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Home My WebLink AboutCT 80-39; LAGUNA RIVIERA; SOIL AND GEOLOGICAL INVESTIGATION; 1981-02-23• .' .' • • .' • Woodward· Clyde Consultants SOIL AND GEOLOGICAL INVESTIGATION FOR THE PROPOSED LAGUNA RIVIERA, UNIT 11 For .-.'.-~ -Kamar Construction Co., Inc. 325 Elm Avenue Carlsbad, California 92008 • • e· • • • • • • • • 3467 Kurtz Street San Diego, California 92110 714-224-2911 Woodward·Clyde Consultants Telex 697-841 February 23, 19'81 Project No. 5ll01W SIOl Kamar Construction Co., Inc. 325 Elm-Avenue Carlsbad, California 92008 Attention: Mr. Jerry Rombotis SOIL AND GEOLOGICAL INVESTIGATION FOR THE PROPOPOSED LAGUNA RIVIERA, UNIT 11 CARLSBAD, CALIFORNIA Gentlemen: We are pleased to provide the accompanying report, which presents the results of our geotechnical investigation for the subject project. The report presents our conclusions and recommendations pertaining to the site, as well as the -results of our field explorations. Our engineer and geologist assigned to: thi:s proj ect are Messrs. Michael R. Rahilly and Robert J: --Dowlen, respect- ively. If you have any questions, or if we can be of further service, please give us a call. Very truly yours, WOODWARD-CLYDE CONSULTANTS £1/~~ Daryl Streiff C.E.G. 1033 DS/RPW/MRR/RJD/rs/mam Attachment (5) Consulting Engineers, Geologists and Environmental Scientists Offices in Other Principal Cities·-·· _._, -- Richard P. While R.E. 21992 ------_. -----~--'"-.. -------. -- • • • • • • • • • • Project No. 5110IW-SIOI Woodward· Clyde Consultants TABLE OF CONTENTS PURPOSE OF INVESTIGATION BACKGROUND INFORMATION AND PROJECT DESCRIPTION SITE, SOIL, AND GEOLOGIC CONDITIONS DISCUSSIONS, CONCLUSIONS, AND RECOMMENDATIONS RISK AND OTHER CONSIDERATIONS FIGURE I -SITE PLAN AND GEOLOGIC MAP APPENDIX A -FIELD INVESTIGATION FIGURE A-I -KEY TO LOGS FIGURE A-2 -LOG OF TEST BORING I FIGURE A-3 -LOG OF PITS 2 AND 3· : FIGURE A-4 -LOG OF TEST PIT 4 APPENDIX B -REPORT DATED APRIL 5, 1972 APPENDIX C -CUT SLOPES .. APPENDIX D -SPECIFICATIONS FOR CONTROLLED FILL Page 1 2 4 6 12 A-I B-1 C-l D-l • • • • • • • • • • Project No. SllOlW-SIOl Woodward-Clyde Consultants SOIL AND GEOLOGICAL INVESTIGATION FOR THE PROPOSED, LAGUNA RIVIERA, UNIT 11 CARLSBAD, CALIFORNIA This report presents the results of our soil and geological investigation at the site of the proposed taguna Riviera, Unit II, residential subdivision. The site is at the northwest intersection of Park Drive and Valencia Ave- nue, in the Rancho Agua Hedionda section 'of Carlsbad, Cali- fornia. This report is a part of a study that is being made of a large area to the west of the subject 7 lots. "'-... PURPOSE OF INVESTIGATION The purpose of our investigation ii to assist Kamar Construction Company, Inc., and their consultants in evaluating the property and in proje'ct design. This report presents our conclusions and/or recommendations regarding: o o o o o Geologic setting of the site, Potential geologic hazards, General subsurface soil conditio~s, General extent and condition of existing fill soils, Conditions of areas to receive fill, • • • • • • • • • • • Project No. 51101W-SIOl Woodward· Clyde Consultants o o o o Presence and effect of expansive soils, Depth to water (if within the depth of our sub- surface investigation), Grading and earthwork specifications, and Types and depth of foundations and allowable soil bearing pressures. BACKGROUND INFORMATION AND PROJECT DESCRIPTION To aid in our study, we have discussed the project with Mr. Jerry Rombotis, and have been provided with an undated "Plot and Grading Plan, Laguna Riviera Unit No. 11- CT-80" (scale: 1" = 30'), prepared by Mr. Raymond R. Ribal, R.C.E. In addition, we have reviewed applicable geologic and geotechnical data, including: "Laguna Riviera Unit 5, Offsite -Fi-ll;·.Areas A and B, Carlsbad, California," prepared by ·,woodward-Gizienski & Associates (AprilS, 1972). "Soil Investigation for Laguna Riviera, Carlsbad, California," prepared by Geocon, Inc. (April 7, 1980). "Faulting in the Oceanside, Carlsbad, and Vista Areas, Northern San Diego County, California,'" by Dennis Hannan, in Studies on the Geology of Camp Pendleton, and Western San Diego County, California, published by the San Diego Association of Geologists (1975). "Geologic Map of a Portion of the San Luis Rey Quad- rangle, San Diego County, California," M.S. thesis by Kenneth L. Wilson, University of California, Riverside (1972) . We understand that the proposed project will involve grading the approximately 1-1/2-acre s~te into seven single-level and/or split-level lots. We understand that the proposed construction will be limited to one- and/or two-story, wood-frame and stucco residential structures, 2 ---~---- -- ------------"-" - • • • • • • .' • • • • Project No. 5ll01W-SIOl Woodward· Clyde Consultants supported on continuous footings and having concrete slab- on-grade floors. We also understand that proposed cut slopes and composite cut/fill slopes will have maximum inclinations of 2 to 1 (horizontal to vertical), and will be approximately 30 feet high; proposed side-yard fill slopes will be inclined to 2 to 1 and will be less than 10 feet high. Retaining walls with level backfill are also proposed to heights ranging from 2 to 3 feet. Current plans indicate that the grading is out of balance and that excess fill will be placed offsite to the west. Field and Laboratory Investigations Our field investigation included making a visual geologic reconnaissance of existing s~:r:t_~ce conditions, making one bucket auger boring and three backhoe test pits, and obtaining representative soil samples. The boring was advanced to a depth and of 31 feet the test pits were 8-1/2 to 10-1/2 feet. The locations of the test explorations are shown on Fig. 1. A Key to Logs is presented in Appendix A as Fig. A-l. Simplified logs of the borings and test pits are presented in Appendix A as Figs. A-2 through A-S. The descriptions on the logs are based on field logs and sample inspection. Laboratory and compaction test data for the existing compacted fill soils are contained in the aforemen- tioned report of AprilS, 1972 (Appe~dix B) • 3 • • • • • • • • • • • Project No. 5ll0lW-SIOl Woodward· Clyde Consultants SITE, SOIL, AND GEOLOGIC CONDITIONS Geologic Setting The site lies within an area characterized by Pleistocene age beach and lagoonal deposits overlying Ter- tiary age sediments of the coastal foothills. Topography and Site Conditions The site covers portions of two southeast-trending ridges and the flanking drainage areas. Elevations range from approximately 52 feet (MSLD) on the southern ridge top, to less than 18 feet at the southeastern property line. Natural slope inclinations vary from a maximum of approximately 2-1/2 to 1 on the ridge f-lanks, to nearly flat along Valencia Avenue. Vegetation on the site varies from a sparse growth of grasses in the undeveloped areas to essentially barren filled ground along Valencia Avenue. Undefground utilities, which include a water main and telephone ~able, are indicated to be present in the' sidewalk easement along Valencia Avenue. Subsurface Conditions The site is underlain by compacted fill soils, fill soils, topsoil, and Pleistocene age beach and lagoonal terrace deposits. These units are described below; their • e- • • • • • • • • • Project No. 51101W-SIOI Woodward· Clyde Consultants areal extents, with the exception of the topsoil, are approximately shown on Fig. 1. The geologic map symbol for each unit is given after the formal name for the unit. Compacted Fill Soils (Qcf) -Compacted fill soils, as reported in the April 5, 1972 report, were placed in the low-lying areas of Lots 1 and 2 (Fig. 1). These fiil soils are composed of silty sands. Fill Soils (Af) -Fill soils of unknown compaction characteristics are present in the low-lying areas of Lots 3 through 7. These materials, composed primarily of loose silty to clayey sands, were found to a depth of 5 feet in Test pit 3. Topsoil (unmapped) - A topsoil :layer, composed of compressible clayey sand to sandy clay, is present on the natural hillsides and beneath the loose fill soils in Test pit 3. These soils range from 1 to 2 feet thick. Terrace Deposits (Qt) -The-site is underlain by Terrace deposits composed of dense silty to clayey sands containing a few interbeds and lenses of sandy to silty clay. In Test Boring 1, the sandy portions were found to range from lightly cemented to cohesionless. Structure and Faulting Our field investigation indicates that bedding within the terrace deposits range from near horizontal to 5 _ .. • Project No. 5ll01W-SIOl Woodward· Clyde Consultants • approximately 5 degrees toward the south-southwest. Numer~ ous crossbeds were observed within these materials in Test Boring 1 and in existing cut slopes in the general area. • No faults or' indications of faults were observed during our reconnaissance, and no faults are mapped on the site. • Landslides Our studies did not reveal the presence of land- • slides on the site. Ground Water • No ground water seeps, spring?, or abnormally wet areas were observed during our visual reconnaissance or in the test excavations. • DISCUSSIONS, CONCLUSIONS, AND RECOMMENDATIONS The discussions, conclusions, and recommendations • presented in this report are based on the results of our field and laboratory studies, analyses, and professional judgment. e Potential Geologic Hazards Faulting and Ground Breakage -Our reconnaissance, • literature review, and subsurface explorations did not reveal the presence of any faulting on the site. e· • • • • • • • • • • • Project No. 5ll0lW-SIOl Woodward· Clyde Consultants The nearest known active fault along which seismic events of magnitude 4 or greater have occurred is in the Elsinore Fault zone, mapped some 22 miles northeast of the site. The closest significant faulting is the northern extension of the Rose Canyon Fault zone, which is mapped approximately 9 miles southwest of the site. No magnitude 4 or larger earthquakes have been recorded on the Rose Canyon' Fault zone. Liquefaction -The formational soils on the site are dense to very dense, and there is no apparent permanent ground water table within expected grading limits'. In our opinion, the liquefaction potential of,t~~ formational soils is very low. The topsoils, along with the loose fill soils encountered in Test pit 2, have a potential for liquefaction in a saturated state. In our opinion, this potential can be substantially reduced by over-excavation and recompaction as recommended under "Grading". Landslides -Our review and field investigations did not reveal the presence of any landslides on the site. Likewise, no remolded clay seams or near-horizontal bedding plane faults were encountered in the test excavations. Ground Water We do not expect that shallow permanent, ground water table is present within the proposed grading limits. 7 • • • • • • • • • • e· Project No. 5ll0lW-SIOl Woodward· Clyde Consultants Our field investigation did not reveal any ground water seeps, springs, or abnormally wet areas. We recommend that positive measures be taken to properly finish grade each lot after the residential struc- tures and other improvements are in place, so that drainage waters from the lots and adjacent properties are directed off the lots and away from house foundations, floor slabs, and slopes. Even with these provisions, experience has shown that a shallow ground water or surface water condition can and may develop in areas where no such water condition existed prior to site development; this is particularly true in years of heavy rainfall and in residential subdivisions where a substantial increase in surface-w.ater infiltration results from landscape irrigation. General Soil Conditions The materials expected to be used in structure fills and in constructed slopes are primarily silty to clayey sand containing a few sandy clay interbeds. Our selection of soil parameters for analysis ~s based on the results of laboratory t~sts performed on samples taken from similar formational soils in the Carlsbad area. Slope Stability We have performed stability analyses for the proposed slopes by the Janbu method using the following parameters: 8 • • • • • • • • • • • Project No. SllOlW-SIOl Undisturbed materials Compacted C' 300 psf 300 psf Woodward· Clyde Consultants y 25 pcf 125 pcf The results of those analyses indicate that the proposed 2 to 1 inclined slopes have calculated factors of safety against deep-seated slope failure in excess of 1.5 for static conditions. Stability analyses require using parameters selected from a range of possible values. There is a finite possibility that slopes having calculated factors of safety, as indicated, could become unstable. In our opinion, the probability of slopes becoming unstable is low, , . and it is our professional judgment that-'the proposed slopes can be constructed. Slope stability calculations are attached (Appendix C) . We recommend that an engineering geologist from our firm inspect all cut slopes during grading to verify actual geologic conditions and to provide design modifica- tions, if needed. If adverse conditions, such as clay seams or ground water seepage, are encountered during inspection, slope buttressing may be required. Buttress recommendations will be given during grading, if. necessary. It should be noted that friable, cohesio.nless sands were encountered in Test Boring 1, and may be exposed 9 • • • • • • • • • • •• Project No. 5ll0IW-SIOl Woodward· Clyde Consultants in the cut slope face when grading is completed. These materials are extremely susceptible to erosion and may require special landscaping procedures to reduce the poten- tial for slope erosion due to irrigation and rainfall. Proper landscaping procedures should be recommended by the project landscape architect. Grading We recommend that all earthwork be done in accor- dance with the attached Specifications for Controlled Fill (Appendix D). Woodward-Clyde Consultants should observe the grading nd test compacted fills. We recommend that a pre-constrqc~ion conference be held at the site with the developer, civil engineer, contrac- tor, and geotechnical engineer in attendance. Special soil handling and the grading plans can be discussed at that time. We recommend that all trash, construction debris, and waste materials be removed from the site before grading. We recommend that the fill soils and underlying loose topsoils in the vicinity of Lots 2 through 7 be entirely removed and recompacted. We recommend that all porous topsoils and other loose soils not removed by planned grading be excavated or scarified as required, watered, and then 10 • • • • • • • • • • • Project No. 51101W-SIOI Woodward-Clyde Consultants recompacted prior to placing any additional fill. We rec- ommend that the soil engineer evaluate the' actual depth and extent of excavation in the field at the time of grading. Highly expansive clayey soils could be e~countered at grade in areas of shallow cuts and fills (daylight areas) , or in deeper cuts. We recommend that these clayey soils be excavated, where encountered, over the entire level lot area to a minimum of 2 feet below finish grade, and then be replaced with properly compacted, nonexpansive soils or slightly expansive soils available on the site. The more clayey soils can be placed and properly compacted in the deeper fill areas. We recommend that the uppe:r:. ~_ .feet of materials in the fill areas be composed of finish grade, granular soils. Finish grade soils are defined as granular soils that have a potential swell of less than 6 percent when recompacted to 90 percent of maximum laboratory de~s~ty at optimum moisture content, placed under an axial load of 160 psf, and $oaked in water. We recommend slightly to moderately expansive soils, that is soils swelling between 3 and 6 percent, be compacted at moisture contents of 3 to 5 percent over optimum water content when they are used within 2 feet of finish grade. Foundations We recommend that foundations for structures founded in natural or properly compacted, nonexpansive 11 • • • • • • • • • • • Project No. 5ll01W-SIOl Woodward· Clyde Consultants soils be designed for an allowable soil bearing pressure of 2,000 psf (dead plus live load). In our opinion, this bearing pressure can be increased by up to one-third for transient loads caused by wind or seismic forces. For these bearing pressures, we recommend that all footings be founded a minimum of 12 inches below compacted fill or undisturbed cut lot grade, be a minimum of 12 inches wide, and be founded a minimum horizontal distance of 8 feet from slope faces. We recommend that foundations founded in. slightly expansive material be reinforced top and bottom with at least one No. 4 steel bar, and that the concrete slabs-on- grade be a minimum 4 inches thick and be underlain by 4 inches of coarse, clean sand and reinforced »y~_x 6, 10/10 welded ... wire mesh. A plastic membrane should also be provided under slabs. RISK AND OTHER CONSIDERATIONS We have observed only a small portion of the pertinent soil, and ground water conditions on the site. The recommendations made herein are based on the assumption that rock and soil conditions do not deviate appreciably from those found during our field investigation. If the plans for site development are changed~ or if variations or un- desirable geotechnical conditions are encountered during construction, the geotechnical consultant should be con- sulted for further recommendations. . 12 • • • • • • • • • • • Project No. 5ll0lW-SIOl Woodward· Clyde Consultants We recommend that the geotechnical consultant review all final foundation and grading plans to verify that the intent of the recommendations presented herein has b,een properly interpreted and inco~porated into the contract documents. We further recommend that the geotechnical consultant observe the site grading, sub grade preparation under concrete slabs and paved areas, and foundation ex- cavations. It should be understood that California is an area of high seismic risk. It is generally considered economically unfeasible to build totally earthquake-resistant structures; therefore, it is possible that a large or n.earby earthquake could cause damage at the site. Professional judgments presented herein are based partly on our evaluations of the technical information gathered, partly on our understanding of the proposed con- struction/ and partly on our general experience in the geotechnical field. Our engineering work and judgments rendered meet current professional standards. We do not guarantee the performance of the project in any respect. This firm does not practice or consult in the field of safety engineering. We do not direct the contrac- tor's operations, and we cannot be responsible for the safety of other than our own personnel on the site; therefore, the safety of others is the responsibility of the contractor. 13 • • • • • • • • • • • Project No. 51101W-SIOl Woodward· Clyde Consultants ' The contractor should notify the owner if he conside~s any of the recommended actions presented herein to be unsafe. 14 • .' • • • .. • project No. SllOlW-SIOl Woodward· Clyde Consultants APPENDIX A FIELD INVESTIGATION One exploratory test boring and three test pits were made at the approximate locations shown on Fig. 1. Our field work was performed between February 2 and)S, 1981 . The test borings were made with a truck-mounted 30-inch diameter bucket auger. The test pits were excavated by a John Deere Model 3l0-A backhoe. Representative samples of the subsurface materials were obtained from the test explorations and returned to our laboratory for examination. The locations of the test excavations and the elevation of the ground surface at each ,location were esti- mated from the plan prepared by Mr. Raymond R. Ribal, R.C.E. A-I • • • • • • • • Location Boring Number Elevation DEPTH TEST DATA *OTHER SAMPLE IN SOIL DESCRIPTION FEET *Me *00 ·Be TESTS NUMBER - 12 110 65 : I~ L...:- Very dense, damp, brown silty sand (8M) S!- WATE:LEVEL ] At time of drilling or as indicated. SOIL CLASSIFICATION Soil Classifications are based on the Unified Soil Classification System and include color, moisture and consistency. Field descriptions have been modified to reflect results of laboratory analyses where appropriate. '---DISTURBED SAMPLE LOCATION Obtained by collecting the auger cuttings in a plastic or cloth bag. '----UNDISTURBED SAMPLE LOCATION MODIFIED CALIFORNIA SAMPLER Sample with recorded blows per foot was obtained with a Modified California drive sampler (2" inside diameter. 2.5" outside diameter) lined with sample tubes. The sampler was driven into the soil at the bottom of the hole with a 140 pound hammer falling 30 inches. '-------INDICATES SAMPLE TESTED FOR OTHER PROPERTIES GS -Grain Size Distribution CT -Consolidation Test LC -Laboratory Compaction UCS -Unconfined Compression Test Test PI -Atterberg Limits Test DS -Direct Shear Test ST -Loaded Swell Test TX-Triaxial Compression Test CC -Confined Compression Test NOTE: In this column the results of these tests may be recorded where applicable. '----------BLOW COUNT Number of blows needed to advance sampler one foot or as inqicated. '------------DRY DENSITY Pounds per Cubic Foot '--------------MOISTURE CONTENT Percent of Dry Weight NOTES ON FIELD INVESTIGATION 1. REFUSAL indicates the inability to extend excavation, practically. with equipment being used in the investigation. KEY TO LOGS LAGUNA r\IVER.Il\..UnIT 11 DRAWN BY: ch CHECKED BY: <;F>D PROJECT NO:51101W-SI01 . DATE: 2-12-81 I FIGURE NO:A-1 ~----------~--------~~~------~~~~~~~----~~~ WOOOWARO-Cl VOE CONSULTANTS • • • • • .. • • • • .- DEPTH IN r----r----~--~ FEET 1-1 1 1-2 1 1-3 2 1-4 1-5 25 1-6 3 3 4 *For description of symbols, see Figure A-l Boring 1 te El. 53' SOIL DESCRIPTION Loose, damp, red-brown, clayey to silty sand (SC-SM) TOPSOIL Dense, moist, brown, silty to silty clayey, medium sand (SM) with occasional red-brown staining TERRACE DEPOSITS Trace clayey gravels ~ ___ Contact attitude N4°W 15°N Dense, moist, browp, silty coarse sand- (SM-SP); lightly cemented and cohesionless TERRACE DEPOSITS Cross-bedding N25°E 22°S at 14' Clayey gravels Dense, moist, brown, clayey sand (SC) interbedded with stiff, moist, gray, -sandy to silty clay (CL-CH) TERRACE DEPOSITS Dense, moist, gray-brown, silty medium sand (SM) TERRACE DEPOSIIS Becomes light gray-brown Bottom of Hole LOG-OF TEST BORING 1 LAGUNA RIVERIA UNIT 11 DRAWN BY: ch I CHECKED BY~~\) I PROJECT NO: 51101W-S101 I DATE: 2-12-81T FIGURE NO: A-2 WOODWARD-Cl VDE CONSULTANTS • • • • • • • • .- DEPTH IN r----r----r---~ FEET 1 1 __ ___ _ _ __ .L ___ --lL ______ -1--__ I DEPTH TEST DATA ·OTHER IN TESTS FEET ·Me -DO ·BC 5_ 10_ 15- *For description of symbols, see FigureA-l 2-1 2-2 2-3 2-4 2-5 SAMPLE NUMBER 3-1 ~ 3-2 3-3 C 3-4 ·L :!1111111:~1111: .. \ .: ,-~ .i~ '1IIIIIililIIII \ Test pit 2 imate El. 33' SOIL DESCRIPTION Loose, moist, dark brown, clayey sand (SC) TOPSOIL Stiff, moist, brown, sandy clay ~o clayey sand (CL-SC) TOPSOIL L - - - ---Grading to-- '\. ~ Dense, damp, light red-brown, silty sand (SM) TERRACE DEPOSITS Dense, moist, .light gray-brown, clayey fine sand (SC) TERRACE DEPOSITS Contact attitude N25°W 110S Dense, moist, light gray-brown to liqht red-brown, silty sand (SM) TERRACE DEPOSITS Bottom of Hole --" .. -. Test pit 3 Approximate El. 25' SOl L DESCRIPTION Damp to moist, light brown to light gray- brown, clayey to s.ilty sand FILL Loose, moist, black, silty sand (SM) i porous I caving TOPSOIL Medium dense, moist, dark gray, clayey sand (SC) and sandy clay (CL) TOPSOIL Dense, damp, gray-brown, very clayey fine sand (SC) TERRACE DEPOSITS Bottom of Hole LOG OF TEST PITS 2 AND 3 LAGUNA RIVERIA UNIT 11 DRAWN BY: ch I CHECKED BY:e.~9 I PROJECT No:5110lVI-SIOl I DATE: 2-12-81 I FIGURE NO: A-3 WOODWARD-CLYDE CONSULTANTS· • '. • • • • •• • • • • DEPTH TEST DATA I.~~ .. en SAMPLE IN ~ __ ~ __ ~ __ ~I-v'n~n FEET *MC *DD "BC TESTS NUMBER - 5 _ 4-1 [ -~. -4-2 10 -4-3 i\ - 15 - - - - - - *For description of symbols, see Figure A-I Test pit 4 Approximate El. 39' SOIL DESCRIPTION Damp, brown, light gray to light red- brown and dark gray, silty to clayey sand COMPACTED FILL 1'1edium dense, damp, light brown, s;Llty sand (S1'1) TOPSOIL Dense, damp, mottled gray to black, clayey sand (SC) TOPSOIL Bottom of Hole LOG OF TEST PIT 4 LAGUNA RlVERIA UNIT 11 DRAWN BY: ch I CHECKED BY~S) I PROJECT NO: 51101-SIOl I DATE: 2-12-81 I FIGURE NO: A,,:,4 . WOODWARO·CLYDE CONSUL rANTS .' • •• •• • • • • •• Project No. 51101W-SI01 Woodward· Clyde Consultants APPENDIX B LAGUNA RIVIERA UNIT 5 OFFSITE FILL AREAS A AND B CARLSBAD, CALIFORNIA Dated April 5, 1972 B-1 ---. --------:----.---~ .~-----.-.-.~-, • • • • • • • • • • Ap ril 5, 1972 Project No. 72-105-1 KalT;ar Construction Company P.O. Cox 71 Carlsbad, California 92008 Attention: ":1'. Jel'ry Rombotis U~GLrrlA RIVIERA UiiIT 5 OFr~ITE rILL ~REAS A AND B CA~LsnAD, CALIFORNIA In accordance with,your request and your letter of authorization dated January 12, 1972, ~'/e have provided soil engineering services in conjunction with the grading of the subject site. These services included: (1) Engineering observation of the grading operation. (2) Taking field density tests in the fill as placed and compacted. Current site preparation, compaction and te~'t:;~:~ :~/ere done between January 6 and 24, 1972 'in accordance with the IISpec ifications for ,the Construction of Controlled Fills" presertr:Q in the January 6, 1966 addendum to the IIFoundation Soils Investjgu-t:.ion for Rancho Agua Hedionda Subdivision" dated July 29, 1965, prepared by Dresselhaus Engineering of Oceanside, California . Fill was placed, compacted and tested on Offsite Fill Areas A and B. The approximate limits of fill are indicated on the attached figures. Prior grading was done on June 10, 1969 in a portibn of Area A. As the site grading progressed, the compaction procedures wel'e observed and field density tests were made to determine the relative compaction of the fill in ploce. Field observations and field density test results indicate thiit !.he fill has been compacted to 90, percent or more of maximum laboratory density. The approximate locations of field density tests and the li;T)its of cor~acted fill are shown on the attached Figures 1 and' 2. The results of field density tests and of relative compaction, ex~ressed as a percent of ll'd>:i::.um laboratory density, arc given on the attached forrls . Lc!l'o~'dtory tcs~s to dcter;:-;ine nt0isture-density relationships, maximum dry dCf:sity, opt1nJm rnoisture cO!1~~nt, grc.ln si7.e di~,lribution, plasticity c/iarcicteristics and strc/"i(lb and 5\'.'211 ch"r(lcterist';cs I':ere rerformcJ on rc;rc<;cntaUvc si'l!l';Jles of-tl;e rncTJ.:riill used for fill. The results of 1 al ordtory tes ls are gi ven on the attached forms. It is our t;llccrstanding til3t additiollal grading I>/ill be done in these • •• e, • • • • • • ." Kamar Construction Company Project No .. 72-105-1 .April 5, 1972 Page 2 areas at a future date. foundation recommendations will be made in our final report at the completion of all grad~ng. The elevations of compaction,tests correspond approximately to the eleva- tions sllO'.'I'n on the grading plans for "Laguna Riviera Unit No.5" dated October 1967 and prepared by Raymond R. Ribal, Civil Engineer, Brea, Ca 1 itorni d. This report 'covers the fill placed under our observation :luring tl.e dates specified above. Additional fill placed after these dates slJould be com- pacted under the obser"ation of thi's office and tested to assure compliance with the earthl'/ork specifications of the project. This offi.ce should be contacted at least 24 hours prior to backfilling operations. The inspections and tests of compaction made during the period of our ser- vices on the subject site \'Jere in accordance \-/ith the local.acceptable standards for this period. The conclusions or opinions drawn from the tes ts and site ins pecti ons apply on ly to our work I'/ith respect to gradi ng and represent conditions at the date of our final inspection. We will accept no responsibility for any subseauent changes made to the site by others or by uncontrolled action of \'later or by failure of others to properly repair damages caused by uncontrol~ed action of water • EH?/JLH/SFG/jm Attachments (7) WOODWARD· GIZIENSKI & ASSOCIATES • • ..... "/ • /f::J • • .' • • • FOr Leg~1d,See Figure 2 • • t .,',,' • ; ... <.~,:':~.: .... ':::;' .. A~ .. ~~: i .. ':. . A-7 1 ".' f I . \ I I \ \ \ \ , I I ' . I Offal te Area B See Figure 2 I I' I ~ ~SubdlvJslOn Boundary .... ~ ------.:. FI ElO DENSI TV TEST LOCATIONS OFFSITE FIll AREA A LAriUHA RIVIERA llt!IT 110. 5 hOJDWARD -GlZi8JSKI & ASSOCIATES COKSULTING SOIL ~WO FOUNDATION EHG/NEERS AHD' GEOLOGISTS SI.I4-OI£GO CAlIFOKli/A . • • • • • • • .' • • . ~ .... "~.:.......' ;;;:;;;.-=='." -:!:C., ='''="'-'~~~~~~~~~~=====rl lP-' .. '..... ---.. ---I' ~ ..... " , / ••••••.. J ", ......... , , '-, ,:" ...., I , I , "', I , I ' l, ....... _ .. -...... , --',----... " ,.. I. '. ... , I' I .~ -.. : •• '.'" I.(:~~. :, . \ ..• B-21 -.' . , . " .,'; .. , \ ., " " ' 8-2 \ \ 6-19' 682010-.6-12 ~,. ..roa-ISo ee-I~ ea-15 \ \. • -~ B-1 \j .'\ ,/. -'.' " . -, \ . 0 ;,.~Y', ........ 8-9 .• Bwl B~I'. ""\ ~B-17B-2.f'· ~~ .. :"-ii-lIo·lf-3· &8-7 ;;.0 -8 \ ~.8-18./' '":'---!.fL-6 ,: " oS-4 ......... .. .. SubdivisIon Boundary ':. :.-' ::::~ ~:; /~: - Hillside Drive LEGEND • Indicates approximate location of Field Density Telt Dlndlcates approximate limits of Tested Fill • FI ElD DEliSI Tf TEST lOCATl ONS OFFSITE FILL AREA B LAGUNA RIVIERA UIIIT flO. 5 . hOOMRD -GIZ 18~SKI & ASSOCIATES CONSULTING SOIL AND FOUHDATIOH ENGINEERS AND GEOLOGISTS Sh~ nl[r~, CAll~O~HIA '. l. CoR. BY: !!~;.' • • • • • • • • • • • tOMPACTION TEST RESUL 1\ LAGUNA RIVIERA UNIT 5 (Offsite Fill Area A) 72-105-1 DATF.S COVERED June 10. 1969 and Janua ry 6 through 24, 1972 J,(OI.TU,UC: 04U ft.,. "na:aT LOCATION ELE.VA1'ION CO~TEHT tcu .... t.,. 01' 0"-lEST .,.. DAY WT. 1969 JUNE 10 A-l SEE FIGURE 1 64.0 1 11.7 A-2 66.0 1 12.3 A-3 : 54.0 I 11.7 A-4 68.0 1 10.5 A-5 38.0 1 10.5 A-6 41.0 I 11. 1 1972 JMI6 A-7 44.0 1 9.9 ---A-8 47.0 1 10.5 A-9 70.0 1 9.3 A-10 72.0 1 9.3 JAN 21 A-ll 72.0 1 !:J.9 JAN 24 A-12 74.0' 10.5 .. ~ ... '';.~ ~ ~ DATE Rr:.-oPiTEO 4 -5-72 PAG!: 1 01'" 1 ,.teLD LA.OrcA TOllY 'UtU TIVI: lla ... alTY D~NIITY 'COHr~CTIOH PC" rf:, ' .. 0" LAn. L1~H •• 116.8 125.0 93.4 118.0 125.0 94.3 116.0 125.0 92.6 114.9 125.0 91.8 115.2 125.0 92.3 116.0 125.0 92.8 1'12.9 125.0 90.2. 116.2 125.0 93.4 113.0 124.5 91.0 113.2 125.0 91.0 116.5 127.0 91.8 116.8 1:27.0 . 92.0 WOODWARD. GIZIENSKI & ASSOCIAHS :. • • • • • • • • • • ." .;.;OMPACTION: TEST RESUL"f.. Jo. N ... J,fr. LAGUNA RIVIERA UNIT 5 (Offsite Fill .Joe NUMIiUt 72-105-1 DATES COVEReD Ja!'luary 12 through 18, 1972 . 04,,1( nr_T _nC.T '-,"CA.T'ON kU",.c," C>, JAN 12 8-1 SEE FIGURE 2 B-2 B-3 JAN 13 8-4 8-5 8-6 8-7 8-8 8-9 JAr~ 14 8-10 8-11 8-12 8-13 8-14 B-15 8-16 JAN 17 8-17 JAN lS 8-18 8-19 8-20 8-21 8-22 ----------~-------------- Area B) DATil: RI:POAUD 4-5-72 PAGI: 1 o~ 1 NOt.TU ... ,.aLO &....A .... OlltATOlty ft£LATIVI: at.I:.VATION COHTl.kT DC""'."Y O""-.'TY COM,. ... CT'OH O"TIrST "" OilY WT. t<, 1'<:.' ..... 0" LAD. (.JI.,.,. -----------_._- 78.0' 9.3 122.B 131.0 93.5 84.0' . 9.9 115.0 124.5 92.9 82.0' 9.3 113.9 122.5 93.0 8S.0' S.7 113.5 125.0 91.0 90.0' 10.5 121.0 127.0 96.0 84.0 ' 9.3 116.0 124.5 92.9 92.0' 10.5 112.0 124.5 90.2 94.0' 11.0 117.0 125.0 93.9 86.0' 10.5 116.0 125.0 . 93.0 80.0' 7.5 118.5 131.0 90.6 90.0' 10.5 115.0 122.5 93.7 84.0' 11. 7 ' 114.5 122.5 93.5 94.0' 10.5 115.B 125.0 92.5 96.0' 8.7 122.0 131.0 93.2 98.0' B.7 121.5 131.0 93.0 92.0' 9.9 117.5 125.0 94.0 ~ .~ ~ -". 72.0' .. ,", 7.5 122.8 131. 0 93.6 74.0' 8.7 112.2 122.5 91.7 76.0' 9.3 115.2 124.5 92.6 78.0' 10.3 113.8 124.5 91.3 BO.O' 6.9 110.8 122.5 90.3 . 82.0' 9.3 115.9 124.5 92.9 ) WOODWARD· GIZI£NSKI & ASSOCIAHS (0.-.\1."".,.. ~"" ."'0 'O»H .... l~ ...... · .. -•• , ."0 ~O\04I't\ . -----, --. -----------< -_. -------_.-• " • ..::'..:-::---~- • • • • • • • • • • • 13 0 120 110 100 90 = ......... ,1_............. --_ ..... _;::;::o:t 100 DIRECT SHEI.R TEST [)',TA 1 2 3 Pry Oen,lty. pcf 111. 1 80 (:J a:: Initial \,/(!t~r Conten,t. ~ 9.3 ~ 60 < 15.9 c... final WBt~r Content. ~ .... ./~parent C~~esio~. p$f 450 Q '10 u "" w Apparent Friction Angle. ~ 23 0.. 20 f.~CU/JHCfJ. IJIAtYSI S a 4 ij 10 ~ LJ~ '\\'. I n ~~~.-3 . ..\ -) \,.",. .2- ...... , \ 1- 1- ~' .. k-±--\ ..... ~~I , ' , I , I I I I I "":j::'Y ';'"~-J I! or 1000 100 10 1.0 9.'1 0.01 O.COI \ ~~~ZERO AIR VOIDS CURVES r,rV . '. GRAIH SIZE IK I!II.lH~EJERS· r-lSllT i CLI.'f \ _\ ~ L1 d.~ :> OJ. / It -~~ ,,,) 00-~ II t-ill ~ t- 5 >-u: Q HAXII1UH DRY D£IlS I TY. pcf f\ rr'2.70 S.6. j .\ J)../2.60 S. G. 1\ f\y2~50 S.G. r~~' \\1\\ 1\ \ \ \tl \ \ \ 1\ ?-l'\ f\ '-. i\ r\ '\ '\ j\ t\ .: '\ '\ \ f\ . ~, \ \ \ !\ 1\ ~ \ \ \ 1\ \ 1\ . PLASTI CITY CH ARACTERISTICS Liquid lit:lit; Plasticity lno ex. r. CI a $ S i fica t i 011 by Unified SOil Systcm ' Classificatiol'l NP = NO.n Pl asth: . .... : !.:-::-::. SWELL TEST DA TA Ini tial Dry Dt> nsi ty, pef ' Ini ti a1 tlaler Con tt:nt. "t load. psf Percent SI'.-ell : : 1 ~H-sr4 1 r\ \ SAt-.lPLE lOCA T I ON \~ ~ 1\ 1 2 3 h," 125.0 122 -Pti nl 1 2 Lot 1(;0 Lots 139-140 SEnd Cut, II Enrl of ' Lot 139 2 3 NP SH. SH 2 3 OPTl~~!C HOISTURE .~ L ... ~'~_ 3 9.5 6.5 _ 9.d'.~ ::5\, --------.~------~ , : .. / -1 I ""'/I"~/-':.vl' 10 20 30 40 j I. 1),/r ... ""U..l M";," , ~BORAlORY CO PACT! 0:: 1 ES;.:.T ________ /'_"'_" _' ___ 2_:_t ... _(~_.#_(.,.._._" _L-r. ___ ,/"_'_i_p_O ccmEHT. 1, I I I 11 I . If /'-,.~. I I I -, ~~OISTlJilt CONTftIT. r.; -I. 1~1 I I. I USORATOi?Y W":PACTIOH Fill SUITADILI TV TESTS ,. lAr,U~ll\ rnVIEr!J\ U':IT 5 , l-----------_ -'I I..JOUD:':ARi) -Gill r;~SK I t. ASSQC I (1)2)' f'l W:5UllIHc.. SOIL I,~~ r(lU~:y,f1l'l/ EN~!,/i[f.I!S MiO GEOlO~15iS ~ _____ -.," Ii PI .. ,), CI.tlH"~IA __ 'I ,r.::. : .. : :.') ,:"'::-: _... ~-~ .. ~.I. '~f:·l~I~. : TEST HETHO:J: ISIi·: 1)15:'7 -70T 1_(,,,:-;:--·::-· -;-:-:--~I· :7:-:-'" ~ 1 '1 .,.) 1··\ or • -(1"-". .. .. , " L' t ......... " .'.. .... .J _ • _I {. .. r I I, " 1.!:::_=_~""_='='===:::::._='I=~~'_'_'b~ __ "-~·.-:-"":"·-........... ""'~~.=.~.-~=.. ___ ..... -...~),'"'-\;.'.--....._--:-w __ '~..:, • • • • • • • • • • • " r .;.:;...=_;;.;;.;.;;;-.. ==_::::.;;:_:;;;: __ :;:-:::= .. "01 ........ __ = .. ::::::::;:; .. ::;::==::::;:.;.;.;::;;~. • c i , 1 I' t, , ; ~ . , 1 f . \ i i { ! I r 1 I , I r J ~ ~ • I f I I f [JIF:[CT ~:!::-!.'! ITsr D/\TA 7 .- Dry D~~~;tr. pef 114.4 Initial \;:lter Cont""t. 31 9.0 ~ final \{.!tC'( Ccnlcnl. .-15.1 H -, ~ppa~cnt Cohesion. psf 360 J.i'parent fricti'1n Angle. r. 25 litO 13 't ~i?ZERO AIR VOIDS CURVES 1---1--~~ , ' I---- 1--1--2.70S.G. 0 1-;-2,60 S.G. \ \ 1-1-,--2.50 S.G~ ,-V'-,\ \, - 120 / '\f\f\ ,-. ! J ; f\. \ .-, ' -\ !\ ~---'--, 1\ ... '-." ~. u l\ \ \ .. , , " a. -.- 110 . \ 1\ f\ , . G l\ \, , , , ~ \ f\ ... - :5 1\ ~S~ .. -- >-~ Q f\ 1\ 100 \ \. 1\: " \ :.\ ~ ~ \ \~ -~ I~A~ II~UH DRY 7 C~HSI TY. pcf 127.0 CI'TlKU!f ~OI5TUilE cc"nf.I/I. 'f, 10.0 I I I I I I I I I I I I I H0ISTU>:E COHT[IIT. . . L---- <!> :r. 100 80, •• i' H£CHMIClll. /.,'iM:YSIS' a Q ~ 10 i,..) <',,0() , ---i~,-----3~ ,-i\_ --" -~ _l _1 .1 1 Ll I-_.- I-_ ... -,,-f---, -' - f--- A~ H II I t - t I I, I t I-o 1000 10 0 I 001 0 :11 il 100 10 . .if GRAtH SIZE Iii HII.l H:ETf.PS I • I " fi syr'V~LJ '''If-ri: COSBLES .... II, '~_'U SILl, & Cll;-. cIt J c! t, , , I: PLASTI CITY CHARACTER I STI CS 7 liquid lit:1;t. r. 30 , Plastic; ty Inoex. r. 16 Classification by Unified Soil "sc Classification System " ' , '. -::/;~: .. :; .:.'::~ :.:. ~;:" " . , ' ........ .. ' . ~:. '.": ! ;.;;. " .' SNEll TEST DATA 7 11\; t ial Dry Density. pd, 114.6 Ini lial Water ContE:l\t. :;.. 10.2 I ' Load. psf 160 Percen t SI-Ie II 2.3 " > ,~ , . , - . ' SAMPLE LOCATIOH ~ l\.~ 7 Lot 148 , r\" ~~ ~ chv!Jrl4: r\.. ~ h //6 iJ I l'-. tiJ . I • • • • • • • • • • • Project No. 51101W-SIOI Assumptions: APPENDIX e LAGUNA RIVIERA, UNIT 11 SLOPE STABILITY CUT eLOPES (1) Maximum height of slopes (2) Maximum slope inclination (3) unit weight of soil (4) Apparent angle of internal friction (5) Apparent cohesion (6) No seepage forces . References: H = 30 2 to 1 y = 125 <P = 33 0 C = 330 (1) Janbu, N., "Stability Analysis of Slopes with Dimensionless Parameters, -" Harvard Soil Mechanics Series No. 46, 1954. . __ pcf psf (2) Janbu, N., "Dimensionless Parameters for Homogeneous Earth Slopes," JSMFD, No. SM6, November 1967. Analyses: Safety Factor, F.S. c = yH Acf yII tan 1> (125) (30) (tan = = c 300 From Fig. 10 of Reference (2 ) N = cf' F.S. = 2.2 e-l Where Ncf is the stability number for slopes with -both c and <p. 33 0 ) = 8.1 27 • • • • • • • • • • •• . t project No. 51101W-SIOI Assumptions: APPENDIX C (continued) LAGUNA RIVIERA, UNIT 11 SLOPE STABILITY CUT SLOPES (1) Maximum height of slopes (2) Maximum slope inclination (3) unit weight of soil (4) Apparent angle of internal friction (5) Apparent cohesion (6) No seepage forc~s . References: H = 30 2 to 1 y = 125 <j> = 33 0 C = 300 (1) Janbu, N., "Stability Analysis of Slopes with Dimensionless Parameters," Harvard Soil Mechanics Series No. 46, 1954 . pcf psf (2) Janbu, N., "Dimensionless Parameters for Homogeneous Earth Slopes," JSMFD, No. SM6, November 1967. Analyses: Safety Factor, F.S. c = yH Acf = yII tan 9' == ( 125) (3 0) (tan c 300 From Fig. 10 of Reference ( 2) N = cf' F.S. == 2.2 C-2 Where Ncf is the stability number for slopes with both c and cp. 33 0 ) = 8.1 27 • • • • • • • • • • • Project No. 51101W-SIOl I. GENERAL APPENDIX D SPECIFICATIONS FOR CONTROLLED FILL These specifications cover preparation of existing surfaces to receive fills, the type of soil suitable for use in fills, the control of compaction, and the methods of testing compac- ted fills. I-t shall be the contractor's responsibility to place, spread, water, and compact the fill in strict accord- ance with these specifications. -A soil engineer shall be the mvner' s representative to inspect the construction of fills. Excavation and the placing of fill shall be under the direct inspection of the soil engineer, and he shall give written notice of conformance with the specifications upon completion of grading. Deviations from these specifications will be permitted only upon written authorization from the soil engineer. A soil investigation has been made for this pro- j ect; any recommendations made in the report of the soil investigation or subsequent reports shall become an addendum to these specifications. II. SCOPE The placement of controlled fill by the contractor shall includE; all clearing and gr~bbing, -remoyal of existing unsat- isfactory material, preparation of : the -areas to be filled, spreading and compaction of fill in the areas to be filled, and all other work necessary to complete the grading of the filled areas. III. MATERIALS 1. Materials for compacted fill _shall consist of any mater- ial imported or excavated from the cut areas that, in the opinion of the soil engineer, is sui table for use in con- structing fills. The material shall contain no rqcks or hard lumps greater than 24 inches in size and shall contain at least 40% of material smaller than 1/4 inch in size. (Mater- ials grea-ter than 6 inches in size shall be placed by the contractor so that they are surrounded by compacted fines; no nesting of rocks shall be permitted.) No material of a perishable, spongy, or otherwise improper nature shall be used in filling. 2. Mat~rial placed within 24 inches of rough grade shall be select material that contains no rocks or hard lumps greater than 6 inches in size and that swells less than 3% when compacted as hereinafter specified for compacted fill and soaked under an axial pressure of 160 psf. D-l · ... • • • • • • •• • • •• Project No. 5ll0lW-SIOl APPENDIX D (Continued) 3 . Representative samples 9f material to be used for fill shall be tested _ .. in the laboratory by the soil engineer in order to determine the maximum density, optimum moisture content, and classification of the soil. In addition, the soil engineer shall determine the approximate bearing value of a recompacted, saturated sample by direct shear tests or other tests applicable to the particular soil. 4. During grading operations, soil types other than those analyzed in the report of the soil investigation may be encoun·tered by the contractor. The soil engineer shall be consulted to determine the suitability of these soils. IV. COMPACTED FILLS 1. General (a) Unless otherwise specified, fill material shall be compacted by the contractor while at a moisture content near the optimum moisture content and to a density that is not less than 90% of the maximum dry density deter- mined in accordance with ASTM Test No. D1557-70, or other density test methods that will· obtain equivalent results. (b) Potentially expansive soils may be used in fills below a depth of 24 inches and shall be compacted at a moisture content greater than the optimum. moisture content for the material. . "-.' ..... . 2. Clearing and Preparing Areas to be Filled (a) All trees, brush, grass, and other objectionable mater- ial shall be collected, piled, and burned or otherwise disposed of by the contractor so as to leave the areas that have been cleared with a neat and finished appear- ance free from unsightly debris. (b) All vegetable matter and objectionable material shall be removed by the contractor from the surface upon which the fill is to be placed, and any loose or porous soils shall be removed or compacted to the depth shown on the plans. The surface shall then be plowed or scarified to a minimum depth of 6 inches until the surface is free from uneven features that would tend to prevent uniform compaction by the equipment to be used. (c) Where fills are· construct'ed on hillsides or slopes, the slope of the original ground on which the fill is to be placed shall be stepped or keyed by the 'Contractor as shown on the figure on Page 4 of these specifications. The steps shall extend completely through the soil mantle and into the underlying formational materials. D-2 06 • • • • • • • • • • • • Project No. 5ll0lW-SIOl APPENDIX D (Continued) (d) After the foundation for the fill has been cleared, plowed, or $carified, it shall be disced or bladed by the contractor until it is uniform and free from large clods, brought to the proper moisture content, and compacted as specified for fill. 3. Placing, Spreading, and Compaction o_f Fill Material (a) The fill material shall be placed by the contractor in layers that, when compacted, shall not exceed 6 inches. Each layer shall be spread evenly and shall be thorough- ly mixed during the spreading to obtain uniformity of material in each layer. , (b) When the moisture content of that specified by the soil added by the contractor until specified. the fill material is below engineer, water shall be the moisture content is as (c) When the moisture content of the fill material is above that specified by the soil engineer, the fill material shall be aerated by the contractor by blading, mixing, or other satisfactory methods until the moisture content is as specified. (d) After each layer has been placed, mixed, and spread evenly, it shall be thoroughly compacted by the contrac- tor to the specified density,." Compactipn shall be accomplished by sheepsfoot rol:l~,is, vibratory rollers, mul tiple-vlheel pneumatic-tired rollers, or other types of acceptable compacting equipment. ' Equipment shall be of such design that it ,vill be able to compact the fill to the specified density. Compaction shall be continu- ous over the entire area, and the equipment shall make' sufficient trips to insure that the desired density has been obtained throughout the ~n~ire fill. (e) The surface of fill slopes shall be compacted and there shall be no excess loose soil on the slopes. v. INSPECTION 1. Observation and compaction tests shall be made by the soil engineer during the filling and compacting operations so that he can state his opinion that the fill was constructed in accordance with the specifications. 2. The soil engineer shall' make field density tests in accordance vd,th ASTM Test No. D 155664. Density tests shall be made in the compacted materials below the surface where the surface is disturbed. When these tests indicate that the density of any layer of fill or portion thereof is below the ,specified density, the particular layer or portion shall b~ revlOrked until the specified density has been obtained. D-3 ,4: _, • • • • • •• • • • • e· Project No. 51101W-SIOl APPENDIX D (Continued) VI. PROTECTION OF WORK 1. During construction the contractor shall properly grade all excavated surfaces to provide positive drainage and prevent ponding of water. He shall control surface water to avoid damage to adj oining properties or to finished work on the site. The contractor shall take remedial measures to prevent erosion of freshly graded areas and until such time as permanent drainage and erosion control features have been installed. 2. After comI2letion of grading and when the soil engineer has finished h1S observation of the work, no further excava- tion or filling shall be done except under the observation of the soil engineer. ! " , .' ~:.' '. -. " ., ,... ::"~::' ... :: ..... ~.~~. ...... '. -.......... :,: '.' ,.: f .. ; .. , : '.: ,: :' ,.... _ .... Strip as specified .. ' .. ''-: .... ' ... l.:·:.', .. :~ .. :._ .~ :.: :~:.:_: .. _:~:' .-i,:= ' .. :'. . . .. '\ -.. ':' ........ :. :' .. '.". '::-':>"':' .' " .,.' "': /.' , Or~iginal ground "Slope ratio == N .. ' " . , M NOTES: The minimum \vidth liB" of key shall be 2 feet wider than the. compaction equipment, and not less than 10 feet. The outside edge of bottom key shall be below topsoil or loose surface material. Keys are required where the natural slope is steeper than 6 horizontal -to 1 vertical ~ or where specified by the soil englneer. D-4 • • • .' • --• • • '-"-\ \ \ \ 50 \ \. ALONDRA DRIVE / / _, I " / '-.....- / / / ---/ " / '-- / I / /' ",-'60 / \ "1' . . . . I. : V ---. , "- \ LOT 2 \, I I at VALENCIA AVENUE . . . . . . . . . .-.. 3 . . . . . . . " .. ~., . . .. . lAJ·· .~ ... ·0/·:.··.: >,/' .. ... . ,...,... /' LOT ~.~: / /':O~~ LOT 4 / .....-/' I I J ---/ I / / I /' / I I 50 I I~ I I / \ / \. / ---- -....... ___ /' -50 '-/' ---- 40-_ "-'\. \ \ LOT 6 I I I / I { \ ) / I / "-'-" 2 [IJ LOT 7 at / 40 w > -a: c ~ a: < Q. LEGEND: -/ ", -- Of Ocf Qt Indicates approximate location of T est ~ Boring. Indicates approximate location .of Test PfL -.. ~~ InclCates approximate location of existing ground surface contour. Indicates approximate location of geologic contact. Indicate~ _~p'proximate location of existing cut slope ~. Indicates approximate location of exiSting fill slope. Indicates approximate linits of Fill Indicates approximate limits of Compacted Fm Indicates approximate runits of Quaternary Terrace Deposits. o 30 60 1 1 GRAPHIC SCALE (Feet) SITE PLAN AND GEOLOGIC MAP LAGUNA RryERlA UNIT 11 DRAWN BY: ch FIGURE NO: 1 • ________________________________________________________________________________________________________________________ ~D~A~T=E: __ 2~-~1~2~-~8~1~ __ _L~~~~~5~1~1~0~1~W~-~S~I~O~1 __ _J WOODWARD-CLYDE CONSULTANTS