HomeMy WebLinkAboutR-422904A PORTION OF THE NW 1/4 OF SECTION 19, TOWNSHIP 23 NORTH, RANGE 5 EAST, W.M., KING COUNTY, WASHINGTON
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GEOTECHNICAL ENGINEERING NOTES
THE FOLLOWING IS EXCERPTED FROM SECTION 4.0 OF THE GEOTECHNICAL ENGINEERING REPORT
PREPARED BY MIGIZI GROUP, PROJECT PP2411-T21, DATED 7/8/21
4.0 CONCLUSIONS AND RECOMMENDATIONS
IMPROVEMENT PLANS INVOLVE THE CONSTRUCTION OF A NEW 4,560-SF SERVICE BAT EXPANSION
TOWARDS THE SOUTHWEST CORNER OF THE EXISTING GMC MASONRY BUILDING, THE
CLEARING/STRIPPING/GRADING OF PROPERTIES IMMEDIATELY EAST OF THE BROTHERTON GMC
FACILITY, AND THE CONSTRUCTION OF A NEW BROTHERTON CADILLAC COMPLEX, WHICH WILL
LARGELY BE OCCUPIED BY A NEW 14,330-SF CADILLAC SHOWROOM/SALES BUILDING, AND
ASPHALT PAVEMENTS. SITE PRODUCED STORMWATER WILL BE RETAINED ONSITE IF FEASIBLE. WE
OFFER THESE RECOMMENDATIONS:
• FEASIBILITY: BASED ON OUR FIELD EXPLORATIONS, RESEARCH, AND EVALUATIONS, THE
PROPOSED STRUCTURES AND PAVEMENTS APPEAR FEASIBLE FROM A GEOTECHNICAL
STANDPOINT.
• FOUNDATION OPTIONS: OVER -EXCAVATION OF SPREAD FOOTING SUBGRADES, TO A DEPTH
OF 3 TO 4 FEET, AND THE CONSTRUCTION OF STRUCTURAL FILL BEARING PADS, WILL BE
NECESSARY FOR FOUNDATION SUPPORT OF NEW STRUCTURES. IF FOUNDATION CONSTRUCTION
OCCURS DURING WET CONDITIONS, IT IS LIKELY THAT A A GEOTEXTILE FABRIC, PLACED
BETWEEN BEARING PADS AND NATIVE SOILS, WILL ALSO BE NECESSARY.
• FLOOR OPTIONS: WE RECOMMEND OVER -EXCAVATION OF SLAB -ON -GRADE FLOOR
SUBGRADES TO A MINIMUM DEPTH OF 1Y2 FEET, THEN PLACEMENT OF PROPERLY COMPACTED
STRUCTURAL FILL AS A FLOOR SUBBASE. IF FLOOR CONSTRUCTION OCCURS DURING WET
CONDITIONS, IT IS LIKELY THAT A GEOTEXTILE FABRIC, PLACED BETWEEN THE STRUCTURAL
FILL FLOOR SUBBASE AND NATIVE SOILS, WILL BE NECESSARY. RECOMMENDATION FOR
SLAB -ON -GRADE FLOORS ARE INCLUDED IN SECTION 4.3 FILL UNDERLYING FLOOR SLABS
SHOULD BE COMPACTED TO 95 PERCENT (ASTM:D-1557)
• PAVEMENT SECTIONS: WE RECOMMEND OVER -EXCAVATION OF PAVEMENT SUBRADES TO A
MINIMUM DEPTH OF 12 INCHES, THEN PLACEMENT OF PROPERLY COMPACTED STRUCTURAL
FILL AS PAVEMENT SUBBASE. WE RECOMMEND A CONVENTIONAL PAVEMENT SECTION
COMPRISED OF AN ASPHALT CONCRETE PAVEMENT OVER A CRUSHED ROCK BASE COURSE
OVER A PROPERLY PREPARED (COMPACTED) SUBGRADE OR A GRANULAR SUBBASE.
ALL SOIL SUBGRADES SHOULD BE THOROUGHLY COMPACTED, THEN PROOF -ROLLED WITH A
LOADED DUMP TRUCK OR HEAVY COMPACTOR. ANY LOCALIZED ZONES OF YIELDING
SUBGRADE DISCLOSED DURING THIS PROOF -ROLLING OPERATION SHOULD BE OVER
EXCAVATED TO A DEPTH OF 2 FEET AND REPLACED WITH A SUITABLE STRUCTURAL FILL
MATERIAL.
• INFILTRATION CONDITIONS: AS INDICATES IN THE SOIL CONDITIONS SECTION OF THE REPORT,
THE SITE IS UNDERLAIN BY ALLUVIAL SOILS, WHICH CAN BE READILY SUBDIVIDED INTO FOUR
SOIL HORIZONS: UPPER FINE-GRAINED, INTERMEDIATE GRAVEL, INTERMEDIATE FINE-GRAINED,
AND DEEP GRAVELS. GIVEN THE FACT THAT GROUNDWATER LEVELS RISE HIGHER THAN 8Y2
FEET BELOW EXISTING GRADE, THE UPPER FINE-GRAINED SOIL HORIZON IS THE ONLY
HORIZON WHICH COULD POTENTIALLY SUPPORT INFILTRATION. THIS MATERIAL RANGES IN
COMPOSITIONS FROM SILTY SAND TO SILT, THE LATTER OF WHICH SHOULD BE CONSIDERED
RELATIVELY IMPERMEABLE. GIVEN THE HYDROGEOLOGIC SETTING OF THE PROJECT AREA, WE
DO NOT INTERPRET INFILTRATION AS BEING FEASIBLE FOR THIS PROJECT, AND SITE
PRODUCED STORMWATER SHOULD BE MANAGED THROUGH DETENTION, OR DIVERTED TO AN
EXISTING [STRUCTURE] ALONG SW 12TH ST.
THE FOLLOWING SECTIONS OF THIS REPORT PRESENT OUR SPECIFIC GEOTECHNICAL CONCLUSIONS
AND RECOMMENDATIONS CONCERNING SITE PREPARATION, SPREAD FOOTINGS, SLAB -ON -GRADE
FLOORS, SUBGRADE AND RETAINING WALLS, ASPHALT PAVEMENT, AND STRUCTURAL FILL. THE
WASHINGTON STATE DEPARTMENT OF TRANSPORTATION (WSDOT) STANDARD SPECIFICATIONS AND
STANDARD PLANS CITED HEREIN REFER TO WSDOT PUBLICATIONS M41-10, STANDARD
SPECIFICATIONS FOR ROAD, BRIDGE, AND MUNICIPAL CONSTRUCTION, AND M21-01, STANDARD
PLANS FOR ROAD, BRIDGE, AND MUNICIPAL CONSTRUCTION, RESPECTIVELY.
4.1 SITE PREPARATION
PREPARATION OF THE PROJECT SITE SHOULD INVOLVE EROSION CONTROL, TEMPORARY DRAINAGE,
CLEARING, STRIPPING, EXCAVATIONS, CUTTING, SUBGRADE COMPACTION, AND FILLING.
EROSION CONTROL: BEFORE NEW CONSTRUCTION BEGINS, AN APPROPRIATE EROSION CONTROL
SYSTEM SHOULD BE INSTALLED. THIS SYSTEM SHOULD COLLECT AND FILTER ALL SURFACE
WATER RUNOFF THROUGH SILT FENCING. WE ANTICIPATE A SYSTEM OF BERMS AND DRAINAGE
DITCHES AROUND CONSTRUCTION AREAS WILL PROVIDE AN ADEQUATE COLLECTION SYSTEM. SILT
FENCING FABRIC SHOULD MEET THE REQUIREMENTS OF WSDOT STANDARD SPECIFICATION 9-33.2
TABLE 6. IN ADDITION, SILT FENCING SHOULD EMBED A MINIMUM OF 6 INCHES BELOW EXISTING
GRADE. AN EROSION CONTROL SYSTEM REQUIRES OCCASIONAL OBSERVATION AND MAINTENANCE.
SPECIFICALLY, HOLES IN THE FILTER AND AREAS WHERE THE FILTER HAS SHIFTED ABOVE GROUND
SURFACE SHOULD BE REPLACED OR REPAIRED AS SOON AS THEY ARE IDENTIFIED.
TEMPORARY DRAINAGE: WE RECOMMEND INTERCEPTING AND DIVERTING ANY POTENTIAL SOURCES
OF SURFACE OR NEAR -SURFACE WATER WITHIN THE CONSTRUCTION ZONES BEFORE STRIPPING
BEGINS. BECAUSE THE SELECTION OF AN APPROPRIATE DRAINAGE SYSTEM WILL DEPEND ON THE
WATER QUANTITY, SEASON, WEATHER CONDITIONS, CONSTRUCTION SEQUENCE, AND CONTRACTOR'S
METHODS, FINAL DECISIONS REGARDING DRAINAGE SYSTEMS ARE BEST MADE IN THE FIELD AT
THE TIME OF CONSTRUCTION. BASED ON OUR CURRENT UNDERSTANDING OF THE CONSTRUCTION
PLANS, SURFACE AND SUBSURFACE CONDITIONS, WE ANTICIPATE THAT CURBS, BERMS, OR
DITCHES PLACED AROUND THE WORK AREAS WILL ADEQUATELY INTERCEPT SURFACE WATER
RUNOFF.
CLEARING AND STRIPPING: AFTER SURFACE AND NEAR -SURFACE WATER SOURCES HAVE BEEN
CONTROLLED, SOD, TOPSOIL, AND ROOT -RICH SOIL SHOULD BE STRIPPED FROM THE SITE. OUR
SUBSURFACE EXPLORATIONS INDICATE THAT THERE ARE MINIMAL ORGANIC SOILS ONSITE BELOW
THE ASPHALT PAVEMENT IN THE VICINITY OF THE PROPOSED SERVICE BAY ADDITION BUT
REACHES THICKNESS OF UPWARDS OF 12 INCHES IN THE VICINITY OF THE NEW BROTHERTON
CADILLAC COMPOUND. STRIPPING IS BEST PERFORMED DURING A PERIOD OF DRY WEATHER.
SITE EXCAVATIONS: BASED ON OUR EXPLORATIONS, WE EXPECT THAT THE VAST MAJORITY OF
PROJECT EXCAVATIONS WILL ENCOUNTER POORLY CONSOLIDATED FINE-GRAINED ALLUVIAL SOILS,
WHICH CAN BE READILY EXCAVATED USING STANDARD EXCAVATION EQUIPMENT.
DEWATERING: OUR EXPLORATIONS ENCOUNTERED GROUNDWATER IN EVERY SUBSURFACE BORING
AT A DEPTH OF APPROXIMATELY 8Y2 FEET BELOW THE SURFACE. WE ANTICIPATE THAT AN
INTERNAL SYSTEM OF DITCHES, SUMP HOLES, AND PUMPS WILL BE ADEQUATE TO TEMPORARILY
DEWATER SHALLOW EXCAVATIONS. IN ORDER TO DEWATER DEEPER EXPLORATIONS BELOW THE
REGIONAL WATER TABLE, EXPENSIVE DEWATERING EQUIPMENT, SUCH AS WELL POINTS WILL NEED
TO BE UTILIZED..
TEMPORARY CUT SLOPES: AT THIS TIME, FINAL DESIGNS AND CONSTRUCTION SEQUENCING HAVE
NOT BEEN COMPLETED TO FACILITATE PROJECT PLANNING WE PROVIDE THE FOLLOWING GENERAL
COMMENTS REGARDING TEMPORARY SLOPES:
• ALL TEMPORARY SOIL SLOPES ASSOCIATED WITH SITE CUTTING OR EXCAVATIONS SHOULD BE
ADEQUATELY INCLINED TO PREVENT SLOUGHING AND COLLAPSE,
• TEMPORARY CUT SLOPES IN SITE SOILS SHOULD BE NO STEEPER THAN 1Y2H:1V, AND
• TEMPORARY SLOPES SHOULD CONFORM TO WASHINGTON INDUSTRIAL SAFETY AND HEALTH
ACT (WISHA) REGULATIONS
THESE GENERAL GUIDELINES ARE NECESSARILY SOMEWHAT CONSERVATIVE (STEEPER TEMPORARY
SLOPES MAY BE POSSIBLE). AS THE PROJECT PROGRESSES, TEMPORARY GRADING PLANS ARE
DEVELOPED, FINAL SITE FEATURES ARE BETTER DEFINED, AND A CONTRACTOR IS ENGAGED, MGI
MAY MODIFY THESE GENERAL GUIDELINES TO ALLOW STEEPER SLOPES.
SUBGRADE COMPACTION: EXPOSED SUBGRADES FOR THE FOUNDATIONS OF THE PLANNED
ADDITIONS SHOULD BE COMPACTED TO A FIRM, UNYIELDING STATE BEFORE NEW CONCRETE OR
FILL SOILS ARE PLACED. ANY LOCALIZED ZONES OF LOOSER GRANULAR SOILS OBSERVED WITHIN
A SUBGRADE SHOULD BE COMPACTED TO A DENSITY COMMENSURATE WITH THE SURROUNDING
SOILS. IN CONTRAST, ANY ORGANIC, SOFT, OR PUMPING SOILS OBSERVED WITHIN A SUBGRADE
SHOULD BE OVEREXCAVATED AND REPLACED WITH A SUITABLE STRUCTURAL FILL MATERIAL.
SITE FILLING: OUR CONCLUSIONS REGARDING THE REUSE OF ONSITE SOILS AND OUR COMMENTS
REGARDING WET -WEATHER FILLING ARE PRESENTED SUBSEQUENTLY. REGARDLESS OF SOIL TYPE,
ALL FILL SHOULD BE PLACED AND COMPACTED ACCORDING TO OUR RECOMMENDATIONS
PRESENTED IN THE STRUCTURAL FILL SECTION OF THIS REPORT. SPECIFICALLY, BUILDING PAD
FILL SOIL SHOULD BE COMPACTED TO A UNIFORM DENSITY OF AT LEAST 95 PERCENT (BASED ON
ASTM: D-1557).
ONSITE SOILS: WE OFFER THE FOLLOWING EVALUATION OF THESE ONSITE SOILS IN RELATION TO
POTENTIAL USE AS STRUCTURAL FILL:
• ALLUVIAL SILT AND SILTY SAND: THE ALLUVIAL SILTY SAND THAT UNDERLIES THE SITE IS
VERY MOISTURE SENSITIVE AND WILL BE DIFFICULT OR IMPOSSIBLE TO REUSE DURING MOST
WEATHER CONDITIONS. IT IS CURRENTLY ABOVE THE OPTIMUM MOISTURE CONTENT AND WILL
NOT COMPACT ADEQUATELY UNLESS AERATED. REUSE IS NOT RECOMMENDED, AND THIS
MATERIAL SHOULD ONLY BE USED FOR NON-STRUCTURAL PURPOSES, SUCH AS IN
LANDSCAPING AREAS.
• ALLUVIAL GRAVEL: ENCOUNTERED AT INTERMEDIATE AND SIGNIFICANT DEPTHS BELOW
GROUND SURFACE, THIS MATERIAL IS INTERBEDDED WITH ITS MORE FINE-GRAINED
COUNTERPART. GRAVELLY SOILS WHICH UNDERLIE THE SITE ARE RELATIVELY IMPERVIOUS TO
MOISTURE CONTENT VARIATIONS AND CAN BE REUSED AS STRUCTURAL FILL UNDER MOST
WEATHER CONDITIONS.
PERMANENT SLOPES: ALL PERMANENT CUT SLOPES AND FILL SLOPES SHOULD BE ADEQUATELY
INCLINED TO REDUCE LONG-TERM RAVELING, SLOUGHING, AND EROSION. WE GENERALLY
RECOMMEND THAT NO PERMANENT SLOPES BE STEEPER THAN 2H:1V. FOR ALL SOIL TYPES, THE
USE OF FLATTER SLOPES (SUCH AS 21/H:1V) WOULD FURTHER REDUCE LONG-TERM EROSION AND
FACILITATE REVEGETATION.
SLOPE PROTECTION: WE RECOMMEND THAT A PERMANENT BERM, SWALE, OR CURB BE
CONSTRUCTED ALONG THE TOP EDGE OF ALL PERMANENT SLOPES TO INTERCEPT SURFACE FLOW.
ALSO, A HARDY VEGETATIVE GROUNDCOVER SHOULD BE ESTABLISHED AS SOON AS FEASIBLE, TO
FURTHER PROTECT THE SLOPES FROM RUNOFF WATER EROSION. ALTERNATIVELY, PERMANENT
SLOPES COULD BE ARMORED WITH QUARRY SPALLS OR A GEOSYNTHETIC EROSION MAT.
4.2 SPREAD FOOTING
IN OUR OPINION, CONVENTIONAL SPREAD FOOTINGS WILL PROVIDE ADEQUATE SUPPORT FOR THE
PROPOSED STRUCTURES IF THE SUBGRADE IS PROPERLY PREPARED. WE OFFER THE FOLLOWING
COMMENTS AND RECOMMENDATIONS FOR SPREAD FOOTING DESIGN.
FOOTING DEPTHS AND WIDTHS: FOR FROST AND EROSION PROTECTION, THE BASES OF ALL
EXTERIOR FOOTINGS SHOULD BEAR AT LEAST 18 INCHES BELOW ADJACENT OUTSIDE GRADES,
WHEREAS THE BASES OF INTERIOR FOOTINGS NEED BEAR ONLY 12 INCHES BELOW THE
SURROUNDING SLAB SURFACE LEVEL. TO REDUCE COST -CONSTRUCTION SETTLEMENTS,
CONTINUOUS (WALL) AND ISOLATED (COLUMN- FOOTINGS SHOULD BE AT LEAST 16 TO 24
INCHES.
BEARINGS AND SUBGRADES: GIVEN THE POOR CONSOLIDATION OF NEAR SURFACE SOIL DEPOSITS
IN THE VICINITY OF THE PROJECT AREA, STRUCTURAL FILL BEARING PADS, 3 TO 4 FEET THICK
AND COMPACTED TO A DENSITY OF AT LEAST 95 PERCENT (BASED ON ASTM:D-1557), SHOULD
UNDERLIE SPREAD FOOTINGS ON THIS SITE. IF FOUNDATION CONSTRUCTION OCCURS DURING WET
CONDITIONS, IT IS POSSIBLE THAT A GEOTEXTILE FABRIC, PLACED BETWEEN THE BEARING PAD
NATIVE SOILS, WILL BE NECESSARY. WE SHOULD BE CONSULTED IF ANY NEW FOUNDATIONS ARE
TO BE PLACED ADJACENT TO EXISTING FOUNDATIONS.
IN GENERAL, BEFORE FOOTING CONCRETE IS PLACED, ANY LOCALIZED ZONES OF LOOSE SOILS
EXPOSED ACROSS FOOTING SUBGRADES SHOULD BE COMPACTED TO A FIRM, UNYIELDING
CONDITION, AND ANY LOCALIZED ZONES OF SOFT, ORGANIC, OR DEBRIS -LADEN SOILS SHOULD BE
OVER -EXCAVATED AND REPLACED WITH SUITABLE STRUCTURAL FILL.
LATERAL OVEREXCAVATIONS: BECAUSE FOUNDATION STRESSES ARE TRANSFERRED OUTWARD AS
WELL AS DOWNWARD INTO THE BEARING SOILS, ALL STRUCTURAL FILL PLACED UNDER FOOTINGS,
SHOULD EXTEND HORIZONTALLY OUTWARD FROM THE EDGE OF EACH FOOTING. THIS HORIZONTAL
DISTANCE SHOULD BE EQUAL TO THE DEPTH OF PLACED FILL. THEREFOR, PLACED FILL THAT
EXTENDS 3 FEET BELOW THE FOOTING BASE SHOULD ALSO EXTEND 3 FEET OUTWARD FROM THE
FOOTING EDGES.
SUBGRADE OBSERVATION: ALL FOOTING SUBGRADES SHOULD CONSIST OF FIRM, UNYIELDING,
NATIVE SOILS, OR STRUCTURAL FILL MATERIALS THAT HAVE BEEN COMPACTED TO A DENSITY OF
AT LEAST 95 PERCENT (BASED ON ASTM:D-1557). FOOTINGS SHOULD NEVER BE CAST ATOP
LOOSE, SOFT, OR FROZEN SOIL, SLOUGH, DEBRIS, EXISTING UNCONTROLLED FILL, OR SURFACES
COVERED BY STANDING WATER.
BEARING PRESSURES: IN OUR OPINION, FOR STATIC LOADING, FOOTINGS THAT BEAR ON
PROPERLY PREPARED, STRUCTURAL FILL BEARING PADS 3 FEET THICK CAN BE DESIGNED FOR AN
ALLOWABLE SOIL BEARING PRESSURE OF 1,500 PSF, AND FOOTINGS THAT BEAR ON PROPERLY
PREPARED, STRUCTURAL FILL BEARING PADS 4 FEET THICK CAN BE DESIGNED FOR AN
ALLOWABLE SOIL BEARING PRESSURE OF 2,000 PSF. A ONE-THIRD INCREASE IN ALLOWABLE SOIL
BEARING CAPACITY MAY BE USED FOR SHORT-TERM LOADS CREATED BY SEISMIC OR WIND
RELATED ACTIVITIES.
FOOTING SETTLEMENTS: ASSUMING THAT STRUCTURAL FILL SOILS ARE COMPACTED TO A MEDIUM
DENSE OR DENSER STATE, WE ESTIMATE THAT TOTAL POST -CONSTRUCTION SETTLEMENTS OF
PROPERLY DESIGNED FOOTING BEARING ON PROPERLY PREPARED SUBGRADES WILL NOT EXCEED 1
INCH. DIFFERENTIAL SETTLEMENTS FOR COMPARABLY LOADED ELEMENTS MAY APPROACH
ONE-HALF OF THE ACTUAL TOTAL SETTLEMENT OVER HORIZONTAL DISTANCES OF APPROXIMATELY
50 FEET.
LATERAL RESISTANCE: FOOTING THAT HAVE BEEN PROPERLY BACKFILLED AS RECOMMENDED
ABOVE WILL RESIST LATERAL MOVEMENTS BY MEANS OF PASSIVE EARTH PRESSURE AND BASE
FRICTION. WE RECOMMEND USING AN ALLOWABLE PASSIVE EARTH PRESSURE OF 225PSF AND AN
ALLOWABLE BASE FRICTION COEFFICIENT OF 0.35 FOR SITE SOILS.
4.3 SLAB -ON -GRADE FLOORS
IN OUR OPINION, A SOIL -SUPPORTED SLAB -ON -GRADE FLOORS CAN BE USED FOR THE PLANNED
STRUCTURES IF THE SUBGRADES ARE PROPERLY PREPARED. WE OFF THE FOLLOWING COMMENTS
AND RECOMMENDATIONS CONCERNING SLAB -ON -GRADE FLOORS.
FLOOR SUBBASE: GIVEN THE POOR CONSOLIDATION OF NEAR SURFACE SOIL DEPOSITS IN THE
VICINITY OF THE PROJECT AREA, WE RECOMMEND OVER -EXCAVATION OF SLAB -ON -GRADE FLOOR
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SUBGRADES TO A MINIMUM DEPTH OF 1Y2 FEET, THEN PLACEMENT OF PROPERLY COMPACTED
STRUCTURAL FILL AS A FLOOR SUBBASE. IF FLOOR CONSTRUCTION OCCURS DURING WET
CONDITIONS, IT IS LIKELY THAT A GEOTEXTILE FABRIC, PLACED BETWEEN THE STRUCTURAL FILL
FLOOR SUBBASE AND NATIVE SOILS, WILL BE NECESSARY. AL SUBBASE FILL SHOULD BE
COMPACTED TO A DENSITY OF AT LEAST 95 PERCENT (BASED ON ASTM:D-1557).
CAPILLARY BREAK AND VAPOR BARRIER: TO RETARD THE UPWARD WICKING OF MOISTURE
BENEATH THE FLOOR SLAB, WE RECOMMEND THAT A CAPILLARY BREAK BE PLACED OVER THE
SUBGRADE. IDEALLY, THIS CAPILLARY BREAK WOULD CONSIST OF A 4-INCH-THICK LATER OF PEA
GRAVEL OR OTHER CLEAN, UNIFORM, WELL-ROUNDED GRAVEL, SUCH AS "GRAVEL BACKFILL FOR
DRAINS" PER WSDOT STANDARD SPECIFICATION 9-03.12(4), BUT CLEAN ANGULAR GRAVEL CAN
BE USED IF IT ADEQUATELY PREVENTS CAPILLARY WICKING. IN ADDITION, A LAYER OF PLASTIC
SHEETING (SUCH AS CROSSTUFF, VISQUEEN, OR MOISTOP) SHOULD BE PLACED OVER THE
CAPILLARY BREAK TO SERVE AS A VAPOR BARRIER. DURING SUBSEQUENT CASTING OF THE
CONCRETE SLAB, THE CONTRACTOR SHOULD EXERCISE CARE TO AVOID PUNCTURING THE VAPOR
BARRIER.
4.4 SUBGRADE AND RETAINING WALLS
THE FOLLOWING GENERAL RECOMMENDATIONS SHOULD BE APPLIED TO THE DESIGN OF SUBGRADE
AND RETAINING WALLS.
WALL FOUNDATIONS: SUBGRADE AND RETAINING WALL FOUNDATIONS SHOULD BE DESIGNED
ACCORDING TO THE RECOMMENDATIONS PRESENTED FOR SPREAD FOOTINGS IN SECTION 4.2.
WALL DRAINAGE: DRAINAGE SHOULD BE PROVIDED BEHIND SUBGRADE AND RETAINING WALLS BY
PLACING A ZONE OF DRAIN ROCK CONTAINING LESS THAN 3 PERCENT FINES (MATERIAL PASSING
THE NO. 200 SIEVE) AGAINST THE WALL. THIS DRAINAGE ZONE SHOULD BE AT LEAST 24 INCHES
WIDE (MEASURED HORIZONTALLY) AND EXTEND FROM THE BASE OF THE WALL TO WITHIN 1 FOOT
OF THE FINISHED GRADE BEHIND THE WALL. SMOOTH -WALLED PERFORATED PVC DRAINPIPE
HAVING A MINIMUM DIAMETER OF 4 INCHES SHOULD BE EMBEDDED WITHIN THE SAND AND
GRAVEL AT THE BASE OF THE WALL ALONG ITS ENTIRE LENGTH. THIS DRAINPIPE SHOULD
DISCHARGE INTO A TIGHT LINE LEADING TO AN APPROPRIATE COLLECTION AND DISPOSAL SYSTEM.
BACKFILL SOIL: IDEALLY, ALL SUBGRADE WALL BACKFILL WOULD CONSIST OF CLEAN,
FREE -DRAINING, GRANULAR MATERIAL, SUCH AS "GRAVEL BACKFILL FOR WALLS" PER WSDOT
STANDARD SPECIFICATION 9-03.12(2). A GEOTEXTILE SHOULD BE PLACED BETWEEN THE
DRAINAGE ZONE AND THE BACKFILL SOIL TO PREVENT DRAIN CLOGGING.
BACKFILL COMPACTION: BECAUSE SOIL COMPACTORS PLACE SIGNIFICANT LATERAL PRESSURES ON
SUBGRADE WALLS, WE RECOMMEND THAT ONLY SMALL, HAND -OPERATED COMPACTION EQUIPMENT
BE USED WITHIN 2 FEET OF A BACKFILLED WALL. ALSO, ALL BACKFILL SHOULD BE COMPACTED
TO A DENSITY AS CLOSE AS POSSIBLE TO 90 PERCENT OF THE MAXIMUM DRY DENSITY (BASED
ON ASTM:D-1557); A GREATER DEGREE OF COMPACTION CLOSELY BEHIND THE WALL WOULD
INCREASE THE LATERAL EARTH PRESSURE, WHEREAS A LESSER DEGREE OF COMPACTION MIGHT
LEAD TO EXCESSIVE POST -CONSTRUCTION SETTLEMENTS.
GRADING AND CAPPING: TO RETARD THE INFILTRATION OF SURFACE WATER INTO THE BACKFILL
SOILS, WE RECOMMEND THAT THE BACKFILL SURFACE OF EXTERIOR WALLS BE ADEQUATELY
SLOPES TO DRAIN AWAY FROM THE WALL. IDEALLY, THE BACKFILL SURFACE DIRECTLY BEHIND
THE WALL WOULD BE CAPPED WITH ASPHALT, CONCRETE, OR 12 INCHES OF LOW -PERMEABILITY
(SILTY) SOILS TO MINIMIZE OR PRECLUDE SURFACE WATER INFILTRATION.
APPLIED SOIL PRESSURE: WALLS THAT ARE DESIGNED TO MOVE 0.1 PERCENT OF THE WALL
HEIGHT DURING AND AFTER CONSTRUCTION ARE USUALLY REFERRED TO AS UNRESTRAINED
WALLS. WE RECOMMEND THAT UNRESTRAINED CANTILEVER WALLS SUPPORT SLOPES INCLINED AT
2H:1V OR FLATTER BE DESIGNED TO RESIST AN ACTIVE PRESSURE (TRIANGULAR DISTRIBUTION)
OF 55 POUNDS PER CUBIC FOOT (PCF) FOR DRAINED CONDITIONS. THE RECOMMENDED PRESSURE
DOES NOT INCLUDE THE EFFECTS OF SURCHARGES FROM SURFACE LOADS, HYDROSTATIC
PRESSURES, OR STRUCTURAL LOADS. IF SUCH SURCHARGES ARE TO APPLY, THEY SHOULD BE
ADDED TO THE ABOVE DESIGN LATERAL PRESSURES. TRAFFIC AND VEHICLE LOADS MAT BE
MODELED AS AN ADDITIONAL 2 FEET OF WALL HEIGHT
WALL SETTLEMENTS: WE ESTIMATE THAT THE SETTLEMENT OF THE WALL FOOTINGS CONSTRUCTED
AS RECOMMENDED WILL BE ON THE ORDER OF 1 INCH OR LESS. MOST OF THIS SETTLEMENT IS
EXPECTED TO OCCUR AS SOON AS THE LOADS ARE APPLIED. DIFFERENTIAL SETTLEMENT ALONG
THE WALLS IS EXPECTED TO BE 1 INCH OR LESS OVER A 50-FOOT SPAN.
4.5 ASPHALT PAVEMENT
SINCE ASPHALT PAVEMENTS WILL BE USED FOR THE NEW PARKING FACILITIES AND ROADWAYS,
WE OFFER THE FOLLOWING COMMENTS AND RECOMMENDATIONS FOR PAVEMENT DESIGN AND
CONSTRUCTION.
SUBGRADE PREPARATION: WE RECOMMEND OVER -EXCAVATION OF PAVEMENT SUBGRADES TO
DEPTHS OF 12 OR 24 INCHES, THEN PLACEMENT OF PROPERLY COMPACTED STRUCTURAL FILL AS
PAVEMENT SUBBASE. IF CONSTRUCTION OCCURS DURING WET CONDITIONS, IT IS LIKELY THAT A
GEOTEXTILE FABRIC, PLACED BETWEEN THE STRUCTURAL FILL PAVEMENT SUBBASE AND NATIVE
SOILS, WILL BE NECESSARY. WE RECOMMEND A CONVENTIONAL PAVEMENT SECTION COMPRISED OF
AN ASPHALT CONCRETE PAVEMENT OVER A CRUSHED ROCK BASE COURSE OVER A PROPERLY
PREPARED (COMPACTED) SUBGRADE OR A GRANULAR SUBBASE, DEPENDING ON SUBGRADE
CONDITIONS DURING PAVEMENT SUBGRADE PREPARATION.
ALL SOIL SUBGRADES SHOULD BE THOROUGHLY COMPACTED, THEN PROOF -ROLLED WITH A
LOADED DUMP TRUCK OR HEAVY COMPACTOR. ANY LOCALIZED ZONES OF YIELDING SUBGRADE
DISCLOSED DURING THIS PROOF -ROLLING OPERATION SHOULD BE OVER EXCAVATED TO A DEPTH
OF 2 FEET AND REPLACED WITH A SUITABLE STRUCTURAL FILL MATERIAL. ALL STRUCTURAL FILL
SHOULD BE COMPACTED ACCORDING TO OUR RECOMMENDATIONS GIVEN IN THE STRUCTURAL FILL
SECTION. SPECIFICALLY, THE UPPER 2 FEET OF SOILS UNDERLYING PAVEMENT SECTION SHOULD
BE COMPACTED TO AT LEAST 95 PERCENT (BASED ON ASTM D-1557), AND ALL SOILS BELOW 2
FEET SHOULD BE COMPACTED TO AT LEAST 90 PERCENT.
PAVEMENT MATERIALS: FOR THE BASE COURSE, WE RECOMMEND USING IMPORTED WASHED
CRUSHED ROCK, SUCH AS "CRUSHED SURFACING BASE COURSE" PER WSDOT STANDARD
SPECIFICATION 9-03.9(3) BUT WITH A FINES CONTENT OF LESS THAN 5 PERCENT PASSING THE
NO. 200 SIEVE. ALTHOUGH OUR EXPLORATIONS DO NOT INDICATE A NEED FOR A PAVEMENT
SUBBASE, IF A SUBBASE COURSE IS NEEDED, WE RECOMMEND USING IMPORTED, CLEAN,
WELL -GRADED SAND AND GRAVEL SUCH AS "BALLAST" OR "GRAVEL BORROW" PER WSDOT
STANDARD SPECIFICATIONS 9-03.9(1) AND 9-03.14, RESPECTIVELY.
CONVENTIONAL ASPHALT SECTIONS: A CONVENTIONAL PAVEMENT SECTION TYPICALLY COMPRISES
AN ASPHALT CONCRETE PAVEMENT OVER A CRUSHED ROCK BASE COURSE. WE RECOMMEND
USING THE FOLLOWING CONVENTIONAL PAVEMENT SECTIONS:
MINIMUM THICKNESS
DRIVEWAYS AND AREAS
PAVEMENT COURSE AUTOMOBILE PARKING AREAS SUBJECT TO TRUCK TRAFFIC
ASPHALT CONCRETE PAVEMENT 2 INCHES 4 INCHES
CRUSHED ROCK BASE 4 INCHES 8 INCHES
GRANULAR FILL SUBBASE
(IF NEEDED)
SURVEYED:
WITIIF.1
DESIGNED:
DKM/RJJ
DRAWN:
KLK/DKM
CHECKED:
DCD
APPROVED:
DCD
12 INCHES 24 INCHES
CONCRETE PAVEMENT: WE UNDERSTAND THAT CONCRETE PAVEMENT WILL BE PLACED AT THE
SITE DRIVEWAY, ALONG THE ACCESS WAY, AND AS A PAD FOR THE BACKUP GENERATOR. WE
RECOMMEND THAT CONCRETE PAVEMENT HAVE A MAXIMUM THICKNESS OF 8 INCHES AND BE
SUPPORTED ON PREPARED SOIL SUBGRADES AND AT LEAST 4 INCHES OF CRUSHED ROCK BASE
AS RECOMMENDED ABOVE.
COMPACTION AND OBSERVATION: ALL SUBBASE AND BASE COURSE MATERIAL SHOULD BE
COMPACTED TO AT LEAST 95 PERCENT OF THE MODIFIED PROCTOR MAXIMUM DRY DENSITY (ASTM
D-1557), AND ALL ASPHALT CONCRETE SHOULD BE COMPACTED TO AT LEAST 92 PERCENT OF
THE RICE VALUE (ASTM D-2041). WE RECOMMEND THAT AN MGI REPRESENTATIVE BE RETAINED
TO OBSERVE THE COMPACTION OF EACH COURSE BEFORE ANY OVERLYING LAYER IS PLACED.
FOR THE SUBBASE AND PAVEMENT COURSE, COMPACTION IS BEST OBSERVED BY MEANS OF
FREQUENT DENSITY TESTING. FOR THE BASE COURSE, METHODOLOGY OBSERVATIONS AND
HAND -PROBING ARE MORE APPROPRIATE THAN DENSITY TESTING.
PAVEMENT LIFE AND MAINTENANCE: NO ASPHALT PAVEMENT IS MAINTENANCE -FREE. THE
ABOVE DESCRIBED PAVEMENT SECTIONS PRESENT OUR MINIMUM RECOMMENDATIONS FOR AN
AVERAGE LEVEL OF PERFORMANCE DURING A 20-YEAR DESIGN LIFE, THEREFORE, AN AVERAGE
LEVEL OF MAINTENANCE WILL LIKELY BE REQUIRED. FURTHERMORE, A 20-YEAR PAVEMENT LIFE
TYPICALLY ASSUMES THAT AN OVERLAY WILL BE PLACED AFTER ABOUT 10 YEARS. THICKER
ASPHALT AND/OR THICKER BASE AND SUBBASE COURSES WOULD OFFER BETTER LONG-TERM
PERFORMANCE BUT WOULD COST MORE INITIALLY; THINNER COURSES WOULD BE MORE
SUSCEPTIBLE TO "ALLIGATOR" CRACKING AND OTHER FAILURE MODES. AS SUCH, PAVEMENT
DESIGN CAN BE CONSIDERED A COMPROMISE BETWEEN A HIGH INITIAL COST AND LOW
MAINTENANCE COSTS VERSUS A LOW INITIAL COST AND HIGHER MAINTENANCE COSTS.
4.6 STRUCTURAL FILL
THE TERM "STRUCTURAL FILL" REFERS TO ANY MATERIAL PLACED UNDER FOUNDATIONS,
RETAINING WALLS, SLAB -ON -GRADE FLOORS, SIDEWALKS, PAVEMENTS, AND OTHER STRUCTURES.
OUR COMMENTS, CONCLUSIONS, AND RECOMMENDATIONS CONCERNING STRUCTURAL FILL ARE
PRESENTED IN THE FOLLOWING PARAGRAPHS.
MATERIALS: TYPICAL STRUCTURAL FILL MATERIALS INCLUDE CLEAN SAND, GRAVEL, PEA GRAVEL,
WASHED ROCK, CRUSHED ROCK, WELL -GRADED MIXTURES OF SAND AND GRAVEL (COMMONLY
CALLED "GRAVEL BORROW" OR "PIT -RUN"), AND MISCELLANEOUS MIXTURES OF SILT, SAND, AND
GRAVEL. IMPORT MATERIALS MEETING WSDOT STANDARD SPECIFICATION 9-03.14(1) GRAVEL
BORROW WILL BE SATISFACTORY FOR USE AS STRUCTURAL FILL DURING DRY WEATHER. RECYCLED
ASPHALT, CONCRETE, AND GLASS, WHICH ARE DERIVED FROM PULVERIZING THE PARENT
MATERIALS, ARE ALSO POTENTIALLY USEFUL AS STRUCTURAL FILL IN CERTAIN APPLICATIONS.
SOILS USED FOR STRUCTURAL FILL SHOULD NOT CONTAIN ANY ORGANIC MATTER OR DEBRIS, NOR
ANY INDIVIDUAL PARTICLES GREATER THAN ABOUT 6 INCHES IN DIAMETER.
FILL PLACEMENT: CLEAN SAND, GRAVEL, CRUSHED ROCK, SOIL MIXTURES, AND RECYCLED
MATERIALS SHOULD BE PLACED IN HORIZONTAL LIFTS NOT EXCEEDING 8 INCHES IN LOOSE
THICKNESS, AND EACH LIFT SHOULD BE THOROUGHLY COMPACTED WITH A MECHANICAL
COMPACTOR.
COMPACTION CRITERIA: USING THE MODIFIED PROCTOR TEST (ASTM: D-1557) AS A STANDARD,
WE RECOMMEND THAT STRUCTURAL FILL USED FOR VARIOUS ONSITE APPLICATIONS BE
COMPACTED TO THE FOLLOWING MINIMUM DENSITIES:
FILL APPLICATION MINIMUM COMPACTION
FOOTING SUBGRADE AND BEARING PAD 95 PERCENT
FOUNDATION BACKFILL 90 PERCENT
ASPHALT PAVEMENT BASE 95 PERCENT
ASPHALT PAVEMENT SUBGRADE (UPPER 2 FEET) 95 PERCENT
ASPHALT PAVEMENT SUBGRADE (BELOW 2 FEET) 90 PERCENT
SUBGRADE OBSERVATION AND COMPACTION TESTING: REGARDLESS OF MATERIAL OR LOCATION,
ALL STRUCTURAL FILL SHOULD BE PLACED OVER FIRM, UNYIELDING SUBGRADES PREPARED IN
ACCORDANCE WITH THE SITE PREPARATION SECTION OF THIS REPORT. THE CONDITION OF ALL
SUBGRADES SHOULD BE OBSERVED BY GEOTECHNICAL PERSONNEL BEFORE FILLING OR
CONSTRUCTION BEGINS. ALSO, FILL SOIL COMPACTION SHOULD BE VERIFIED BY MEANS OF
IN -PLACE DENSITY TESTS PERFORMED DURING FILL PLACEMENT SO THAT ADEQUACY OF SOIL
COMPACTION EFFORTS MAY BE EVALUATED AS EARTHWORK PROGRESSES.
SOIL MOISTURE CONSIDERATIONS: THE SUITABILITY OF SOILS USED FOR STRUCTURAL FILL
DEPENDS PRIMARILY ON THEIR GRAIN -SIZE DISTRIBUTION AND MOISTURE CONTENT WHEN THEY
ARE PLACED. AS THE "FINES" CONTENT (THAT SOIL FRACTION PASSING THE U.S. NO. 200
SIEVE) INCREASES, SOILS BECOME MORE SENSITIVE TO SMALL CHANGES IN MOISTURE CONTENT.
SOILS CONTAINING MORE THAN ABOUT 5 PERCENT FINES (BY WEIGHT) CANNOT BE CONSISTENTLY
COMPACTED TO A FIRM, UNYIELDING CONDITION WHEN THE MOISTURE CONTENT IS MORE THAN 2
PERCENTAGE POINTS ABOVE OR BELOW OPTIMUM. FOR FILL PLACEMENT DURING WET -WEATHER
SITE WORK, WE RECOMMEND USING "CLEAN" FILL, WHICH REFERS TO SOILS THAT HAVE A FINES
CONTENT OF 5 PERCENT OR LESS (BY WEIGHT) BASED ON THE SOIL FRACTION PASSING THE U.S.
NO. 4 SIEVE.
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46449
Isn
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sitts&hill
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CIVIL I STRUCTURAL I SURVEY
4815 CENTER STREET I TACOMA, WA. 98409
PHONE: (253) 474-9449 I FAX: (253) 474-0153
http://www.sittshill.com/
Project No.: 19480 Project Mgr.: DCD
Proj. Engineer: DKM/RJJ Proj. Drafter: KLK/DKM
R-422904
IN COMPLIANCE WITH CITY OF RENTON STANDARDS
ENJ
LOPMENT ENGINEERING
anders 05/08/2023
SCALE: DATE:
VERTICAL AL;: NA 11988
983/1 • BROTHERTON BUICK-GMC - RENTON
AS NOTED HORIZONTAL: NAD 1983/1991 CITY O F
I;R
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