCL-ML PLA STI CIT Y IND EX Classification 104131 M LL 24.0 25 ATTERBERG LIMITS FinesPIPL LIQUID LIMIT Figure B-2 Project: May Creek Trail Improvements Job Number: 22-399 Location: N41st St. and Lk. Wash. Blvd. N, Renton, WAPhone: 206.262.0370 AT T E R B E R G L I M I T S 2 2 - 3 9 9 L O G S . G P J P A N G E O . G D T 2 / 6 / 2 3 Docusign Envelope ID: 3947FE7A-D463-41BB-933E-23F73F139047