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Home My WebLink AboutCT 82-08; THE CREST AT CALAVERA HILLS; UPDATED GEOTECHNICAL INVESTIGATION; 1983-04-26• • • • • • • • • UPDATED GEOTECHNICAL INVESTIGATION LAKE CALAVERA HILLS VILLAGE G CARLSBAD, CALIFORNIA CT, ~2-8 PREP ARED FOR: Pacific Scene, Inc. 3200 Harney Street San Diego, California 92110 PREPARED BY: Southern California Soil & Testing, Inc. Post Office Box 20627 6280 Riverdale Street San Diego, California 92120 • • • • • • • • • • • SOUTHERN CALIFORNIA SOIL AND TESTING, INC. 6280 RIVERDALE ST. SAN DIEGO, OALIF. 92120 • TELE 280-4321 • P.O. BOX 20627 SAN DIEGO, PAL:-IF". -92120 74-831 VELIE WAY PALM DESERT, CALIF. '32260' TELE 346-1078 6 7 BEN T E R P R I S EST. ESC 0 N 0 lOa, CAL IF. '3 2. 0 2 S • TEL E 7-4 I? -4 S _ 4 4 Ap ril 26, 1983 Pacific Scene, Inc. SCS&T 14143 3200 Harney Street Report No.2. San Diego, California 92110 SUBJECT: REFERENCES: Gentlemen: Report of Updated Geotechnical Investi'gation for Lake Calavera Hills Village G, Carlsbad, California; 1) 2) Geotechnical Investigation for Village G a·nd J-, Cala- vera Hills, by Woodward-Clyde Consultants, dated August 11, 1980. Grading Plans Prepared by Rick Engineering, undated. 3) Earthwork Package for Village G, Prepared by Southern California Soil & Testing, Inc., dated Marth 23,1983. I n accordance with your request, we have revi ewed the above referenced reports and utilized the information derived from the earthwork package report to develop this updated report. The findings and recorrmehdations of our study are presented herewith. In general, we found the site suitable for the proposed development pro- vi ded the recommendati ons presented in the attached report are followed .• SOU THE R N CAL I FOR f'l I A SOl L AN D T EST I NG, INC. • • • • • • • • • • • SCS&T 14143 Apri 1 26, 1983 Page 2 If you have any questions regarding this report, or if we may be of fur- ther service, please do not hesitate to contact our office. E. N. Ketchum, R.C.E. #26267 ENK:CRB:DBA:rrw cc: (6) Submitted (1) SCS&T, Escondido Curtis R. Burdett, C.E.G. #1090 SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • • • • TABLE OF CONTENTS PAGE I nt roduct ion • and Project Description ••••••••••••••••••••••••••••••••••••• 1 Scope of Service ••••••••••••••••••••••••••••••••••••••••••••••••••••••• ~.1 Recommendations and Conclusions •••••••••••••••••••••••••••••••••••••••••• 3 General •.•..•..•............••...•....•••.•.•.•......•....••..•••... ~3 Grading •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• 4 Site Preparation •••••••••••••••••••••••••••••••••••••••••••••••• 4 Select Grading •••••••••••••••••••••••••••••••••••••••••••••••••• 4 R; ppabi 1 ; ty ................................... ~ ..... ~ ........... 5 Seismic Traverse No. S-1 •••••••••••••••••••••••••••••••••••••• 5 Seismic Traverse No. S-2 •••••••••••••••••••••••.••••••.••••••• 5 Rock Disposal •••••••••••••••••••••••••••••••••••••••• ~ •••••••••• 5 Undercutting •••••••••••••••••••••••••••••••••••••••••••••••••••• 6 Earthwork •••..•••..••.•••••••••.••••.••..•.••••.••.••••••••••.•• 6 Drainage ••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• 6 Genera 1 ••••••••••••••••••••••••••••••••••••••••••••••••••••••••• Subdrains .......•..•........•..•.•••.•••..•.•.•••....••..••••••• 6 Slope Stability and Stabilization •••••••••••••••••••••••••••••••••••• 6 General •...•.•.....••..••.•••.•••••••.•••••.•••••..••••..•••••.• 6 Buttress ....................................•................... 7 Alternative 1 ••••••••••••••••••••••••••••••••••••••••••••••••• 7 Alternative 11 •••••••••••••••••••••••••••••••••••••••••••••••• 7 Foundations ••••••••••••••••••••••••••••••••••••••••••••••••••••••• ~~.8 General ••••••••••••••••••••••••••• ' •••••••••••••••••••••••••••••• 8 Reinforcement ••••••••••••••••••••••••••••••••••••••••••••••••••• 8 Transition Areas •••••••••••••••••••••••••••••••••••••••••••••• ~.8 Settlement Characteristics ••••••••••••••••••••••••••••••• ~., •••• 8 Expansive Potential •••••••••• ~ •••••••••••••••••••••••••••••••••• 8 Concrete Slabs-on-Grade ••••••••••••••••••••••••••••••••••••••••• 9 Grading and Foundation Plan Review ••••••••••••••••••••••.•••••••• 9 Earth Retaining Structures ••••••••••••••••••••••••••••••••••••••••••• 9 Genera 1 ........ ., • ~ , , •• ~ s •• Backfill .•.•.•.•.•...•..•.••••.••.•....•.•.•••••.•••• !' •••••••••• 9 • • • • • • • • • • • TABLE OF CONTENTS (continued) PAGE Ultimate Passive Pressure ••••••••••••••••••••••••••••••••••••••• 9 Ultimate Active Pressure •••••••••••••••••••••••••••••••••••••••• 9 Factor of Safety .••••..•.••••...••.•.••••••...•••.•••••.•.••••• 10 L imitati ons .......•.................•.•..••............••.. I-I ••••••••••• 10 Review, Observation and Testing ••••••••••••••••••••••••••••••••••••• 10 Uniformity of Conditions •••••••••••••••••••••••••••••••••••••••• ~ ••• 10 Change in Scope ••••••••••••••••••••••••••••••••••••••••••••••••••••• 11 Time Limitations •••••••••••••••••••••••••••••••••••••••••••••••••••• 11· Professional Standard ••••••.•••••••••••••••••••••••••••••••••••••••• 11 Cl ient IS Responsi bi 1 ity ••••••••••••••••••••••••••••••••••••••••••••• 12' Field Explorations •••••••••••••••••••••••••••••••••••••••••••••••• _ ••••• 12 Laboratory Testing ...........•....•.............•........ ,' ...•..• ~ ........ 12 • • • • • • • • • • • ATTACHMENTS Figure 1, Site Vicinity Map, Page 2 Plate 1-2 Pl ate 3 Plate 4 Plate 5 Plate 6 Pl ate 7 Plate 8-23 Pl ate 24 Plate 25 Plate 26 Pl ate 27 Plot Plan Section A-AI Section B-BI Section C-C I Section 0-0 1 PLATES Unified Soil Classification Chart Boring Logs and Trench Logs Direct Shear Test Results Maximum Density & Optimum Moisture Content Expansion Test Results Grain Size Analysis and Atterburg Limits Slope Stability Calculations Plate 28-29 Surficial Slope Stability Plate 30 Select Fill Area Cross-Section Plate 31 Typical Canyon Subdrain Cross-Section Pl ate 32 Oversize Rock Disposal Cross-Section APPENDICES Appendix A, Rippability Study Appendix B, Recommended Grading Specifications and Special Provisions • • • • • • • • • • • SOUTHERN CALIFORNIA SOIL AND TESTING, INC. 6280 RIVERDAL..E ST. SAN DIEGO, OALIF. 92120 • TELE 280-4321 • P.O. BOX 20627 SAN DIEGO, CAl-IF'. 92120 7 4 - B 3 1 VEL lEW A Y PAL MOE S E R T, CAL I F. 9 2 2 .. 0 • TEL E 3 4 .. - 1 0 7. B .. 7 BEN T E R P R I S EST. ESC 0 N 0 I 0 0, CAL I F. 9 2 0 2 5 • TEL E 7 4 .. -4 5 4! 4 UPDATED GEOTECHNICAL INVESTIGATI9N LAKE CALAVERA HILLS VILLAGE G CARLSBAD, CALIFORNIA INTRODUCTION. AND PROJECT DESCRIPTION This report presents the resul ts of our updated geotechni cal investi gati on for Lake Calavera Hills Village G, located in the City of Carlsbad, Calif- ornia. The site location is shown on the vicinity map provided as Figure 1. It is our understanding that the site will be developed by grading to receive 45 multi-family residential structures. The two-story buildi-ngs will be of wood-frame construction, shallow fouhdations and conventional' slab-on-grade floor systems. Grading will consist of cuts and fill on the order of 26 feet and 50 feet, respectively. Cut and fill slopes will be constructed at an inclination of 2:1 (horizontal to vertical) or flatter. The site configuration, approximate topography, and location of our subsur- face explorations are shown on Plate Number 1 of this report. SCOPE OF SERVICE This investigation consisted of: exploration, including downhole surface reconnai ssance; subsurface inspections; obtaining representative SOUTHERN CALIFORNIA SOIL AND· TESTING, INC. • .. • • • • • • •• • ~ SOUTHERN CALIFORNIA ~ SOIL & TESTING, INC. Page 2 I --------+--I I I I I f"'!I" I", }il" . • I' I" ,;;..--SJtr r _H ___ I -:------ 4,0 .~ ,-.... I I I \ I I I \ I I --I ~I I I • , -~ ---FiA iVD~To -_--2~---_----2..,1 .~u Lake Cal avera Hills, Village ~ BY: SMS DATE: 4-26-83 JOB NUMBER: 14143 Fi ure .No. 1 • • • • • • • • • • • SCS&T 14143 April 26, 1983 Page 3 disturbed and undisturbed samples; laboratory testing;' analysis of the field and laboratory data; research of available geological literature pertaining to the site; review of the referenced material, and preparation of this report. Specifically, the intent of this analysis was to: a) Explore the subsurface conditions to the depths influenced by the proposed construction. b) Evaluate, by laboratory tests, the pertinent engineering pro- perties of the various strata which will influence the develop- ment, including their bearing capacities, expansive characteris- tics and settlement potential. c) Develop design slopes. soil engi neeri ng criteri a information regarding the This will include design for site gradi ng and provi de stabi 1 ity of cut and fi 11 of buttresses and stabilizing fills where required, and subsurface drain recommendations. d) Recommend an appropriate foundation system for the type" Of struc- tures and soil conditions anticipated and deVelop SOil engineer- ing design criteria for the recommended foundation design. RECOMMENDATIONS AND CONCLUSIONS GENERAL No geotechni ca 1 conditions were encountered whi ch woul d precl ude ' the deve 1 opment of the site as tent at i ve ly planned p rovi ded the recollITlenda- tions presented herein are implemented. The majority of the subject site is underl ain by an average of two feet of highly expansive, compressible topsoils. Highly expansive alluvial depos- SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • • • • SCS&T 14143 April 26, 1983 Page 4 . its underlie the lower section of the canyon areas. The upper 2± feet of • these deposits are considered compressible. These deposits are considered unsuitable for the support of settlement sensitive improvements'and will require removal and recompaction wherever settlement sensitive ;'mprove- ments are planned. In addition to the highly expansive surficial deposits, random zones ·of highly expansive soils exist within the Santiago Formation deposits. It is our understanding that select grading will be performed. Therefore, no special foundation consideration will be required. Hard rock was encountered along the eastern property 1 i nee It is anti ci- p.ated that blasting may be required for the construction of Tamarack Avenue. GRADING SITE PREPARATION: Site preparation'should begin with the removal of all deleterious matter and vegetation. Topsoils underlyi'ng areas to receive fill and/or structural loads should be excavated to firm natural ground. Firm natural ground is defined as soil having an in-pl,ace density of at 1 east 85% of maxi mum dry dens ity as determi ned in accordance with ASTM Test Procedure 01557-78, Method A. The exposed natural ground should then be scarified to a depth of 12 inches, moisture conditioned and recompact~d to at 1 east 90% of its maxi mum dry dens ity at a mi ni mum rna; stu re_ ·content at or slightly above optimum. The overexcavated soils as well c:iS on-site fill material should then be placed in compacted layers until desired elevations are reached. SELECT GRADING: We recommend that highly expansive soils should not be allo~'ied within 2.5 feet of finisht:!d grade. with 2.5 feet of nondetri menta 11y expans; ve Sian). Expansive soils within 2.5 feet of Fi 11 pads shou 1 d be capped soi 1 s (1 ess than 2% expan- finished grade at cut lots SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • • • • SCS&T 14143 Ap ril 26, 1983 Page 5 shou 1 dbe undercut and replaced with properly compac'ted, nonexpansi ve soils. The horizontal extent of the above recommendations should include teh area within 5 feet beyond the perimeter of the structure. Within parking and sstreet areas, select grading may be limited to a depth of one foot of subgrade material. In addition, expansive soils should not be placed within five feet from the face of any fill slopes. RIPPABILITY: The results of our seismic survey and exploratory trenches indicate that blasting may be required to obtain proposed cuts along Tamarack Avenue. A summary of each sei smi c traverse is presented below and in appendix A. Seismic Traverse No. S-1 Geologic Unit: Interpretation: Seismic Traverse No. S-2 Geologic Unit: Interpretation: Related Trench: Hypabyssa 1 Rock Rippable velocities to a depth of five feet. Marginally rippable to 30 + feet. from 51 ± to 30 1±. Hypabyssa 1 Rock Rippable velocities to a depth of eight feet. Nonrippable velocities to 30 + feet. Blast- i ng wi 11 probably be requi red. Trench Number 20 ROCK DISPOSAL: Oversized material generated during grading operations which is greater than two feet in greatest dimension should either be- utilized in landscaping or placed in the major canyon fill or in the rock disposal areas designated on Plate Number 2 and in accordance with the recommendations described in Plate Number 32 • SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • • • • SCS&T 14143 April 26,1983 Page 6 UNDERCUTTING: I n order to facil itate the exca vati on of' util ity trenches in areas underlain by hard rock, it is suggested that hard rock in. streets be undercut to required depths and replaced with properly compacted fill. EARTHWORK: A 11 earthwork and gradi ng contempl ated for site preparati on should be accompl ished in accordance with the attached'Recorrmended Grading Specifications and Special Provisions. All special site preparation recommendati ons presented in the secti ons above wi 11 supersede those in the standard Recommended Gradi ng Specifi cat ions. All embankments, struc- tural fill and fill should be compacted to a minimum of 90% at slightly over optimum moisture content. Utility trench backfill within 5 feet of the proposed structures and beneath asphalt pavements should be compacted to a minimum of 90% of its maximum dry density. The maximum dry density of each soil type should be determined in accordance with A.S.T .M. Test Method 1557-78, Method A or C. DRAINAGE GENERAL: Adequate drainage provlslons are imperative. Water should not be allowed to collect adjacent to footings •. Th.e site should be graded and maintained such that surface drainage is directed away from structures and the top of slopes into swales or other controlled drainage devices. SUBDRAINS: It is recommended that subdrains be placed along the bottom of a 11 canyon areas to recei ve more than 10 feet of fi 11. The subdrai ns should be extended upward along the canyon bottom until overlain by a minimum of 10 feet of fill. Subdrain details and locations are provided in Plates Number 1 and 31. SLOPE STABILITY AND STABILIZATION GENERAL: According to our calculations the cut and fill slopes construc- ted at inclinations of 2.0 horizontal to 1.0 vertical or flatter, will SOUTHERN CALIFORNIA SOIL AND TESTING, INC, • • • • • • • • • • • SCS&T 14143 April 26,1983 P~ge 7 . possess factors of safety of at 1 east 1.5 with respect to deep-seated fail u re if 1 i mited to a maxi mum hei ght of 28 feet and 50 feet, respec- tively (see Plate Number 27). It is further our opinion that proposed cut and fill slopes will possess factors of safety of at least 1.5 with re- spect to surficial stability if constructed in accordance with the recom- mendations of this report (see Plate Numbers 28 and 29). Highly expansive fill soils should not be placed within five feet from the face of slopes. For slopes higher than 20 feet the select material zone should be in- creased as described in Plate Number 30. All cut and fill slopes should be periodically inspected during grading operations by an engineering geologist or soil engineer from this office to verify that soil conditions encountered do not differ significantly from those assumed in our anal- ysis. BUTTRESS: The soil/rock contact that exists along the slope west of Tamarack Avenue wi 11 be exposed at or near the toe of the proposed cut slope. We therefore present the following two alternative solutions. Alternative I: The soils over the underlying rock could simply be removed. Th i s then wou 1 d 1 ea ve the rock exposed on the face of a 1.2:1 slope (horizontal to vertical). This would probably eliminate the retaining walls behind units 49 and 50. Alternative II: If it is desired that this slope be planted, then we would recommend that a nonexpansive soil buttress would ha~e to be constructed. Thi s waul d necess itate bl asti ng of the rock and pl ace- ment of the buttress as shown on Plate Numbers 3,4 and 5~ It is estimated that approximately 16,500 cubic yards of "additonal rock would be generated from this procedure. We al so estimate that 22,000 cubic yards of select material would be required as additional but- tress fill • SOUTHERN CALIFORNIA SOIL AND TESTING. INC" • • • • • • • • • • • SCS&T 14143 Ap ri 1 26, 1983 Page 8 FOUNDATIONS GENERAL: Conventional spread footings founded at least 12 and 18 inches below lowest adjacent finished grade and both having minimum width of 12 inches are recommended for the support of one and two-story structu res, respectively. Such footings may be designed for an allowable soil bearing pressure of 2000 psf. This bearing pressure may be increased by one-third when considering wind and or seismic loading. A minimum setback of 5 feet should be observed between structures and the top of adjacent slopes. REINFORCEMENT: It is recommended that minimum reinforcement consist of two continuous No. 4 reinforcing bars, one located near the top of the footing and one near the bottom. This reinforcement is based, on soil characteristics and is not intended to be in lieu of reinforcement neces- sary to satisfy structural considerations. TRANSITION AREAS: It is further recommended that footings spanning day- light lines where the fill section exceeds four feet in thickness be rei nforced with at 1 east fou r continuous No. 4 rei nforci ng bars, two located near the top of the footing and two near the bottom extending 10 feet beyond each side of the transition. SETTLEMENT CHARACTERISTICS: The anticipated total and/or differential settlements for the proposed structure may be considered to be within tolerable 1i.mits provided the recommendations presented in this report are foll owed. EXPANSIVE POTENTIAL: Topsoils, alluvium and some of the formational depos its were found to possess hi ghly expansi ve characteri sti.cs, However, it js our understanding that select grading ,will be performed during grading operations. Therefore, the recommendations of this report assume a nondetrimentally expansive soil condition. SOUTHERN CALIFORNIA SOIL AND TESTING. INC. I , I • • • • • • • • • • • SCS&T 14143 Ap ri 1 26, 1983 Page 9 • CONCRETE SLABS-ON-GRADE: Concrete slabs-on-grade should have a minimum thickness of 3.5 inches and be reinforced with 6 I1 x6 11-1O/1O welded wire mesh throughout. Where moisture-sensitive floor coverings are planned, the slabs should be underlain by a 4-inch layer of coarse sand or crushed The soil engineer and engineering grading and foundation plans to verify GENERAL: It is our understanding that the retaining structures planned for thi s project wi 11 be of masonry constructi on and that they wi 11 hav.e a maximum height on the order of 14 feet. BACKFILL: All backfill soils should be compacted to at least 90% relative compaction. Expansive or clayey soils should not be used for backfill materi al within a di stance of fi ve feet from the back of the wall. The retaining structure should not be backfilled until the material in the wall have reached an adequate strength. ULTIMATE PASSIVE PRESSURE: The passi ve pressu re for prevail i ng soi 1 conditi ons may be consi dered to be 400 pounds per square foot per foot of depth. This pressure may be increased one-third for seismic loadi_ng. The coefficient of friction for concrete to soil may be assumed to be 0.43 for the resistance to lateral movement. When combtning frictional and passive resistance, the latter should be reduced by one-third. ULTIMATE ACTIVE PRESSURE: The ultimate active soil pressure for the design of earth retaining structures with level backfills may be assumed to be equivalent to the pressure of a fluid weighing 40 pounds per cubic SOUTHERN CALIFORNIA SOIL ANO TESTING. INC. • ! • • • • • • • • • • SCS&T 14143 Ap ril 26, 1983 Page 10 foot for walls free to yield at the top (unrestrained walls). For earth retaining structures that are fixed at the top (restrained walls), an ultimate equivalent fluid pressure of 55 pounds per cubic foot may be used- for a design parameter. These pressures do not consider any' surcharge loading (other than the sloping backfill). If any surcharge loadings are antiCipated this office should be contacted for the neces-sary change in soil pressure. FACTOR OF SAFETY: The above values, with the exception of the allowable soil bearing pressure, do not include a factor of safety. Appropriate factors of safety should be incorporated into the design of all earth retaining structures to reduce the possibility of over turning and slid- i hg. , LIMITATIONS REVIEW, -OBSERVATION AND TESTING The recommendations presented in this report are contingent upon our review of final plans and specifications. The soil engineer and engineer.., ing geologist should review and verify the compliance of the final grading plan with this report and with Chapter 70 of the Uniform Building Code. It is recommended that Southern California Soil & Testing, Inc., be re- tai ned to provi de conti nuous soil engi neeri ng servi ces du ri rig the earth- work operations. This is to observe compliance with the design concepts, specifications or recommendations and to allow design changes in the e~ent that subsurface conditions differ from those anticipated prior to start of constructi on. UNIFORMITY OF CONDITIONS The recommendations and opinions expressed in this report reflect our best estimate of the project requirements based on an evaluation of the subsur- 5 0 U THE R N CAL I FOR N I A 5 0 I LAN 0 T E '5 TIN G. I N ,C. • • • • • • • • • • • SCS&T 14143 April 26,1983 Page 11 face soil conditions encountered at the subsurface exploration locations and the assumption that the soil conditions do not deviate appreciably from those encountered. It should be recognized that the p.erformance of the foundations and/or cut and fill slopes may be influenced by undis- closed or unforeseen variations in the soil conditions that may occur in the intermediate and unexplored areas. Any unusual conditions not covered in this report that may be encountered during site development should be brought to the attention of the soil sengi neer so that he may make modifi- cations if necessary. CHANGE IN SCOPE This office should be advised of any changes in the project scope or proposed site grading so that it may be determi ned if the recornmendat ions contained herein are appropriate. This should be verified in writing or modified by a written addendum. TIME LIMITATIONS The findings of this report are valid as of this date. Changes in the conditi on of a property can, however, occur with the passage -of time, whether they be due to natu ra 1 processes or the work of man on thi s or adjacent properties. In additi on, changes in the State-of-the-Art and/or Government Codes may occur. Due to such changes, the findings of this report may be invalidated wholly or in part ~y changes beyond -our. control. Therefore, this report should not be relied upon after a period of two years without a review by us verifying the suitabi1 ity of the conclusions and recommendations. PROFESSIONAL STANDARD In the performance of our professional services, we comply with that level of care and skill ordinarily exercised by members of our profession cur- SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • SCS&T 14143 Ap ril 26, 1983 Page 12 • rently practicing under similar conditions and in the same locality. The. cl i ent recogni zes that subsu rface conditions may vary from those encoun- tered at the 1 ocati ons where our bori ngs, surveys, and exp 1 orati ons are made, and that our data, interpretations, and recommendations are based soley on the information obtained by us. We will be responsible for those data, interpretations, and recommendations, but shall not be responsible for the interpretations by others of the information developed. Our services consist of professional consultation and observation only, and no warranty of any kind whatsoever, express or implied, is made or intended in connection with the work performed or to be performed by us, or by our proposal for consulting or other services, or by our furnishing of oral or written reports of findings. CLIENT1S RESPONSIBILITY It is the responsibility of Pacific Scene, Inc., or their representatives to ensure that the information and recommendations contained herein are brought to the attention of the engineer and architect for the project and incorporated into the project's plans and specifications. It is further thei r respons i bil ity to take the necessary measu res to ensu re that the contractor and his subcontractors carry out such recommendations during construction. FIELD EXPLORATIONS Twenty-seven subsurface exp 1 orat; ons were made at the 1 ocati ons i ndi cated on the attached Plate Number 1 on March 10, 13 and 21 and April 25, 1983. These explorations consisted of 25 trenches excavated utilizing a rubber- tired backhoe equipped with a 24-inch bucket and 2 small diameter borings • In addition, two seismic traverse lines were performed. The field work was conducted under the observation of our engineering geology personnel. SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • SCS&T 14143 April 26, 1983 Page 13 The explorations were carefully logged when made. These logs are pre- sented on the following Plate Numbers 8 through 23. The soils are des- cribed in accordance with the Unified Soils Classification System as illustrated on the attached simplified chart on Plate 7. In addition, a verbal textural description, the wet color, the apparent moisture, and the density or consistency are given on the logs. Soil densities for granular soil s was gi ven as either very loose, loose, medi urn dense, dense, or very dense. The consistency of silts or clays is given as either very soft, soft, medium stiff, stiff, very stiff, or hard. Disturbed and undisturbed samples of typical and representative soils were obtained and returned to the laboratory for testing. LABORATORY TESTING Laboratory tests were performed in accordance with the generally accepted American Society for Testing and Materials (A.S.T.M.) test methods or suggested procedures. A brief description of the tests performed are presented below: a) MOISTURE-DENSITY: Field moisture content and dry density were determined for representative undisturbed samples obtained. This information was an aid to classification and permitted recogni- tion of variations in material consistency with depth. The dry unit weight is determined in pounds per cubic foot, and the field .. moisture content is determined as a percentage of the soil's dry weight. The results are summarized in the trench logs. b) CLASSIFICATION: Field classifications were verified in the laboratory by visual examination. The final soil classifications t.- are in accordance with the Unified Soil Classification System •. SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • • • • SCS&T 14143 Ap ril 26, 1983 Page 14 c) GRAIN SIZE DISTRIBUTION: The grai n si ze di stri'buti on was d~ter mined for representative samples of the native soils in accor- dance with A.S.T.M. Standard Test 0-422. The results of these tests are presented on Plate Number 26. d) PLASTICITY INDEX: The Plasticity Index (PI) which is defined as the liquid limit of a soil minus its plastic limit was determined for certain representative cohesive samples. The liqu-id limits and plastic limits were qetermined in accordance with A.S.T.M. Test Method 0433-66 and 0424-59 respectively. The results of these tests are presented on Plate Number 26. e) DIRECT SHEAR TESTS: Oi rect shear tests were performed to deter- mine the failure envelope based on yield shear strength. The shear box was desi gned to accomodate a sample having a diameter of 2.375 inches or 2.50 inches and a height of 1.0 inch. Samples were tested at different vert i ca 1 loads and at satu rated moi stu re content. The shear stress was appl ied at a constant rate of strain of approximately 0.05 inches per minute. The results of these tests are presented on attached Plate Number 24. f) COMPACTION TEST: The maximum dry denstty and optimum moisture content of typical soils were determined in the laborator.y in accordance with A.S. T.M. Standard Test 0-1557-70, Method A. The minimum, density was also determined for each sample tested for maximum density. The test was performed in accordance with A.S. T.M. Test 0-2409. The results of these tests are presented on the following Plate Number 24. e) EXPANSION TEST: The expansive potential of clayey soils was determi np.d in accordance with the f 0 11 ow; ng test p rocedu1'9 and the results of these tests appear on Plat~ Number 25. SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • • SCS&T 14143 Ap ril 26, 1983 Page 15 Allow the trimmed, undisturbed or remolded'sample to air dry to a constant moi stu re content, at a temperatu re of 100 degrees F. Place the dried sample in the consolidometer and allow to compress under a load of 150 psf. Allow moisture to contact the sample and measure its expansion from an air dried to saturated condition. SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • • • • ~ 340-----------------------------------_ .. _-~--.---_. .~ -----_._-----.---.-.. ------ 320 liE ~ 300-- PROPOSED GRAD 260 I EXISTING GRADE ---2 TOP SOIL ~~~~~~=-------------------- H-YPABYSSALL ROCK---~ "'" I ...... SILTY _ ... ., """'-. " i , l ~TACT BETWEEN ROCK & SANTIAGO FORMATION SECTI'ON 'A-A '1 , SCALE: 1=20 ,j I , '" ~ BY ISMs, JOBNG'14143 SOUTHERN CALIFORNIA SOIL & TESTING, INC. DATE 3-24 -83 f-LpT[ NO.3 ;. ..; , ~tT.;' J, jI--,e', .,:, , • 1_ i te : :,1 • • • ~-:"!'1'1 I .• ,.". "',>,, • • 340 --EXISTING GRADE 320 ~'7 . C '~I> TAMARACK "' AVE. PROPOSED GRAD7 il~' .' ) ".. 30 MIN. 280 HYPABYSSAL ROCK 'L .. ,--CONTACT ROCK " ~E~~~~O FORMATIO,," ~~~~1bN "',F SECTION ..... " I B-B ------.--------, SCALE °.1 =20 ~ SOUTHeRN CAUFORNIA $OIL " T(;STINQ, INC. BY SMS D~'rE 3-24-83 J,OB N0:14143 ' , PLATE NO: 4 ----------- I I I .. , • I 1 L I. I' 1-iii t ~>;f' ~-t t 1 .~ 290 I 2701 ? -- I 250 EXISTING GRADE ?_TA~ _O~~.3:.~ B2~--------------------~~ /r-/------------ SAND ?_ -. LIGHT GRAY SILTY SAND & ELM -----+-----Ioo..LlGHT GREENISH GRAY CLAYEY SAND--------~---~ AVE. __ --.J. _____ _ r _Mi§@tf! u. -==i , : ---EN GRAY C"IITV ...... 1 A'U ':) ? ?--... \ ==III -? -.1 SANTIAGO FORMAT~ON ?---?-! -------------------,---------t---~---·---- PROPOSED GRADE < SECTION O'-D' -_. -----------------~ ---_. . - T8 BUFF \lVHITE SILTY SAND T4 ~ SOUTHERN CALIFORNIA SOIL & TESTING. INC. 1Y SMS DATE . 3-24 -83 f8 N°'14143 r-:-LATE NO.6 r:~ 1 : I • t -I I \1 ,~ a} . -·-'i. t r !-l:' ", . ~~ i. ~ l ~ 340 320- 300 ---~ PROPOSED GRADE 280 -----............ ~=EXISTING GRADE------------~..:. .--------------------------------._----.-- UTTRESS , 2 OF TOP SOIL SAND (Q'/IIX«f (~I-! ? ?:---? HYPABYSSALL ROCK '" CONTACT BETWEEN ROCK & SANTIAGO FORMATION LIGHT GRAY SILTY SAND· ----7 ___ ---====== ... ?- GREEN GRAY SILTY CLAY -+=-==-==-? I I SANTIAGO FORMATONj ----== T -----.---- ? ----_?------?------ ---- ~ SOUTHERN' CAI.lFORNIA SOIL & TESTING, INC. BY I SMS DATE 3-24-83 JOBINO-14143 PLATE NO.5 • • • • • • • • • • • ~-------------------------------------------------------------------------------------------~ SUBSURFACE EXPLORATION LEGEND UNIFIED SOIL CLASSIFICATION CHART SOIL DESCRIPTION 1. COARSE GRAINED, More than half of material is la~ger than No. 200 sieve size. GRAVELS CLEAN GRAVELS More than half of coarse fraction is larger than No. 4 sieve size but smaller than 3". GRAVELS WITH FINES (Appreciable amount of fines) ~ CLEAN SANDS More than half of coarse fraction is smaller than No. 4 sieve size. SANDS WITH FINES (Appreciable amount of fines) 11. FINE GRAINED, More than half of material is smaller than No. 200 sieve size. SILTS AND CLAYS Liquid Limit less than SO SILTS AND CLAYS Liquid Limit greater than SO HIGHLY ORGANIC SOILS GROUP SYMBOL GW GP GM GC sw SP SM SC ML CL OL MH CH OH PT TYPICAL NAMES Well graded gravels, gravel- sand mixtures, little or no fines. Poorly graded gravels, gravel· sand mixtures, little or no fines. Silty gravels, poorly graded gravel-sand-silt mixtures. Clayey gravels, poorly graded gravel-sand, clay mixtures. Well graded sand, gravelly sands, little or no fines. Poorly graded sands,gravelly sands, little or no fines. Silty sands, poorly graded sand and silt mixtures. Clayey sands, poorly graded sand and clay mixtures. Inorganic silts and very fine sands, rock flour, sandy silt or clayey-silt-sand mixtures with slight plast- icity Inorganic clays of low to medium plasticity, gravelly clays, sandy clays, silty clays, lean clays. Organic silts and organic silty clays of low plasticity Inorganic silts, micaceous or diatomaceous fine sandy or silty soils, elastic silts. Inorganic clays of high plasticity, fat clays. Organic clays of medium to high plasticity. Peat and other highly organic soils. -..I--14ater level at time of ex:avat~on or as indicated US -Undisturbed, driven ring cv I' -Undisturbed chunk sample BG -Bulk sample SOUTHERN CALIFORNIA SOIL & TESTING. INC. .aae RIVEReAL. •• TREET .AN 0'.00, CALIFORNIA .a1ae sample BY or tube sample Lake Calavera Hills Vi 11 age G Carlsbad, CA DBA JOB NO. 14143 DATE 4-26-83 Plate No. 7 I ~II .~.". ! uJ -I ~ tL > -BORING NUMS __ R • I-Z 1 IT (I' t:.. W a >-0 0 -- liJ G. -ELEVATION Z t.. Z >-Z u. >--u >-Qw 0 Ow LL <f Z 0 I--. 0 -l-I-W l-I-I-U f-0;:: u Ui w - I ~ Z cr z ~ iIi <Z ll. cr<tZ t cr I-W t- I-W l.. W :::J w W Z cr<t UJ <t cr <t UJ Z :::J Z < LJ oJ iii cr II w <t a. cr I-Ui UJ 1-1-S otij~ -0 f-lU I- u-a. ..1 ~~ 0 <t Ul <t wUl S -l-II 0 2 -<t oJ a. -Il Z o· ?iii o Z ZUl >-u. Ul Z <t 2 0 u a .J <t 0..1 0 a. 0 a. o cr ww oJ ~ WW .J II a. 0 W 0 • 0 tn UlU DESCRIPTION U <t 2 <t U 0 (til ID Ul Q. cr ID 0 2 u cr u sci Sandy Clay/Clayey Sand Dark Very Soft to -Bag CH (Topsoil) Brown Moist Medium 2 _ Stiff 4 - sci Clayey Silty Sand Light Moist t( Dense .' Bag SM (Santiago Formation) Greenish ... Very . Brown Moist - 6 - -• 8 _ SM Silty Sand Light Moist Very 10_ US Grey Dense 100/ 98.7 8.2 ~ 6" -Bag 12 II---SC Clayey Sand Xedium Very Stiff -" Brown Moist 14_ SM Silty Sand White/ Moist Very • I" Light Dense 16_ 1"",,, SC Silty Clayey Sand Light Moist Very ~ Brown-Dense . 18_ Grey -I· - 20_ US ML Silty Clay Green-~oist to Hard 100/ Grey Very 7" • • -Bag Moist 22_ '" --,- -• 24_ - - 26_ -• 28_ 30-is Light Very 100/ . 8M Silty Sand Grev Moist Dense 3" Boring Ended at 30' 3" • ~ SUBSURFACE EXPLORATION LOG SOUTHERN CALIFORNIA LOGGED BY DATE DRILLED SOIL & TESTING, INC. DBA 3-16-83 .. ~6 r ,,-,1\116[--, i 1414 l Plate No. 8 . • '"'''"'',,.,,' "-.-".,,,~ _,~ uj -w 2 > > I-z S'ORING NUMbc:A IT IT 2- w w 0 0 :J. r Z Z 0 :- W i: ELEVATION u. ). Z u. >-U >-gw 0 Ow u. :; -4 I-W I-Z I--U ,0 l-. 0 I-I-U !-' Ol-Z I-Ui W ~ U Z II Z ~ -l- I I-Ul 4Z u. 1I4 u. Z CI W I-UJ U. w :J w Ul Z LI4 UJ 4II4 UJ :J Z ~ LJ a. .J Ui II II l-II 1-1-W w 4 a. 4 -w 5 o~~ 5 0 l-I-a. w .JUl 0 4 Ul Ul 0 wUl ~ UJ I-<t 0 ~ -<t .J a. -a. z .ZUi o ~ZUJ 0 >-u. Z ~ U is .J 4 o .J 0 a. 0 a. o II ww .J !-'ww ...J II 0 w 0 0 UJ UJU DESCRIPTION u <t ~ <t U a a.CI !D Ul a. II !D 0 a. 2 U II u sci Sandy Caly/Clayey Sand Dark Very Medium -CH (Topsoil) Brown Moist Stiff . • • 2 SC Clayey Sand(Santiago Tan-Very Dense -Formation) Orange Moist 4 - Bag Light . [" Brown j 6 _ i---~H Silty Clay Light Hoist Very -\ Grey Stiff 8 _ SM/ .- SC Clayey Silty Sand and Light Moist tc Very -Silty Sand preenish Very Dense 10_ US Grey Hoist 100/ 95.5 14.4 5.5" • • - • 12 _ - 14_ Bag sci Sandy Clay/Clayey Sand Light Moist Very 16_ ---CL Greenish Dense/ -~ Grey Hard 18_ - • SM/ Clayey Silty San? Light Moist Very -SC preen-Dense 20 Grey 1"--US CL/ Silty Clay with Interbedec Green-Moist Hard/ 100/ 22_ PB SM Silty Sand Grey IVery 4" .. • Dense -I " • 24_ - 26_ -• 28_ -PB 30 Boring Ended at 30 r ; • ~ SUBSURFACE EXPLORATION LOG SOUTHERN CALIFORNIA LOGGED 8y' DATE DRILLED' SOIL & TESTINGJ INC. DBA 3-10-83 __ B "J..Jr·.1f::lEr::> ._ .. -\-- 14143 Plate No. 9 . ! .~------------------------------.---------------~~~----------~ SOUTHERN CALIFORNIA SOIL & TESTING, INC. SUBSURFAce eXPL.ORATION L.OG LOGGED 3Y DATE LOGGED CRB 3-10-83 -loa ~ .h_ ... :'",,~3E~ Plate No. 10 14143 ~ ... .-----------.----------------------------.... ------ ._----,. I, -Z 2: ~ w a TRENCH NUMBER ). 'r a • w a. ;: 3 ~ w ~ u r ~ w 2: w·z w r Z II Z Z J:: iii -II I->0 LL ~ ~ -.J u ELEVATION II w ] w' w (J) ZLL ] Z ~I- !lJ aU: a II l-II ~ Z wu I-w ~LJ r .J .J ~ (fJ ~ (fJ W a~ <£l ~ .J~ ~ a. (fJUi a a. -a.Uia a z wa. a. ~ (J) u a. a a. z II r ~ a II~ w ~ ~ ~ ~ a a II a ~ .J a u a (fJ u u U DESCRIPTION • 0 CL ~andy Clay (Topsoil) Brown Moist kedium Stif f ~ -~<. --- 2 SM Silty Sand (Santiago ~u£f-white Moist Dense to -CK Formation) with 'Very Dense - • 4 _ Greenish - Tint -- 6 _ Bag - -- • 8 _ - --, lO_ CK - -- • 12 Trench Ended at 12 ' ----TRENCH NUMBER 4 -- • 0 CK CL Sandy Clay (Topsoil) Brown Wet Soft .to 98. ~ 23.7 --Medium Stif f 2_ 'SM-- CK Silty Sand (Santiago ~uff-white Moist Dense to 100. 23.1 --Formation) with 'very Dense • 4_ Greenish - Tint -- 6_ -, -- • 8_ -- CK Trench Ended at 9' --.-: --• --- .~ ______________________ ----------r-----------------------------~~ SUBSURFACE EXPLORATION ,LOG SOUTHERN CALIFORNIA SOIL & TESTING, INC. LOGGED BY CRB 14143 DArE LOGGED' 3-10-83 Plate No. 11 .L-________________________________ ~--------------~~--------------_4 ~ t-w 0. • W W >-l!. t--llJ I ..J I-0. 0. 2 w D <! en • 0 -CK 2 _ - • 4 _ - 6 _ - • 8 _ CK - - • - - 0 - • 2 _ 4 _ CK CK -, • 6 _ - 8_ -CK • 10 - - - • - - .-.. Z 0 .... " TRENCH NUMBER 6 1-U >->-W 2: .:: t-UJ fo- Z II Z Z c: Ui-II I-<! II llJ W UJ ..J u ELEVATION a W ] a: t-z Zl!. :J Z 6 ~ II t-wU I-w ..J <! UJ <! UJ w De: ~ I- UJ UJ 0 0. -0. Ui D a z (,1 U a. a 0. Z II )- <! <! 2 <t a a II 2 a ..J D U • U U DESCRIPTION SM Silty Sand(Santiago Buff-white Moist Dense to Formation) with Very Dense Greenish Tint , Trench Ended at 9' TRENCH NUMBER 7 CL Sandy Clay (Topsoil) Brown Hoist Stiff sci Sandy Clay/Clayey Sand Brown and Moist Very Stiff 113.7 7.0 CL (Alluvium) ~uff-white 104.4 8.1 Trench Ended at 10' SUBSURFACE EXPLORATION LOG SOUTHEr=lN CALIFORNIA SOIL & TESTING) INC. LOGGED BY , l~ L4 3 DATE l..OGGED' 3-10-83 Plate No. 13 "3 e: wZ ~'g 1-1-<!LJ ..J<{ WOo a:2 a U - - - - - - - - - - - - - :.-. - - - - - - - -' - - - • • • • • • • • - - - 0 - 2 - 4 _ - 6 _ - 8 _ - 10_ - 12 - - - - - - SC CK TRENCH NillffiER 9 Clayey Sand (Topsoil) Silty Sand(Santiago Formation) Trench Ended at 12' £ SOUTHERN CALIFORNIA W SOIL & TESTINGJ INC. ., >-a S I-U >-r w 2-wZ I-W f-Z a: Z z I::: iii~ a: f->0 W J w w Ul Zu. J ;:::1= a: f-a: f-Z wU f-Z <l:LJ <l: Ul w Ul w· <l: Ul a. iii a o~ -f-...J<l: a. -o Z wa. a. 0 a. Z a: r a:2 a: 2 0 <l: 2 q: 0 0 0 U 0 • U U Moist to Soft to Wet Medium Sti f Moist Dense to Very Dense 98.7 22.7 Dark Brown Moist Dense Buff-White Moist Dense 107.5 17.4 SUBSURFACE EXPL.ORATION LOG I LOGGED 8Y DATE LOGGED: Plate No. 14 ----.---" ---'------- • ~ I-W w a. w >- U. I- ~ I w .J I-a. a. ~ w 0 <t Ul • 0 - 2 Z a ;:: et .J U aU: Uliii Ul <t ..J U CL TRENCH NUMBER 10 ELEVATION DESCRIPTION Sandy Clay (Topsoil) Sandy Clay/Clayey Sand a: a ..J a u Dark Brown Yellow- brown --":i >-0 ~ I-W I-U >->-w 2: I-wZ Z II Z Z ~ iii~ a: I-:::9 w :J w w Ul zu. J Z 1-1-cr I-cr I-Z wU Iii w <tu <t Ul <t tfl w a~ .J<t a. -o.Ula a I-wo. a. a a. Z a: >-~ a a:~ <t ~ <t a a a: a U a • U U -- Very Moist Medium Stiff Moist Medium Dense/Stiff - • ~uff-white Moist Dense (Weathered Zone) sci -l-----+---'CL 4 _ "~ ________________________ -4 ________ -+ ________ -r ____ ~~~----~---4--~ SM - 6_ • Silty Sand (Santiago Formation) West side of Trench shows Clayey Sands & Sandy Clayey Alluvium with a Cobble Layer - _ at Contact with the -111-'" \ Santiago Formation -- - Trench Ended at 9' • - -- - -· -- -.--· -- - - • - - - -· -- • ~ SUBSURFACE EXPLORATION LOG SOUTHERN CALIFORNIA LOGGEO BY: OArE LOGGEO' S a I L & T EST I N OJ I NC. r-..J:-;::o:;-:::B~N'-u-:-~':-:::.8~~~RRJ.LR--_-__ ~-.~'3!--~1~0~-..!:8~3-,-. ------1 14143 Plate No. 15 · ~ .---------.-------------------------------~--------------------~-----------~-------~ ----------~----- '3 Z f-W 0 TRENCH NUMBER >-.9 8: • w a. i: 11 f-U >->-w~ >-f-W f-wZ w <t Z I! Z Z ': iii~ a: f->0 u. l-I! -..J U ELEVATION w J w w ;n Zu. J ;::::~ r w 6 ~ 0 a: f-a: I-Z w U· t-'" Z <tLJ .J .J <t Ul <t Ul w o~ Ul W ..J<t f-a. Ul Ul a a. iii a -f-a. -o z Wa. a. 2 Ul U a. a a. Z !I >- w <t <t 2 a: 2 0 a:2 0 q: ..J q: 0 a 0 U a Ul U . U U DESCRIPTION • 0 SC Clayey Sand (Topsoil) Dark Brown Moist Medium -Dense - 2 -............... SM Silty Sand(Santiago Formation Buff Moist Dense --CK • 4 -Bag - -- -6 - --1----- • 8 -CK ~reen-brown - ---10- --CK • p Trench Ended at 12' -- ---TRENCH NUMBER 12 --• 0 CK sc/cr Sandy Clay/Clayey Sand Brown Moist Xedium -(Topsoil) Dense - 2 ~ SM/ Clayey Silty Sand lYe 11 ow-Hoist Medium -~ brown Dense - • 4-SM Silty Sand(Santiago Buff Moist Dense --Formation) -6_ (Pockets of Green Claystone) CK 101.4 8.7 ---• 8-- -- -10.... --• l? Trench Ended at 12' -- ~ SUBSURFACE EXPLORATION LOG SOUTHERN CALIFORNIA LOGGEO BY CJ:.rE LOGGEO SOIL & TESTINGJ INC. eRB 3-10-83 ~----II ...108 r·",L.i"v1BER 14143 Plate No. 16 · ---" ._--------._---.. ----.~-------... ~---'------.-----------' .~------------------------------------~--------------------~--------~--~ z ~ -~ f-W a TRENCH NUMBER 13 ), >-2 • W a. ;::: f-W f-U >-f-W 2-wZ W >-Z a: Z Z !: iii_ ([ f->0 u. f-<t a: W J Ww(J) J Z ;; -..J U ELEVATION 0 ([ f-Z Zu. W 6 u: ([ f-wU f-W <{LJ I ..J ..J <{ (J) <t (J) W o~ ~ f-..J.<t f-a. (J) (J) a a. -a. iii a a Z WOo a. ~ (J) U a. a a. Z ([ >-a:~ I a: ~ a I W <{ <t ~ <{ a 0 I 0 <t ..J a U a I Ul U U U ° DESCRIPTION • SM/SC Clayey Silty Sand (Alluvium) Brown Moist !Loose to ~ Medium Den~e - 2 K Sandy Clay/Clayey Sand Brown Moist lMedium Den1e -(Topsoil) - 4 CK • - -SM Silty Sand (Santiago tBuff with Moist Dense - 6 _ Formation) Greenish Tint - -CK - • 8 _ - -- 10_ - • -Trench Ended at 11' - -- TRENCH N1J}ffiER 14 -- --• ° SM Silty Sand (Alluvium) Brown Moist Medium Dert~e -I 2 ~ ~ Sandy Clay/Clayey Sand Brown Moist Medium Den!e -(Topsoil) -• 4 _ CK SM Silty Sand (Santiago Buff Hoist Dense -Formation) - 6 -- -- • 8 - Trench Ended at 8' -- --- -- • -- -- ~s SOUTHERN CALIFORNIA SOIL & TESTINul INC. CRB _-=-3--,1~6c!..--~8-=-3 _____ -I ..JOB 1',L;~"B2P 14143 Plate No,. 17 LOGGED BY: DArE LOGGED: .,~------------------------------~--------------~------~------_1 SUBSURFACE EXPL.ORATION LOG . -------------------------.-------~----.----------------.-,----.~ T T --""110 Z :g .:u w 0 ~ Q 2-TRENCH NUMBER 15 >-a. i: t-W t--U ~ t-W ~ w,z w >-z a: z z J:: rii~ a: t->0 u. t-~ a: w w UJ -.J u ELEVATION 0 uJ ::J a: t--Z Zu. ::J z i=i= w 6~ a: t-wU t-w ~LJ I ...J .J ~ Ul ~ UJ w 09; C£l t-.J~ ... Cl. UJ UJ 0 Cl. -Cl. iii 0 o z wCl. a. ~ UJ U Cl. a Cl. z II >-lI~ w ~ <t 2 ~ 0 0 II -2 0 0 ~ ...J 0 (,l 0 UJ U u u' flJ DESCRIPTION . SM/ Clayey Silty Sand (Topsoil) Brown Moist Medium ~ Dense - 2 - 8M Silty Sand (Santiago Formatio 1) Buff Moist Dense -- ~ -- -- :6 Trench Ended at 6' -- ~. -TRENCH NUMBER 16 - -- 0 SM/S( Clayey Silty Sand (Topsoil) Brown Moist Loose to -Medium - H2 -n"""",,,,,,,, SM Silty Sand(Santiago Formation Buff Moist Dense -- 4 -- Trench Ended at 5 ' t -- -~ - ~ -- -,- t -- -- -- -- I ----- -- -..., • -- -- .~------------------------------~---------------------------------~ ~ SOUTHERN CALIFO~NIA SOIL & TESTING. INC. SUBSURFAce EXPL.ORATION L.OG LOGGED BY CRB ~C9 ~.UMBEP 14143 . '------'------------------------------'---------'--Plate No. 18 ------~~. ! ~ . • z [ w a 17 r 0 I-a. TRENCH NUMBER I-U >-r w 2: w ;::: I-W I-wZ >-Z Z ~ W I-el: Z a: UJ_ a: I-~g U. a: w III (J) ..J U ELEVATION III J. zu. J 1-1-~ a a: I-Z i'-Z III 6~ a: I-wU <l:LJ I ..J ..J el: (J) el: Ul w o~ Ul w ..Jel: I-a. Ul UJ , 0 a.Uia -I-a. -a Z wa. a. 2 Ul U a. a a. Z a: >-2 a ([2 w <l: <l: 2 ([ 0 <l: ..J el: a 0 0 U a (J) U . U U 0 DESCRIPTION • SM/SC Clayey Silty Sand(Topsoil) Brown Moist Medium --Dense - 2 sc/cr Sandy Clay/Clayey Sand SM Silty Sand(Santiago Formation Buff Moist Dense i -l 4 -CK l • -- 6 -- -1-------Buff with • 8 -Greenish - CK Tint -- 10_ - --• 12 _ - Trench Ended at 13' -- TRENCH NUMBER 18 --• 0 sc/cr Sandy Clay/Clayey Sand Brown Moist i'1edium -(Topsoil) Dense - 2 SM Silty Sand(Santiago Formation Light Moist Dense -Brown/ -• 4 -Buff -Bag -- 6 -- -CK - 8 ---• -- 10 _ - -CK -• 12 Trench Ended at 12 r -- • ~ SUBSURFACE EXPLORATION LOG SOUTHERN CALIFORNIA LOGGED BY: DATE LDGGE£;) SOIL & TESTING, INC. CRB 1-Hi-R1 ~OB I',L.,MSER 1~143 Plate No • 19 '-. --.. '-~--------------. _.------------• '3 Z I-W 0 ~ J 2: TRENCH NUMBER 19 ~ • w a. ;:: I-W I-.J ~ I;-w ~ wZ ~ 2 Z J:: w I-4 Z a: Ui~ a: I->0 u. a: w w Ul ~ ..J U ELEVATION W :J zu. J Z j:j: W 6 II: 0 a: I-a: I-Z wU I-W <{LJ I ..J ..J <{ Ul <{ (fJ w Oa. Q] I-..J<{ I-a. (fJ iii 0 a. -a. iii 0 o z wa, a. ~ Ul U a. a a. Z a: ~ a:~ w 4 <{ ~ a: ~ a 0 <t ..J <( a a 0 U a Ul U . U U DESCRIPTION • 0 CL Sandy Clay (Topsoil) Brown Moist Stiff -- ....: 2 _ -CL Silty Clay(Santiago Formation) Green-Moist Very Stiff - brown to Hard 4 _ • - 6 _ SM Silty Sand Buff Moist Dense - I- Trench Ended at 7' -• --- -TRENCH NUMBER 20 - ---• - 0 CL Silty Clay (Topsoil) Brown Very Medium -Moist Stiff - .. 2 SM Silty Sand(Santiago Formation Light Moist Dense -• -Grey 4 _ Contact with Hypabyssal Rock - -Dipping 400 West -- -6 - • -f'.... Trench Ended at 6' ---.-----• -.... ------• --- .~ ________________________ -------r----------------~----------~~ EXPL.ORATION L.OG • 1.-------.- SOUTHERN CALIFORNIA SOIL & TESTING, INC. -------.-._.---------_. ---'- SUBSURFACE ,-OGGEO B { CRB • '-= i:3 t .LJI'vIBEl"l· 14143 .------ DArE LOGGEO' 3-16-83 Plate No. 20 -.--- • z ! '"3 ~ w 0 >-0 2: I-TRENCH NUMBER 21 >-w a. i:: I-W I-U >-'I-W 2: wZ w >-<i Z er Z Z ': rii~ er I->0 LL I-er W J W W Ol J Z i=i= ~ ..J U ELEVATION 0 er I-Z ZLL W 6~ er I-wU I-W <iu I ..J ..J <i Ol <i en w O~ en I-...J<i I-a. OlOl 0 a. -a. rii 0 o Z wa. a. 2 Ol U a. 0 a. Z a: >-2 a er 2 w <i ,<i 2 <i 0 0 er 0 <i ...J 0 U 0 Ol U . U U DESCRIPTION 0 CL Silty Clay (Topsoil) Brown Very Moist Medium • -Stiff - 2 SM Silty Sand (Santiago Light Grey Moist Dense -Formation) ... • 4 -- -Contact with Hypabyssal Rock - 6 -dipping 400 West - -- • 8 -- -- 10 _ - -- • 12 -- -TRENCH NUMBER 22 - -- 0 CL Silty Clay (Topsoil) Brown Moist Sl;.iff • 2 ,~ - K Silty C1ay(Weathered Hudstone Green-Moist Very Stiff -brown to Hard - 4 -SM Silty Sand (Santiago Buff-white Moist Dense • -Formation) - 6 -- -.... 8 -.... -• -.... 10 _ .... Trench Ended at 11' • -.... -.... • ~ SUBSURFACE EXPLORATION LOG SOUTHERN CALIFORNIA LOGGEO BY OArE LOGGEO'· SOIL & TESTINGJ INC. CRB ): .... 16-83 .JOB 'Jur..,lBER 14143 Plate No. 21 .... _ .. _------------------.-~--. ----• • • z --i *-W 0 TRENCH 23 > > > --Il. t-NUMBER t-w t-o t-t-*-Z --: > z ex: z z -w -w 0 -t-< w ::l W w en en ex: > -0 -oJ -ex: t-ex: t-Z z -::J t--t- :t: W 0 u. ELEVATION < en en w w ... t-Z t-o oJ -cC -Q (,) en w < c( t-Il. en Il. Il. en Q 0. Il. en Il. 0 . -t-oJ Il. ~ en :E Il. Z ex: > 0 Z w :E w < < cC 0 ex: :E ex: 0 < 0 0 0 en oJ 0 0 0 0 u DESCRIPTION u SM/ Brown Silty Clayey Sand Moist Medium ~ (Topsoil) Dense - 2_ • CL Gray Brown Silty Clay Moist Stiff 4_ SM ~uff Silty Sand (Santiago Moist Dense Formation) - -- 6_ -• -Contact with Hypabyssal Rock -8 Dipping 300 Wes t -- Trench Ended at 9' --• -- TRENCH NUMBER 24 -- -- 0 • SM/ Brown Silty Clayey Sand Moist Medium -SC (Topsoil) Dense - 2_ ---CL Gray Brown Silty Sand Moist Stiff -- 4 • eL/ Brown Sandy Clay/Clayey Sand -SC (Weathered Sandstone) - 6 Hypabyssal Rock Trench Ended at 7' -• -_. - -- -- -• ------- • • ~ SOUTHERN CALIFORNIA SUBSURFACE EXPLORATioN LOG SOIL & TESTING,INC. LOGGED BY: CRE DATE LOGGED: 4-25-83 JOB NUMBE'R: I 14143 Plate No. 22 • z - UJ 0 TRENCH > ~ 0.. i= NUMBER 25 I-0 > > -- -: > UJ l-I-~ Z -< z a:: z z I--W I- -W 0 -~ u w :') w w en en a:: -- > UJ ELEVATION a:: l-I-Z :') l-I- ::t 0 u. a:: z ..... ..J -< en < en w w -... Z I-0 I-0.. en CIl 0.. Q u W Q. ::IE CIl 0 0.. CIl Q " c. CIl < Cc W 0.. 0.. -I-..J 0.. 0 < « < ::E < z a:: > 0 Z w ::E CIl ..J 0 0 a:: ::E '0 a:: 0 DESCRIPTION 0 Q 0 0 u • 0 SM/ Brown Silty Clayey Sand Moist Medium -~ (l'opsoil) Dense 2 ~ Gray Brown Silty Clay Moist -,- -Stiff • 4_ SM Buff Silty Sand (Santiago Moist Dense Formation) Contact with - -Hygabyssal Rock Dipping 6_ 45 West --• -- 8 Trench Ended at 8' ----• --------• ---- -.-1 ----• _. -------• --, ------• --... --- • ~ SOUTHERN CALIFORNIA SUBSURFACE EXP.'LORAT ION 'LOG SOIL & TESTING,INC. LOGGED BY: eRE DATE LOGGED: 4-25-83 JOB NUMBER: 14143 Plate No. 23 • • DIRECT SHEAR TEST RESULTS angle of cohesion SAMPLE DESCRIPTION , Internal intercept • friction (0) (psf) T-2 @ 6' Buff White Silty Sand, Undisturbed 19 200 T-5 @ 4'-5' Buff White Silty Sand, Remoded to 90% 32 200 Remolded • B-1 @ 3'-5' Light Green-brown ClayeY,Silty Sand. to 90% 30 400 B-1 (iI 21' -22' r.rppn-prpv Siltv Clav 19 42') Remolded. B-2 @ 13' -15' Light Greenish-grey Clayey Silty Sand, to 90% 29 350 I • I , I • MAXIMUM DENSITY and OPTIMUM MOISTURE CONTENT ASTM D-1557-78 METHOD __ A_ • maximum optimum SAMPLE DESCRIPTION denSity moisture (pet) content (era) T-5 @ 4'-5' Buff White Silty Sand 114.0 14.0 • B-1 @ 3'-5' Light Green-brown Clayey Silty Sand 126.2 10.2 B-1 @ 21' -22 ' Green-grey Silty Clay 119.0 11.0 "R .• ? ra 1 l' 1 c; , Lieht Greenish-.e:rev Clayey Silty Sand 121.3 11.8 • - • - • 4b SOUTHERN CALIFORNIA Calavera Hills Village G SOIL & TESTING. INC. BY DATE 3-23-83 ••• 0 ""V."'O .... L •• T"' •• T DBA -..... N 0'.00, CAL'IIORN'A •• 1.0 JOB NO. Plate No •. _ 24 1414 '3 ~-. ----.----'-------------------.------.-------' ----'-.. ---_.-----. ---. ..... ---. --. --~-......... ; ... -.-._-----• • EXPANSION TES-iESULTS --- SAMPLE T-4 @ 3' T-5 @ 4'-5' T-8 @ 5' T-9 @ 3' T-12 @ l' • CONDITION Undisturbed Remolded & Undisturbed Undisturbed Undisturbed Air n-riArl Air nriAt1 Air nrio;! A.i.,. . Dri pn Air Dri,::.;! INITIAL M.C.(o/.) 5.7 6.9 4.7 3.7 8.7 INITIAL DENSITY(PCF) 100.1 . 102.6 98.7 107.5 101.4 • FINAL M.C.(o/o) 23.1 22.0 22.7 17.4 34.2 NORMAL STRESSCPSF) 150 150 150 150 150 E XPAN SION (o/o) 1 2 0 0 22 • SAMPLE B-1 @ 3'-5' B-1 @ 21'-22' B-2 @ 13 '-15' CONDITION Remolded & Remolded & Remolded & Air Dried Air Dried Air Dried • INI TIAL M.C.(o,o) 9.6 6.3 5.0 INITIAL DENSITY( PCF) 114.5 108.0 109.4 FINAL M.C. (0/0) 15.2 21.8 17.3 • NOR/viAL STRESS(PSF) 150 150 150 EXPANSION (0/0) 3 7 3 • SAMPLE , CONDITION i INITIAL M.C.(o/o) • INITIAL DENS1TY(PCF) - FINAL M.C. (0/0 ) , NORMAL STRESS (PSF) • EXPANSION (0/0) . <$> SOUTHERN CALIFORNIA TESTING LABORATORY, INC • 6280 RIVERDALE STREET SAN DIEGO. CALIFORNIA 92120 714·280·4321 • BY DBA DATE 4-26-83 JOB NO. 14143 Plate No. 25 -• .. - ---~ -• , GRAIN SIZE ANALYSIS AND ATTERBURG LIMITS . : • SAMPLE T-5 @4'-5' rr-17 @ 9' B-1@21'-22 B-2@13'-15 B-2@29'-30 I 6" 4" • 3" 2" .' 1~" , I en , ..... w %" I I-> I :I: W I ~ Ci5 • [j 0 %" 100 ~ a: ~ ~ #4 z 99.9 100 100 100 a: ~ w en I z uj #8 99.6 .I u:: 99.1 97.7 99.5 100 I ~ ::; . ...., #16 97.4 92.4 98.5 99.8 97.5 . 1 ! z I 0 #30 I ~ 95.2 82.1 96.8 99.0 94.4 • 0 < #SO a: 89.9 66.4 91.9 97.9 88.3 ~ , • .:#100 I 64.2 48.5 78.6 73.6 68.6 ! #200 34.7 28.0 54.1 41.7 50 ~ 7 I >-.05mm 15.0 48.0 38.0 49.0 a: to-• w :E .OO5mm 4.0 26.0 22.0 22.0 0 a: 0 >-.OO1mm 2.0 10.0 11.0 7.0 :I: , .. • LIQUID LIMIT 33 26 33 PLASTIC LIMIT 16 20 15 • PLASTICITY INDEX 17 6 18 I .1 I I UNIFIED ! ! I I CL CLASSIFICATION SM SM CL SC • ~ SOUTHERN CALIFORNIA SOIL & TESTING LAB. INC. BY DBA DATE 4-26-83 I!ceo RIVERCALE STREET !!IAN OIEGlO. CALIFORNIA 8&;11&;10 Jns NO 1 !, 1 !. 'l, Plnte Xn. 26 - • .. • • • • • • • • SLOPE STABILITY CALCULATIONS Janbu·s Simplified Slope Stability Method AC0= WH Ton0 C FS=NC¢< C ) WH Assume strength parameters throughout the slope 2' ( 0) C {~sf} W s (~cf) Incl. H {ft} FS Cut Slope 19 200 120.0 2:1 12 1.9 Cut Slope* 19 425 118.9 2:1 23 2.0 Fill Slope 32 200 117.0 2:1 50 1..7 *Used rernol ded shea r strength parameters in 1 i eu of undi stu rbed parame- ters, resulting factor of safety should be considered conservative. Where: 0 = Angle of Internal Friction C = Cohesion (psf) Ws = Unit weight of Soil (pcf) H = Height of Slope (ft) FS = Factor of Safety SCS&T 14143 Pl ate No. 27 SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • SURrICIAl SLOPE STAOILITY SLOPE SURfACE LWES ~ Z ~ ~ POTEtlTlAl FAILURE SURFACE RESOLUT IOU OF FORCES -S.l\TUAATED SLOPE Assume: (l) Saturation of slope surface to depth z (2) Flow lines parallel to slope surface Ww = Ws = Fd :: Fr = F.S. Unit weight of water Unit weight of soil Oriving force Resisting force Fd = b Fr = b z Us sin a cos a = ..!J:. = z Fd z (Ws-\"w) cos 2a tan" + c b (Ws -W\,/) cos2a tan " + c Z Ws sin a cos a tan" c 2 tan a + = z Ws sin a cos a F.S. • c " a Factor of Safety = C~h1s1yn along plane o a 1 ure . • I\nqle of internal albn!} friction plane of failure let \~ :II ~s . 2 SOUTHERN CALIFORNIA SOIL • TESTING. INC. Lake Cal avera Hills Village G ••• a AIV.ACAL. •• TR •• T .AN CI.ac, CALII'"CRNIA .a1ao BY Carlsbad, CA DBA CATE 4-26..,83 . JOB NO. 14143 Plate No. 28 ) L-____________________________ ~ _______________ ~ ________ ~ __ __ • • • • • • SURFICIAL SLOPE STABILITY I Z = 3 ;50 C {est} Ws {ect} 19 200 120.9 19 425 118.9 32 200 117.0 INCle 2:1 2:1 3:1 FS 1.7 3.3 2.1 SCS&T 14143 Plate No. 29 SOUTHERN CALIFORNIA SOIL AND TESTING. INC. I -. • ~ (II • m 0 ~. 0 c D· F -t --I .0 Q I Qe m P <: -f D n. m Z ) 11 CD .... 0 ij)-fO 0 .... -l* ]I. 2 z. i );-iQ- ]I. "1t .-0 .--.. -t 2 D ~ n 2 . -~ (... ~I 0 (')<It"' (D III ....,-III ~ Ii 1-'" ?' I--" I--" CD Ul III cr' CQ (') ~1"I~ro1'. .p.. t:d .. GJIll .....;J.>o <: .1::-' (') CD W > Ii III ::r:: ....,. I--" I--" Ul J '"d ~ r'" m Pl rt CD +;--:z: I -::> tv (j\ I 51~ • • • • • H/2 IH 2 • • (3/~)H • • H/~ NONSELECT FILL TOPSOIL & ALLUVIUM MAY BE PLACED IN THIS AREA ,TOPSOtlL TO BE: REMOVED SELECT FILL ( NONEXPANSIVE) ---------- ,.,--N~TUR~L fORMATIONAL SOILS~ Select Fill Area (N~tive silty and clayey sands 'per soils enqineer's approval in the field) • , ) ) ) 1 ) ) ORIGINAL GROUND / / / .. , .. \: ', .. . , . . , .' It .. : : .:. :: \~ -. , . . . e' \ ~ • , . " . . . . ~' .... . , ... . . . " .\. . .' . , . . .' \ ' .. . , \.: . . • '.' t \ . . ., '\ . : . . . Cm1PACTED FILL . . , . /"" ./ . ". I . . ...... . . . "'. ./ . .. . '-.... .. -'.', ':'" ........ , /. . .... ........... ... ... .. ..' .-. ............. ...:... / .. -==;::===;;:::~~:::;=-::"\ , 13" MI~1 ---I 4" r-lIN 4" DIAMETER PERFORATED PIPE -MINIMUM 1% SLOPE PIPE MATERIAL DEPTH OF FILL OVER SUS DRAIN 8 20 MHlUS 1" CRUSHED ROCK CO~PLETELY SURRO~NDED BY FILTER FABRIC, OR CLASS II PERMEABLE r~ATERIAL ADS (CORRUGATED POLETHYLENE TRANSITE UNDERDRAIN PVC OR ASS: SDR 35 SDR 21 35 100 SCHEMATIC ONLY NOT TO SCALE SOUTHERN CALIFORNIA SOIL & TESTING J INC. ••• 0 RIVEROALE .TREET .AN OI.caO, CALIFORNIA a.1RO TYPICAL CANYON SUBDRAIN Lake Calavera Hills Village G Carlsbad, CA BY DBA JOB NO. 14143 DATE 4-26-83 Plate No. 31 • I:-m 0 -< CD Z t:I P I:d :> EI I J '"U 0 I-' ~ . III m" rr rTl I +=--'Z I '0 N /-Cl' I w co N w. • ~ (J) : m 0 z. 0 C o.,--i _. r I 1110 g D go m ~ < -i D ,. ~ m Z co en ~ ~ -i n Dill -~ ~. 2 i ,.-ICl-ll. '11 11111 .,11-0 ~-I 2 D o P ~ l> o<:t""' III 1-'-III lil-'?" 1-'1-'(1) CJl III 0"' ()Q 0 III (I> III P-I-' G11ll <: 0 (I> :> Ii III ::x:: 1-'- I-' I-' CJl • • • ZONE B WINDROWS DETAIL SECTION PLAN VIEW . . ~" 12' min ~ NOTES 1. Compacted soi 1 fill shaH contain at 1 east 40 percent soil sizes passing 3/4-inch sieve, (by weight), and ~ compa~ted in accordance with specificatiQns for structural ,fill. 2. Rocks over 4 feet in maxirum dimens.ion not permitted in fill. • • Clean (SE> 30) Granular Soil Flooded to Fill Voids Around and Beneath Rocks Excavate or Trench for Windrows o o (> • • OVERSIZE ROCK DISPOSAL (Structural Soil-Rock Fill) 5' min ' . ZONE A o o LEGEND ~ ZONE C D' • ZONE A: Compacted 50i 1 fi II, No rock fragments oller 6 inches in greatest dimension. ZONE B: Rocks 2 to 4 feet in maximum dimenSion placed in windrows in compacted soil fill conforming to ZONE A. ZONE C: Rocks 6 inches to 2 feet in maximum di'men5ion uniformly distribu- ted and well spaced in compacted soil fill conforming to ZONE A. ZONE 0: Required for all existing slopes 6:1 and steeper, 90% minimum compdct ion, ZONE A, B, or C material inay be used for ZONE O. • P/L "'~' .... -. . o o o E • • • , ) ) ) SCS&T 14143 April 26, 1983 Appendix A, Page 1 RIPPABILITY STUDY RIPPABIlITY CHARACTERISTICS OF HYPABYSSAl ROCKS Rippable Condition (O-4,SOO Ft./Sec.): This velocity range indicates rippable materials which may vary from decomposed metavolcanics at lower velocities to only slightly decomposed, fractured rock at the higher velocities. Although rippable, materials may be produced by excavatfon that will not be useable in structural fills due to a lack of fines. Experience has shown that material within the range of 4;000 to 4,500 fps most often consists of severely to moderately fractured rock with little or no fines and sizeable quantities of + 1/4" material. For velocities between 3,500 to 4,500 fps, rippability will be difficult for backhoes and light trenching equipment. Marginally Rippable Condition {4,500 -5,500 Ft./Sec.}: Excavations in this velocity range would be extremely time consuming and would produce fractured rock with little or no fines. The higher velocities could require blasting. Trenching equipment would not function. Nonrippable Condition (5,500 "Ft./Sec. & Greater): This velocity range may include moderately to slightly fractured rock which would require blasting for removal. Material produced would consist-of a high percentage of oversize and angular rock. Rippability of metavolcanics could be accomplished for higher velocities using the Caterpillar 0-9 with the #9 D Series Ripper. Due to the frac- tured nature of the metavolcanics, ripping might be accomplished in as high as 8,100 fps material. SOUTHERN CALIFORNIA SOIL ANO TESTING. INC. • • • • • • • • • • SCS&T 14143 Ap ri 1 26, 1983 Appendix A, Page 2 TABLE I Seismic Traverse Velocity (ft.jSec.) Depth (ft.) Length of No. Vl V2 D1 D2 Traverse (ft.) 1 1000 5000 5 30+ 100 2 1000 6000 8 30+ 100 VI = Velocity of fi rst layer of materials. V2 = Velocity of second layer of materials. 01 = Depth to base of fi rst 1 ayer. 02 = Depth to base of second layer. For mass grading, materials with velocities of less than 4500 fps are generally ri ppab 1 e with a D-9 Caterpi 11 ar Dozer equi pped with hydraul i c rippers. Velocities of 4500 to 5500 fps indicate marginal ripping and blasting. Velocities greater than 5500 fps generally require preblasting. The r,eported velocities represent average velocities over the length of each traverse and should not generally be used for subsurface interpre- tation greater than'100 feet from a traverse. For trenching, materials with velocities less than 4000 fps are generally rippable, depending on the degree of fracturing and the presenc~ or ab- sence of boulders. Velocities between 4000 amd 4500 fps generally indi- cate marginal ripping, and velocities greater than 4500 fps generally indicate nonrippable conditions. SEISMIC TRAVERSE LIMITATIONS The results of the seismic survey for this investigation reflect rippabil- ity conditions only for the areas of the traverses. However, the condi- SOUTHERN CALIFORNIA SOIL AND TEST~NG. INC. • • • • ) SCS&T 14143 April 26, 1983 Appendix A, Page 3 tions of the various soil-rock units appear to be similar for the remain- der of the site and may be assumed to possess similar characteristics. The seismic refraction method requires that materials become increasingly dense with depth. In areas where denser, higher velocity materials are underlain by lower velocity materials, the lower velocity materials would not be indicated by our survey. All of the velocities used as upper limits are subject to fluctuati-on depending upon such local variations in rock conditions as: a) Fractures, Faults and Planes of Weakness of Any Kind b) Weathering and Degree of Decomposition c) Brittleness and Crystalline Nature d) Grai n Size Further, the range of rippability using Caterpillar equipment may be increased using heavier equipment. However, it should be noted that ripping of higher velocity materials may become totally dependent on the time available and the economics of the project. Ripping of higher velec- ity materials can be achieved but it may become economically i·nfeasible. SOUTHERN CALIFORNIA SOIL AND TESTING. INC. • • • • • • • • • • • SCS&T 14143 April 26,1983 Appendix B, Page 1 LAKE CALAVERA HILLS, VILLAGE G, CARLSBAD, CALIFdRNIA RECOMMENDED GRADING SPECIFICATIONS -GENERAl PROVISIONS GENERAl INTENT The intent of these specifi cat ions is to establ ish procedu res for cl ear- ing, compacting natural ground, preparing areas to be filled, and placing and compact i ng fi 11 soi 1 s to the 1 i nes and grades shown on the accepted plans. The recommendations contained in the preliminary soil investiga- t i on report and/or the attached Speci alP rovi si ons are a part of the Recommended Grading Specifications and shall supersede the provisions contained hereinafter in the case of conflict. These specifications shall only be used in conjunction with the soil report for which they are a part. No deviation from these specifications will be allowed, except where specified in the soil report or in other written commu·nication signed by the Soil Engineer. OBSERVATION AND TESTING Southern California Soil & Testing, Inc. shall be retained as the Soil Engineer to observe and test the earthwork in accordance with these speci- fications. It will be necessary that the Soil Engineer or his representa.- tive provide adequate observation so that he may provide an opinion that the work was or was not accompli shed as speci fi ed. It sha 11 be the re- sponsibility of the contractor to assist the soil engineer and to keep him apprised of work schedules, changes and new information and data so that he may provide these opinions. In the event that any unusual conditions not covered by the special provisions or preliminary soil report are encountered during the grading operations, the Soil Engineer shall be contacted for further recommendations. • • • • • • • • SCS&T 14143 April 26, 1983 Appendix B, Page 2 If, in the opinion of the Soil Engineer, substandard conditions are -en- countered, such as; questionable or unsuitable soil, unacceptable moisture content, inadequate compaction, adverse weather, etc., he will be empower- ed to either stop construction until the conditions are remedied or cor.,. rected or recommend rejection of this work. Test methods used to determine the degree of compaction should be per- formed in accordance with the foll owi ng Ameri can Soci ety for Testing and Materials test methods: Maximum Density & Optimum Moisture Content -A.S.T.M. 0-1557-78. Density of ~oi1 In-Place -A.S.T.M. 0-1556-64 or A.S.T.M. 0-2922 • All densities shall be expressed in terms of Relative Compaction as deter- mined by the foregoing A.S.T.M. testing procedures • PREPARATION OF AREAS TO RECEIVE FILL All vegetation, brush and debris derived from clearing operations shall be removed, and legally disposed of. All areas disturbed by site grading should be left in a neat and finished apperance, free from unsightly debri s. Any abandoned buried structures encountered during grading operations must be tota 11y removed. All underground util it i es to be abandoned beneath any proposed structure should be removed from within 10 feet of the structure and properly capped off. The resulting depressions from the above des- cribed procedures should be backfilled with acceptable soil that is com- pacted to the requirements of the Soil Engineer. This includes, but is not limited to, septic tanks, fuel tanks, sewer lines or leach lines, SOUTHERN CALIFORNIA "'OIL AND TE"SfING. INC. • SCS&T 14143 Ap ril 26, 1983 Appendix B, Page 3 • _ storm drains and water lines. Any buried structures or utilities not" to be abandoned should be investigated by the Soil Engineer to determine if any special recommendation will be necessary. • • • • • • • • • All water wells which will be abandoned should be backfilled and capped in accordance to the requi rements set forth in the Geotechni ca 1 Report. The top of the cap should be at least 4 feet below finish grade 6r 3 feet below the bottom of footing whichever is greater. The type of cap will depend on the di ameter of the we 11 and shou 1 d be determi ned by the. Soi 1 Engineer and/or a qualified Structural Engineer. When the slope of the natural ground receiving fill exceeds 20% (5 hori- zontal units to 1 vertical unit), the original ground shall be stepped or benched. Benches sha 11 be cut to a fi rm competent soi 1 condi t i on. The lower bench shall be at least 10 feet wide or 1 1/2 times the equipment width which e.ver is greater and shall be sloped back into the hillside at a gradient of not less than two (2) percent. All other benches should be at least 6 feet wide. The horizontal portion of ·each bench shall be compacted pri or to recei vi ng fi 11 as specifj ed herei nbefore for compacted natural ground. Ground slopes flatter than 20% shall be benched when considered necessary by the Soil Engineer. After clearing or benching, the natural ground in areas to be filled shall be scarifi ed to a depth of 6 ; nches, brought to the proper moi stu re con.,. tent, compacted and tested for the minimum degree of compaction in the Special Provisions or the recommendation contained in the preliminary s6il investigation report. All loose soils in excess of 6 inches thick should be removed to firm natural ground which is defined as natural soil which possesses an i n-s itu density of at 1 east 85% of its maxi mum dry dens ity. SOUTHERN CALIFORNIA SOIL AND TFSrING. I~C . • • • • • • • • SCS&T 14143 April 26, 1983 Appendix B, Page 4 FILL MATERIAL Materials placed in the fill shall be approved by the soil engineer and shall be free of vegetable matter and other deleterious substances. Gran- ular soil shall contain sufficient fine material to fill the voids. The definition and disposition of oversized rocks, expansive and/or detri-men- tal soils are covered in the soils report or Special Provisions. Expan:" sive soils, soils of poor gradation, or soils with low strength character- istics may be thoroughly mixed with other soils to provide satisfactory fill material, but only with the explicit consent of the soil engineer. Any import material shall be approved by the Soil Engineer 'before being brought to the site • PLACING AND COMPACTION OF FILL Approved fill material shall be placed in areas prepared to receive fill in layers not to exceed 6 inches in compacted thickness. Eac'h layer shall have a uniform moisture content in the range that will allow the compac- tion effort to be efficiently applied to achieve the specified degree of compaction. Each 'layer shall be uniformly compacted to the minimum speci- fi ed deg ree of compact ion with equ i pment of adequ ate ~ i ze to economi ca lly compact the layer. Compaction equipment should either be specifically deSigned for soil compaction or of proven reliability. The minimum degree of compaction to be achieved is specified in either the Special Provisions or the recommendations contained in the preliminary soil investigation report • When the structural fill material includes rocks, no rocks win be allowed to nest and all voids must be carefully filled with soil such that the minimum degree of compaction reconmended in the Special Provisions is SOUTHERN CALIFORNIA SOIL AND Tf:.5TING. INC. • • • • • • • • • • • SCS&T 14143 Ap ri 1 26, 1983 Appendix B, Page 5 . achieved. The maximum size and spacing of rock permitted in structural fills and in non-structural fills is discussed in the soil report, when applicable • Field observation and compaction tests to estimate the degree of compac- tion of the fill will be taken by the Soil Engineer or his representative. The location and frequency of the tests shall be at the Soil Engineer's discretion. When the compaction test indicates that a particular layer is less than the required degree of compaction, the layer shall be reworked to the satisfaction of the Soil Engineer and until the desired relative compaction has been obtained. Fill slopes shall be compacted by means of sheepsfoot rollers or other suitable equipment. Compaction by sheepsfoot rollers shall be at vertical intervals of not greater than four feet. In addition, fill slopes at ratios of two horizontal to one vertical or flatter, should be track- rolled. Steeper fill slopes shall be over-built and cut-back to finish contours. Slope compaction operations shall result in all fill materi·al six or more inches inward from the finished face of the slope having a relative compaction of at least 90% of maximum dry density or that speci- fied in the Special Provisions section of this specification. The compac- tion operation on the slopes' shall be continued until the Soil Engineer is satisfied that the slopes will be stable in regards to surficial stabil- ity. S10pe tests wi 11 be made by the Soi 1 sEngi neer duri n9 constructi on of the slopes to determine if the required compac:tion is being achieved. Where failing tests occur or other field problems arise, the Contractor will be notified that day of such conditions by written communication from the Soil Engineer in the form of a daily field report • SOUTHERN CALIFORNIA SOIL AND TESTING. I !'.I C . • • • • • • • • • SCS&T 14143 April 26, 1983 Appendix B, page 6 If the method of achieving the required slope compaction selected by the Contractor fails to produce the necessary results, the Contractor shall rework or rebuild such slopes until the required degree of compaction is obtained, at no additional cost to the Owner or Soils Engineer. CUT SLOPES The Engineering Geologist shall inspect all cut slopes excavated in rock or lithified formational material during the grading operations at inter- vals determined at his discretion. If any conditions not anticipated in the preliminary report such as perched water, seepage, lenticular or confined strata of a potentially adverse nature, unfavora.bly inclined bedding, joints or fault planes are encountered during grading, the,se conditions shall be analyzed by the Engineering Geologist and Soi i Engi- ,neer to determine if mitigating measures are necessary. Unless otherwise specified in the soil and geological report, no cut slopes sha 11 be excavated hi gher or steeper than that a 11 owed by the ordinances of the controlling governmental agency. ENGINEERING OBSERVATION Field observation by the Soil Engineer or his, representative shall be made during the filling and compacting operations so that he can express his opinion regarding the conformance of the grading with acceptable standards of practice. The presence of the Soi 1 Engineer or his representative or the observation and testing shall not release the Grading Contractor from his duty to compact all fi 11 material to the specified degree of compac- tion. SOUTHERN CALIFORNIA SOIL AND TESTING. I:-.IC, • • • • • • • • • a SCS&T 14143 April 26, 1983 Appendix B, Page 7 SEASON LIMITS Fill shall not be placed during unfavorable weather conditions. When work is interrupted by heavy rain, filling operations sha11 not be resumed until the proper moisture content and density of the fill materials can be achieved. Damaged site conditions resulting from weather or acts of God shall be repaired before acceptance of work. RECOMMENDED GRADING SPECIFICATIONS-SPECIAL PROVISIONS The minimum degree of compaction to be obtained in compacting natural ground, in the compacted fi 11, and in the compacted backfi 11 shall be. at least 90 percent. Detrimentally expansi ve soil is defi ned as soil whi ch wi 11 swell' more than 3 percent agai nst a pressu re of 150 pounds per square foot from a condi- tion of 90 percent of maximum dry density and air dried moisture content to saturation. Oversized fill material is defined as rocks or lumps over 6 inches in di ameter. At 1 east 40 percent of the fi 11 soil s shall pass through a No. 4 U.S. Standard Sieve. Transition Lots: Where transitions between cut and fill occur within the proposed building pad, the cut portion should be undercut a minimum of one foot below the base of the proposed footings and recompacted as structural back fill. SOUTHERN CALIFORNIA SOIL ANO rESTING. INC \ • " " -------- .J...----.;.--- NATURAL • . . SCALE 1.= 40 , ' , ' , "<,; ~. ! " ~, . , ; , .,?-,~~ " . , -........ ~~----.-~ ,,""-.'~-"" --- ------,---'" 19 , " \ " \ \ • ~ \ -\ CK \ \ \ • - 1 .: ·f ! i " ~ I ! -":- 1 LIMITS OF , '-:r .. , '+- , :~~~ .. , -'} TOPSOIL & , ' DISPQSAL 'AREA , , , .. EXPANSIVE E:.\.:.M ALLUVIUM. REMOVAL SOILS ,AT FINAL' GRADE " . ',' " . .. ' SCALE . " 1=40 '/ ~. .. --.- .. -'.-. CAUFORNIA INC. " ; , ) ,; ~~~~.. ~ ,t ~~.~ -~ I~~c:.. 2:'"",.::..;;;:;;:;;.::;;.;..:;;;:;;;.;.;;',,' .::.....:;" .... ___________ ....... '.-.',;',;./