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Home My WebLink AboutCT 73-35; LA COSTA SOUTH UNIT NO. 5; FOUNDATION SUPPORT ON EXPANSIVE SOILS; 1973-06-08PHII.IP·HENKING BENTON PRESIDENT· CIVIl. ENGINEER Mr. George Fletcher Civil Engineer 2188 San Diego Avenue San Diego, California 92110 BENTON ENGINEERING, INC. APPLIED 5011. MECHANICS --FOUNDAT10!:'!S 6717 CONVOY COURT SAN DIEGO, CALIFORNIA 921·11 June 8, 1973 Subjecr: Our Project No. 73-6-6F .Foundation Support on Expansive Soils La Costa South Unit No.5 Carlsbad, Cal ifornia Dear Mr. Fletcher: TEI.c:pHONE (714) 565·1955 ·UECEIVED JUN lll~73 " Cl!Y ·D.f CARLSBAD'. , Engmeerrn~ Department Pursuant to your request, we have reviewed the recommendations for constr~ctiori o~ expansive '" -soils presented in our report on this project dated October' 19, 1970 wi.th regard to the us~of: isolated interior pier fooHngs. The reference to isolated interior pier footings on P9ge 3 was primarily ~oncerning s;n'all con-' crete piers sometimes used to support wood joist floor systems for resiqenti.cil type dwellings. It is our opinion that for apartment or condominium buildings, isolated interi,or footings supporting concentrated column.loads could be used satisfactorily provided they are placed at least two feef below finished grade and adequately reinforced. It is also. recommended fhat th\'3 adjacent fl06r slab be structurally separated from the column footings by a 1/2 inch t~ickne:ss of-construction felt or eql!ivalent. :-t Respectfully submitted, ~ENTON ENGINEERING, INC. By'd?C:: R~ R. C. Remer .. -' Distr: (2) . Addressee , (1) 'City of Carlsbad -Engineeri'n9Pept. Attention: Mr. ~ Ray' Green RC ~/PHB/ meg " ':'.' , .. ' " , . .... ---; Project No. 70-1-5D Rancho La Costa, Inc. -3-October 19, 1970· Type BLots: 331, 339, ,.352, 384, 408 "'-'-- . It is recommended that the following special design and precautions betaken for the h~u$e~ to be constructed on the lots: 2. 3. 4 •. 5. Type A Lots -Avoid the use of isolated interior piers. Use continuous. footings throughout, and place these at a minimum depth o£Jwo.feet J?elow}.he lowest adjacent exterior final ground surface. -~-.-. "------~. -. Reinforce and interconnect continuously with steel bars on interior end. exterior footings with one tiS bar at 3 inches above the bottom of the footings and one 115 bar placed 1 1/2 inches below the top of the stems of the footi ngs • Exercise every effort to assure that the soi I under the foundations and s]abs has a uniform moisture content, 1 percent to 3 percent gre.ater than optim~ni throughout the top 3 feet below finished grade at the time of placing founda- tions and slabs. Use raised wooden floors that span between continuous footings, or use a1:l 'concrete slabs with 6 x 6 -10/10 welded wire fabric end provide a minimum of 4 inches of clean sand beneath all concrete sLabs. Provi'dea moisture barrier 2 inches below slabs under living areas. Separate garage slabs from perimeter footings.by a 1/2 rnch thickness oEcon- struction felt or equivalent, to allow independent movem~nt of garage slabs relative to perimeter footings. Provide positive drainage away from all perimeter footings to a horizontal distance of at least 6 feet outside the house walls .• Type BLots Those Jots I isted above I as Type B lots should follow all the ab~ve-listed recommendations with the two following exceptions: 1. The continuous. footings may be placed at a minimum depth of 18 inches below the lowest adjacent exterior final ground surface rather than th~ two feet recommended for Type A lots. BENTON ENGINEERING. INC. ~'''II''.''L ~~ Proiect No, 70-1-50 Rancho La Costa, Inc. -4-Octob~r 1-9; 1970 2. Single 14 bars placed as directed (above) near tops and !:.ottoms ofal! interior and exterior footings may be substituted for the '5 bars·recom- mended for Type A lots. Recommendations 3 to 6, inclusive, as listed for Type A lots, are applicable to the Type B lo.ts olso. Respectfully submitted, BENTON 'ENGINEERING, INC. B~~~ Philip H. Be on, Civil Engineer Distr: (4) Addressee (2) Rancho La Costa, Inc. Attention: Mr. Burton L. Kramer (1) Rick Engineering Company (2) San Diego County Building Inspection Vista Offi ce BeNTON ENGINEERING. INC. .' " .;- "q .•.. ;. BENTON ENGINEERING. INC. APPLIED SOIL MECHANICS -FOUNDATIONS 6741 EL CAJON BOULEVARD SAN '01 EGO. CALI FORN I" ~211l5 PHILIP HENKING BENTON !'RESIDENT • ,CIVIL ENGINEER October 19, 1970 Ran cho Lc;1 Costa, I'n c • Route 1, Box 2550 Encinitas, California 92024 Subject: .Pr!~Je:ct,~70-1-5D 1 "C:ounty Perm irno:Ls:54S . Final Report on Compacted Fi lied Ground Lots 330 to 382, inclusive, Lots 389 to 394, inclusive, Lots 400 to 410, inclusive, and Certain Street Areas of aq;CiiitCE$~~O~~!:J Also certain of Site'""tlre'as-ai:Jlacent to Lots 368 to 370, inclusive and Lots 377 to 379, inclusive San Diego County, California Gentlemen: ' TO SAN DIEGO, !583·!5654 LA MESA' 469·56!54 , . (/p' TK'is is, to report the results of tests and observations madZ in order to inspect the compaction of fi·lled ground placed on certain areas of Lots 330 to 382, inclusive, '389 to 394, inclusive, 400 to 410, inclusive, and·on certain street ateas of La Costa Sou.th Unit No.5, also certain ·offsite areas adjacent to Lots ~8 to 370, inclusive, and Lots 377 to 379, inclusive, in San Oiego County, California·. The fiUs were placed during the period between January 6 and May 1, 1970. The approximate areas and depths of filled ground placed vnder our inspection in accordance with the approved specifi cations are shown oli the attached Drawing No.1, entitled /I Location of Compacted rilled Ground." The grading plan used for the placement of filled ground was prepared by Rick Engineering Company and dated Decembe.r 2, 1969 • . The approximate locations at which the tests were taken and the final test results are presented on pages Tl to Tl7, inclusive, .under the "Table of Test Results.I1 The laboratory determinations of the maximum dry densities and optimum moisture contents of the major fill materials are presented on page T18 f under the "laboratory Test-Results.1i Some of the maximum dry densities shown in the "Table of Test ,Results" were combinations of these. The tests were taken during the weekly periods indicated on the .following page. Proiect No. 70-'-50 Rancho La Costa, Inc. Test'Number 1 to 72, inclusive 73 to 106, inclusive 107 to 151, inclusive 152 to 221, inclusive 222 to 310, inclusive 310 to 321, inclusive -2- 322 to 350, inclusive S ~ 351 to 385, inclusive~7q,~7 386 to 427, inclusive ~ 428 to 471, inclusive 472 to 503, inclusive 504 to 516, inclusive 517 to 521, inclusive 522 to 542, inclusive 543 to 550, inclusive 551 to 579, inclusive October 'l~, 1970 Week Ending January 10" 1970 January 17, ·1970 January 24, 1970 January 31, 1970 February 7, 1970 February 14; 1970 Febru~ry 21, 1970 February 28, 1970 March 14, 1970 March 21, 1970 March 28, ]970 April 4, 1970 April 11, 1970 April 18, 1970 April 25,1970 May 2, 1970 The final results of tests arid obserVotions indicate that the compacted filled ground has been placed at 90 percent of the maximutTI dry density or greater. It has been determined that the. fill materials, compacted tQ 90 percent of the maximum. dry density, have a safe .bearing value of at least 2000 RQunds per square foot for one foot wide continuous footings founded at a mini- mum depth and placedfive feet or more inside the top of compacted filled ground slopes. If footings ore pierced closer to. the exposed slopes than 5 feet ·inside the top of compacted fiUed ground slopes, these should be deepened one foot l:>elow a 1 1/2 horizontal to 1 vertical line. projected outward anddQwnward from a point 5 feet horizontally inside the top of compacted fi lied ground slopes with the two fol-Iowing exceptions. The exposed compacted fi lied ground slopes to the rear of Lots 368 to 370, inclusive and Lots 377 to .,;3Z't., ... inclusive, which overlook the golf course, contain some large bOulders partially covered.and partially buried. It is recom- mended that minimum depth -footings in these Qreas be placed no closer than 10 feetinsJde the top of slope. ·1 f it is desired to support structures closer to the top edge of these. exposed slopes than 10 feet horizontally insIde the top of slopes, then it is recommended that the footings be deep- ened one foot below minimum depth for each 1.5 feet horizontal distance closer to the exposed slopes. Tests indicate that the compacted filled ground is adequate to satisfactorily support the proposed one or two story wood frame dwellings without detrimental settlements. In our report of the original investigation conducted at this subdivision, (Project No. 69-9-8C 'dated November 7, 1969), we stated that some lIexpansiveu solis existed on the site gnd if they were allowed to remain in the upper 3 feetbe'low finished grade some of the lots would require specially designed footings and slabs. We further stated that these lots would be listed upon the completior;ofgrading. The lots where expansive soils were observed to remain Within the upper 3 feet are tabulated as follows: .. , ~) Type A Lots: ive, 340 t9351, inclusive, 353 ~ , V'inclusive, 409 and 410 1zt2lf BENTON ENGINEERING, INC. • , . , Profect No ~ 70-1-5D Rancho La C9sta, Inc. Type BLots: -3- ~3102' 384,408 O.ctober 19, 1970 " It is recommended that the following special design and precautions betaken for the houses to . be constructed On the lots: .,'\.\ ~~ Type A L~ts "I ' 1 • Avoid the use of isolated interior piers ~ Use continuous footings throughout, and place these at (J minimum dep~~elow the. I~west ~ent ext~iQJ ... fjlJ.gig!ound surface. 2. Reinforce and interconnect continuously with steel bars all interior and exterior footings with one tiS bar ot3 inches above the bottom of the footings and one 115 bar placed 1 1/2 inches below the top of the stems 4. of the footings. . Exercise every effort to ossure that the soi I under the foundations and slabs ~.:. has a uniform moisture content, 1 percent to 3 percent greater than optimum throughout the top 3 feet below finished grade at the time of placing foundq- tions and slabs. Use rQised wooden floors that span between' continuous footings, or use all concrete stabs with 6 x 6 -10/10 welded wire fabric and provide amin.imum of 4 inches of clean sand beneath all concrete slabs. Provide a moisture barrier 2 inches below slabs under' !.iving areas. 5. Separate garage slabs from perimeter footings by a 1/2 inch thickness 'of con- struction felt or equivalent, to allow independent movemc:mt of garage slabs • relative to perimeter footings. 6. Provide positive drainage away from all perimeter footings to a horizontal distance of at least 6 feet outside the house walls. Type B ~ots Those Jots listed above, cis Type Blots should follow all the above-listed reeommendations with the fWo following exceptions: 1. The cOhtinuou~. footings may be placed at a minimum depth of18 inches below the lowest adjacent exterior final ground surface rather than the two feet reco":lmended for Type A lots • BENTON ENGINEERING, INC. .-~ PrOJect No. 70-1 ... 50 Rancho La Costa, In'c. -4-October 19, 1970 2. Single 14 bars placed as directed (above) near tops and bottoms of all interior and exterior footings may be substituted for the 115 bars recom- mended for Type A lots. Recommendations 3 to 6, inclusive, as listed for Type A lots, are applicable to the Type Blots also. Respectfully submitted, BENTON ENGINEERING, INC. B~,-1/Gl~ ~, Civil Engineer Oistr: (4) Addressee (2) Rancho La Costa, Inc. Attention: Mr. Burton L. Kramer (1) Rick Engineering Company , (2) San O'iego County Building Inspecfion Vista, Office BENTON ENGINEERIN';. INC. Project No. 70-1-5D Tl Rancho La Costa South Unit No. 5 , , TABLE OF TEST RE$UL TS ,:·e Approx-Depth Maximum imate of Fill Field Dry Dry Test Location at Test Moisture Density Density Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 1 347 2 12.9 l03.5 113.0 91.6 2 344 4 13.0 106. 1 113.0 94.0 3 343 2 12. 1 104.7 113.0 92.7 4 339 2 13. 1 108.9 115.0 94;7 5 351 2 8.1 10604 115.0 92.6 6 354 2 12.0 106.3 115.0 92.5 7 347 6 11.3 103.6 113.0 91.7 8 348 4 10.7 102.8 112. 1 91.6 9 352 4 9.6 109.6 115.0 95.3 10 '340 4 9.9 103.8 112. 1 92.5 11 354 6 10. 1 107.2 112.6 95.3 12 351 6 18.8 100.2 11'0.6 90.8 13 343 6 15.5 101.3 110'.6 91.8 14 .350 2 11.5 106 !·6 112. 1 95.0 15 348 8 16.9 100.0 110.6 90.6 16 344 8 15.6 98.5 109.0 90.4 . 17 347 10 18.4 102 .8· 110.6 93.0 e 18 352 8 14.7 104.3 112. 1 93.1 19 351 10 12.8 104.6 112. 1 93.3 20 348 12 16.3 98.3 ' 109.0 90.2 21 335. 2 17.5 102.3 110.6 92.6 22 336 4 16.6 104.2 112. 1 93~() 23 339 6 16.5 105.0 113.0 93.0 24 340 8 15.4 102.6 110.6 92.8 ·25 343 10 16'.6 100.3 110.6 90.8 26 344 12 16.7 101.8 112. 1 90.8 27 347 14 15.8 104.6 112. 1 93.3 28 332 4 14.9 102.2 112.6 90.9 29 335 6 "17.8 99.7 110.6 90.2 30 336, 8 13.9 104.9 112.6 93.2 . 31 339 10 18.7 101.2 110.6 91.6 32 340 12 16.5 100 .. 0 '11Q.6 90.5 33' 343 14 16.2 101.5 110.6 91.8 34 344 20 16.0 103.3 112.6 91.9 35 354 10 11.8 104.7 113.0 92.7 36 352 12 14.8 104. 1 112.6 92.5 37 353 14 14.1 105.2 . 112.6 93.6 38 347 18 17.4 100.4 110.6 90.9 39 344 16 18.7 102.8 110.6, 93.0 ·e 40 348 16 18.5 101.6 110.6 92.0 BENTON ENGINEERING, INC. Project No. 70-1-50 12 Rancho La Costa South Unit No. 5 , , TABLE OF TEST RESUL TS(CONT.) e Approx-Depth Maximum imate of Fill Field O~y Dry Test Location at Test Moisture Density Density Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 41 343 18 20.2 100.2 110.6 90.7 42 340 16 18.8 100.2 110.6 90.7 43 339 14 15.2 101.9 111.0 91.8 44 336 12 10.3 108.5 117.9 92.0 45 335 10· 19. 1 103.2 112. 1 92.1 46 332 8 18.5 101.8 110.6 92.1 47 331 2 19.8 99.3 109.0 91.0 48 331 4 20.0 10·1.6 109.0 93.3 49 347 22 21.4 98.0 109 .0 90.0 50 353 4 17.5 101.7 110.6 92.0 51 349 4 20.9 99.8 109 .0 91.5 52 350 6 19.8 102. 1 109 .0 93·.6 53 344 24 18.2 102.8 110.6 93.0 54 343 22 19.7 101.8 110.6 92.1 55 349 8 17.2 105.0 115. 1 91.2 56 350 10 15.2 99. 1 109.0 90.9 57 354 12 14.7 105.5 115. 1 91.6 58 351 16 15.7 102.8 112.3 91.6 59 353 6 15.7 104.2 114.0 91.5 60 331 6 17.9 103.8 112. 1 92.5 61 352 14 18.4 104.2 112.3 92.8 62 340 20 18.6 101.6 110.6 92.0 63 339 16 14.9 101.1 110 .. 6 91.5 64 348 18 15.3 103.4 112.3 92.1 65 347 24 17. 1 102.6 112.3 91.3 66 340 22 15.2 101. 1 112.3 90.0 67 339 18 13.4 103.2 114.0 90.6 68 336 14 16.5 108.8 115. 1 94.5 69 La Costa Ave. 2 13.8 102.3 112.3 91.1 Opp.350 70 335 12 18.6 102.3 112.3 91 1 .. 71 332 10 15.2 105.2 115. 1 9L5 72 331 8 17.6 102.4 112.3 91..2 73 331 10 18.6 105.5 114.0 92.6 74 332 12 16.7 103.6 114.0 90.9 75 335 14 18. 1 104.8 114.0 92.0 76 ,336 16 13.9 104.7 114.0 91.9 77 346 2 14.4 103.2 114.0 90.6 78 339 20 17.6 106.8 115.1 92.7 ·e 79 340 24 13. i 102.7 114.0 90,.1 80 343 24 13.5 102.7 114.0 90. 1 BENTON ENGINEERING. INC. Pro jec t No. 70-1-5 D 13 Rancho La Costa South Unit No. 5 TABLE OF TEST RESUL TS (CONT.) e Approx-Depth Maximum . imate of Fill Field Dry Dry Test Location at Test fv40isfure Density Density Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 81 331 12 17.5 108 •. 1 115. 1 93.9 82 332 ·14 17.6 103.8 114.0 91.0 .83 335 16 16.9 104.4 114.0 91.7 84 336 18 13.3 104.6 114.0 91.7 85 339 22 12.8 107.3 114.0 94.2 86 331 14 14.5 101.9 rI2.3 90.7 87 332 . 16 14.7 104.1 114.0 91.9 88 335 18 15.2 106. 1 114.0 93.1 89 338 2 15.2 109. 1 114.4 95.4 90 337 4 13. 1 109.5 114.4 95.7 91 338 2 11.9 110.3 114. 1 96.8 92 331 16 13.4 110.2 114.2 96.6 93 342 2 14.9 108.2 114. 1 94.9 94 345 4 9.7 113.9 117.9 96.6 95 332 18 13.8 108. 1 1I5.1 93.9 96 335 20 13.3 110.5 115. 1 95.9 97 336 20 13.7 107.0 lIS. 1 93.0 ·e 98 330 2 12.8 109.9 114. 1 96.3 99 334 2 14.2 108. 1 114. 1 94.8 100 333 4 15.9 108 .. 7 114. 1 95.2 101 330 6 11.7 111.0 '. 118.0 94.1 102 334 6 14.3 105.7 112.2 94.2 103 333 8 15 .. 2 105.0 112.2 93.5 104 337 8 15.9 105 .. 3 ·112.2 93.8 105 330 10 14.3 107.2 112.2 95.6 106 334 10 18.9 102.0 112.2 90~9 107 338 6 18.5 100.5 110.6 90.9 108 342 6 14.9 109.9 117.9 93.3 109 337 12 15.6 107.3 117.9 91.2 110 333 12 ]3.9 106.5 110.6 96 . .4 111 334 14 14.4 106.9 110.5 96.8 112 333 16 13.4 102.6 110.5 92.9 113 334 18 14.3 107;1 .)17.9 90 .. 9 114 333 20 14.4 107.9 11'7.9 91.6 115 334 22 11.4, 109.3 117.9 92.8 116 333 24 12.3 109.4 117.9 92.9 117 331 16 17.9 110.2 117.8 93.7 118 254 2 13.3 106.2 114.2 93. 1 119 346 6 17.8 104. 1 114.2 91.3 120 354 6 13.6 104.0 110.5 94.1 BENTON ENGINEERING, INC. Project No. 70-1-50 T4 Rancho La Costa South Unit No.5 , .., TABLE OF TEST RESUL TS (~ONT.) e Approx-. Depth Maximum imate of Fill Field Dry Dry Test Location at Test Moisture Density Oensity Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 121 La Costa Ave. ·4 13.3 108.4 114.2 94.9 Opp. 353 122 La Costa Ave. 6 13.8 107.6 114.2 94.1 Opp. 350· 123 La Costa Ave,. 8 13.6 108. 1 . 114.2 94.6 Opp.350 124 337 20 17.5 107.9 117.8 91.7 125 353 8 14.7 108.6 114.2 95.1 126 333 28 13.7 108.8 114.2 95.2 127 341 8 10.0 109.6 114.0 96.2 128 345 8 9. 1 113.6 122. 1 93.0 129 331 20 13. 1 114. 1 117.8 96.9 130 La Costa Av~. 2 10. 1 109.0 114.2 95.4 Opp. 333 . 131 332 22 15.2 110.8 114.0 97. 1 132 335 24 15.2 109.5 114.0 96.0 133 331 22 16.8 105.4 114.0 92.5 e 134 332 24 '14.6 1l1.0 122. 1 90.9 135 336 24 19. 1 101.0 110.5 91.4 136 La Costa Ave .. 4 14.2 105.3 114.0 92.5 Opp.330 137 334 26 16.5 103.2 114.0 90.7 138 337 24 15.0 103.8 114.0 91.1 139 338 10 14.7 104.7 114.0 91.8 140 341 12 17.3 101.8 110.5 92.1 141 342 10· 17. 1 105.3 114.0 92.4 142 338 14 14.9 106.8 1]4.0 93.7 143 345 '12 15.8 107.8 114.0 94.5 144 346 8 14.5 107.8 114.0 94.5 145 354 10 16.7 104.8 114.0 92.0 146 353 12 17.0 102.6 112.3 91.4 147 337 28 15.9 106.9 114.0 93.7 148 349 12 17.6 111.8 117.8 95.0 149 ·341 16 15. 1 111. 1 117.8 94.4 150 338 18 17.6 109.2 114.0 95.9 151 341 20 19.6 106.2 114.0 93.2 152 338 22 14.5 110.2 114.0 96.8 153 341 24 12.7 110.9 117.8 94.2 154 342 14 17.4 102.1 109.0 93.2 e 155 346 14 21.0 101.0 109 .0 92.7 BENTON ENGINEERING. INC. Project No. 70.;.1-5D . T5 Rancho La Costa South Unit No. 5 , " TABLE OF TEST RESULTS (CONT.) ·e Approx-Depth Maximum imate of Fill Field Ory Dry Test Location at Test Moisture Density Density . Percent f'..Io • Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction . Remarks 156 La Costa Ave. 2 20.0 100.4 lCE.O .92.2 Opp.337 157 338 26 13. 1 113.8 122. 1 93. 1 158 334 28 12 !O 113.6 122. 1 93.0 1:59 345 16 19.2 106.9 114.0 93.8 160 350 14 12.4 103.4 114.0 90.9 161 349 16 12.0 110.0 11-4.0 96.4 162 342 18 12. 1 112.0 122. 1 91.8 163 346 18 13.6 lCE.2 120.0 91.1 164 350 18 11.3 ,114.3 120.0 95.4 165 353 16 13. 1 111.2 120.0 92.8 166 349 20 14.6 111.0 117.9 94.2 167 345 20 14. 1 110.9 117 .. 9 94.1 l68 342 22 14.8 116.2 117.8 98.8 169 341 26 14.8 111.8 117.8 94.9 170 346 . " 20 15.4 110.2 122 ~1 90.3 171 350 22 13.9 112.7 122. 1 92.3 172 349 22 15.2 111.8 122. 1 91.5 173 342 24 '13.8 111.6 122.1 91.4 174 366 2 12.4 115.8 117.8 98.5 175 367 4 13.7 112.9 117.8 95.9 176 366 6 12.4 117.0 117.8 99.4 177 367 8 16. 1 111.3 117.8 94.6 178 366 10 13'.9 111. 1 117.8 94.4 179 358 2 17.5 108.0 114.2 94.5 180 359 4 11.6 111.6 117.9 94.7 181 358 6 17.3 103.3 114.2 90.5 182 359 8 15.6 108.0 114.2 94.5 183 367 12 12.8 11.0.3 117.9 93.6 184 366 14 13.3 112 .. 2 117.9 95.3 185 357 4 14.0 115.8 117.9 98.2 186 359 10 * 15.7 107. 1 114.2 93.8 187 358 10 '14.7 110.3 n7.8 93.7 188 370 2 12.2 ICE. 1 117.8 92.7 189 368 2 13.4 lCE.7 117.8 93.1 190 369 4 14.3 109.7 117.8 93. 1 1.91 357 8 12.5 112.2 117.9 95.3 192 358 12 14. 1 108.8 117.9 92.3 193 371 4 13.2 111.0 117.9 94.2 e * Finished Grade BENTON ENGINEERING, INC, ProJect No. 70-1-50 T6 Rancho La Costa South Unit No.5 TABLE OF TEST RESULTS(CONl.) e Approx-Depth Maximum Imate of Fill Field Dry 'Ory Test Location at Test Moisture Oens:ity Density Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib./cu ft COn1paction Remarks 194 372 2 13.6 112.2 117.9 95.3 195 368 6 13.5 116.9 117.8 99.3 196 374 2 1603 110. 1 117.8 93.6 197. 373 4 16.7 111.8 117.8 94.9 19S 375 4 14~7 10S.6 117.9 92.1 199 376 2 16.3 108.2 117.8 92.0· 200 377 4 15~6 107.3 117.8 91.2 201 370 6 15.7 115.9 117 .. S 9S.4 202 372 6 1.5.3 113.6 117.8 96.4 203 367 16 15.6 115. 1 117.8 97.7 204 Jerez. Ct. 2 16.6 107.3 il7.8 91.2 Opp·.357 205 374 6 14. 1 111.8 H7.S 94.9 2QS 376 6 15.2 109 .4 117.9 9.2.9 207 377 8 17. 1 113.6 117.8 96.4 - 208 394 2 17.2 113. 1 117.8 96.0 201 392 2' l6.9 110.3 117.8 93.S e 210 Gibraltar St. 4 17.4 114.3 117.S 97.1 Opp.394 211 391 4 16.8 103.1 113.4 90.9 2-12 390 2 ·18.4 103.9 113.4 91, .6 213 394 6 13.8 106.8 115.9 92. t 214 392 6 18.6 104.5 113.4 92.2 215 390 6 16.9 107.6 113.4 94.8 216 391 8 16.6 106.2 113.4 93.S 217 Gibraltar S.t, S * 17.5 106.8 113.4 94.1 Opp.394 218 392 10 19.0 104.7 109 .0 95.9 219 390 10 17.8 105.3 113.4 92.9 220 391 12 16.8 105.3 113.4 92.9 221 358 14 15.0' 107. 1 114.2 93.8 222 358 16 16.6 104.3 114.2 91.3 223 Gibraltar St. 2 16.-8 lOS.6 114.2 95.1 ' Opp. 401 224 390 14 15.2 107.9 114.2 94.5 225 La Costa Ave. 4 13.4 109. 1 114.0 95.6 Opp.390 226 392 14 14.3 109 .2 115.9 94.2 227 La Costa Ave. 8 15.0 106.2 113.4 93.7 e Opp.390 * Fi nished Grade BENTON ENGINEERING. INC. Project No. 70-1-50 T7 Rancho La Costa South Unit No. 5 , >-' TABLE OF TEST RESULTS (CONT.) e Approx-Depth Maximum imate of Fill Field Dry Dry Test , Locdtion at Te$t Moisture Density Density Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 228, 391 16 12.7 106.7 115.9 92.0 229 390 18 13.5 112.6 122.1 92.2 230 393 4 14. I' . 110.2 ' 115.9 95.2 231 '391 20 15.4 105. 1 114.2 92.1 232 La-Costa Ave. 12 16.3 106 .. 5 114.2 .93.3 Opp.390 233 392 18 16.6 103.0 114.2 90.3 234 369 8 17.3 ]04.3 114.2 91.4 235 371· 6 19. 1 107.2 117.8 91.1 236 372 8 16.8, 104.7 114.2 91.7 237 '375 8 11.2 109.3 117.9 92.8 238 371 8 14.8 113.6 115.6 98.3 239 376 10 15.6 105.9 115.6 91.7 240 371 10 14.8 113. 1 117.8 96.1 241 390 22 . 14.2 113.6 121.0 93.8 242 La Costa Ave. 16 14.8 113.4 121.0 93.7 Opp.390 e 243 393 8 15.6 106.0 113.4 93.4 244 391 24 11.5 108.7 114.0 95.4 245 ~a C9Sta Ave. 20 14.2 107.3 113.4 94.6 Opp.390 ~46 390 26 14.8 106 .6 113.4 93.9 247 382 2 12.0 120.4 125.0 96.4 248 382 4 14.7 105.8 115.0 92.0 249 382 6 15.2 108.0 116.0· 93.1 250 382 8 11.5 110.5 117.9 93.9 251 372 10 14.4 106 .3 114.2 93.2 252 373 6 12.5 116.4 117 0 8 98.9 253 372 12 12.0 110.6 114.2 96.8 254 377 12 12.4 112.6 117.8 95.6 255 372 14 11.7 116.9 117.8 99.2 256 373 8 14. 1 107.2 114.2 93.9 257 365 2 14.6 113.2 117.8 96.2 258 381 4 12.4 111.3 116.0 96.1 259 409 2 11.3 111. 1 116.0 95.9 260 382 10 14.0 110.4 115.9 95.4 261 407 2 12. 1 107.3 111.5 96.4 ·262 410 4. 14.8 107.4 117.0 91.8 263 381 8 15.9 107.7 116.0 92.8 e 264 408 4 11.2 111.6 117.0 95.4 BENTON ENGINEERING, INC. Project No. 70-1-5D T8 . Rancho La Costa South Unit No. 5 , . TABL~ OF TEST RESULTS (CONT.) e Apptox-. Depth M~imum imate o.f Fill Field Dry Dry Test location at Ti!st Moisrure Density Density Percent No. Lot No. in Feet % dry Wt Ib/cu ft Ib/cu ft Compaction Remarks 265 406 . 4 13.9 109.3 117.0 93.4 266 381 ·12 16. 1 109.4 117.0 93.5 267 382 14 14.4 107. 1 117.0 91.5 268 409 6 10.6 114.0 121.0 94.3 269 391 28 11.5 110.3 117.0 94.3 270 392 22 12.9 110.2 117.0 94.2 271 381 16 17.5 105.6 ·113.0 93.5 272 407 6 15.8 109.7 117.0 93.7 273 408 8 13.8 109 .3 117.0 93.5 274 407 10 15.6 110. 1 117.0 . 94.2 275 408 12 15.3 106.2 H3.0 94.1 276 407 14 10.6 113.6 117.5 96.7 277 405 . 2 11.4 111. 1 117.0 94.9 278 404 4 12.7 109.2 117.0 93.5 279 408 ·16 14.8 105.3 115.9 90.9 280 382 18 18.5 107.3 117.8 91.2 281 38l 20 15.8 107.9 115.9 93.2 e' 282 405 6 14. 1 108.2 115.9 93.4 283 410 8 .13.9 110. 1 115.9 95.1 284 406 8 12.2 ·110.2 117.0 94.3 285 404 8 12.4 110.2 117.0 94.3 286 405 10 13.7 111.0 117.0 94.9 287 409 10 13.7 108.6 115.9 93.8 288 407 18 15.7 109 .3 117.0 93.5 289 406 12 14.7 109.6 117.0 93.7 290 403 2 13.6 108.3 117.0 92.7 291 404 12 13.5 110.0 117.0 94. ) 292 405 14 12.8 108.6 117.0 92.8 293 409 14 19. 1 101.6 109 .0 93.3 294 406 16 16:9 104.8 113.4 92.4 295 390 30 14. 1 106.9 113.4 94.3 296 La Costa Ave 0 2 18.9 102.8 109.0 94.4 Opp.410 297 393 12 21.2 102.3 113.4 90.3 298 382 22 19.9 105.7 113.4 93.2 299 La Costa Ave. 6 20.0 102.9 113.4 90.8 Opp.410 300 391 32 20.6 103.3 113.4 91.3 301 381 24 15.8 109 .8 117.8 93.3 302 392 26 20.4 101.8 109.0 93.4 e BENTON ENGiNEERING. INC. Proiec:t No. 70·~ 1-50 T9 Rancho La Costa South Unit No". 5 TABLE OF TEST RESULTS (CONT.) Approx-Depth Maximum imate of Fill -Field Dry Dry Test Location at Test Moisture· Density Density I Percent No. Lot No. In Feet % dry wt Ib/cu ft :Ib/cuft Compaction Remarks 303 La Costa Ave. 24 20.0 103.8 114.2 90.9 Opp.390 ·304 382 26 21.6 103.3 114·.2 90.5 305 381 28 17.2 108.8 117.8 92.5 306 380 2 18.3 107.2 117.8 91..1 307 382 30 16.9 106.0 H4.2 92.8 308· 380 6 17.8 104. 1 114.2 91. 1 30Y 381 . 32 14.3 nO.3 115.9 95.3 310 380 34 18. 1 105.2 114.2 92 i 1 311 364 2 17.9 104.2 .114.2 91.3 312 363 2 18.8 105.6-114.2 92.4 313 360 2 21.0 102. 1 109 .0 93.8 314 357 12 14.9 106.6 117.0 91.1 315 375 12 19.7 104.2 1-14.2 91.4 316 Jerez Ct. 6 19.1: 104.2 1, 14.2 91.4 Opp.357 317 361 2 * 19.5 102.9 114.2 90.1 318 380 10 16.9 107.8 117.4 91.8 319 381 36 17.2 106.9 117.4 91.0 320 382 38 19.8 107.0 117.8 90.9 321 378 2 19.0 106.8 117.8 90.7 322 382 40 15.7 109. 1 11'7.8 92.7 323 382 42 15.7 110-.6 117.8 93.9 324 393 . 16 8.9 116.3 117.0 99.5 325 La Costa Ave. 10 9.0 114.5 . 117.0 97.9 Opp.410 326 388 2 16.2 109.0 114.2 95.5 327 388 4 16.5 108.0 114.2 94.6 :328 392 30 17.8 108.8 117.8 92.4 329 391 36 16.2 -107.8 117.:8 91.7 330 373 10 16.9 114.7 117 .. 8 97.4 331 373 12 16. 1 115.7 117.8 98.4 332 373 14 * 14.0 115.2 117.8 98.0 333 390 38 13.4 111.4 117.9 94.6 334 392 32 15.9 115.6 120.6 95.9 335 391 38 11.0· 117.0 120.6 97.1 336 390 40 17.4 108.6 117.8 92.2 337 La Costa Ave. 28 11. 1 118.3 l20.6 -98.3 Opp. 390 338 379 4 16.5 114.3 117.4 97.4 11 Finished Grade BENTON ENGINEERING. INC. -~ Proiect No. 7O'·1-5D T1O' Rancho La Costa South Uni t No. 5 TABLE OF TEST RESULTS (CO NT .) Approx-Depth Maximum imote of Fill Field Dry Dry Test' Location at Test Moisture Density Density Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 339 393 20' * 17.3 102.3 111.5 91.9 340' 392 33 * 13.7 107.8 117.0 92.1 . 341 40'3' 4 18.6 101.7 111.5 91.1 342 403 6 14 .. 1 107.9 117.0 92.2 343 410 12 17.0 106.4-117.0 91.0 344 409 18 14.6 106.6 115.0' 92.7 345 Gibraltar St. 2 . 2004 100.2 109.0 92.0 Opp.403 346 Gibraltar St. 4 19.4 103.6 113.0' 91.7 Opp.402 347 Gibral tar St. 6 13.9 10'7. 1 115.0' 93. 1 Opp.401 348 Gibraltar St. 6 13.7 109.2 115.0-95.0' Opp.4O'3 349 G ibn:lltar St. 8 13.6 108.8 117.0 93.0 Opp.4O'2 350' Gibraltar St. 10 14.5 105.6 115.0' 91.9 e Opp.4O' 351 Gibraltar St. 10 13.5 106.7 114.0 93.6 Opp.4O'3 352 G ibraltar·St. 12 15~3 104.3 114.0' 91.5 Opp.402 10'8.2 353 Gibraltar St. 14 13.7 114.0' 94.9 Opp.4O'l 354 Gi.braltar St. 2 15.0 110'.3 H5.9 95.3 Opp.4O'O' 355 Gibrahar St. 4 15,,6 108.3 ·115.9 93.7 Opp.4O'O' 356 Gibraltar St. 6 15.9 10'7.6 115.9 92.9 Opp.4O'O' 357 369 12 18.5 106. 1 114. 1 92.9 358 370' 10' 18.7 10'5.6 114. r 92.6 359 368 10' * 15.6 106.8 115.9 92.2 360' 374 10' 15.4-10'9.1 115.9 94.2 361 376 14 15.3 107.2 117 A 91.4 362 375 16 15.4 10'8.2 11704 92.3 363 374 14 15.0 110.0 117 A 93.7 364-376 18 14.8 10'8.9 117.4-92.8 365 375 18 11.7 115.3 120'.6 95.7 '" e * Finished Grade BENTON ENGINEERING. INC. Project No. 70-1 .. 50 T11 Rancho La Costa SOI,Jth Unit No.5 , ~ TABLE OF TEST RESULTS (CaNT.) --Approx-Depth Maximum imate of Fill Field Dry Dry T.st Location at Test Moisture Density Density Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 366 366 18 12.8 113.0 120.6 93.7 367 367 18 12.4 115.8 120.6 96.1 368 370 12 12.6 111.6 120.6 92.6 369 Gibraltar Sf. 16 13.9 108.5 115.9 93.7 Opp.402 370 Gibraltar St. 18 14.3 109.4 115.9 94.5 Opp.401 371 330 12* 16.4 109 .0 114.0 95.6 372 333 29 * 17.0 102 ~9 111.5 92.4 373 337 30 16~2 104._2 111.5 93.6 374 402 2 20.8 95.5 109.0 87.6 Reworked- 375 400 2 18.4 103.2 111.5 92.6 376 401 4 15. 1 108.5 111.5 97.3 377 334 I' 30 * 10.4 101.7 115.0 88.5 Reworked 378 337 31'* 20.0 95.3 11-1.5 85.4 Reworked 379 339 24 17.4 106.2 1l5.5 92.0 380 340 26 13.9 l1QoS' 115.5 95.7 e 381 338 28 * 18.3 105.0 111.5 94.2 382 344 26 18. 1 103.6 11200 92.5 383 402 2 19.0 106.2 115.0 92.4 Check on '374 384 34i 27 * 18.2 110.8 114.0 97.2 385 410 16 18.0 104.4 112.0 93.3 386 408 20 18.3 100.2 109 .0 92.0 387 4.06 20 18.7 101.4 109 .0 93.0 3SS 405 rs 22,.8 98.7 109 .0 90.6 389 404 16 19.7 103.3 112.0 "92.2 390 410 20 23.0 99.2 109.0 90.9, 391 409 22 17.0 102.9 112.0 91.9 392 408 24 18.8 102.7 112.0 91.7 393 410 24 19.9 102.6 111.5 92.1 394 409 26 20.2 101.6 109 .0 93.2 395 410 28 20.2 101.2 109.0 92.9 396 408 28 17.5 105.7 112.0 94.4 397 407 22 13. 1 110.2 117.4 93.9 398 406 24' 14.6 107.4 117.4 91.6 399 407 26 17.8 104. 1 114~2 91.2 400 336 25 16. 1 103.3 114.0 90.7 * Fi ni shed Grade e BENTON.ENGINEERING. INC. .,_,:.:>!---I Project No. 70-1-50 T12 Rancho La Costa South Unit No.5 . ~ TABLE OF TEST RESULTS (CONT.). e Approx-Depth Max i iTlU in imate of Fill Field Dry Dry Test Locqtfon at Test Moisture Density Density Percent No. Lot No. i.n Feet % dry wt Ib/cu ft Ib/cu it Compac;:tion Remarks 401 404 20 14.6 ' 111.7 120.6 92.7 4a2 405 22 13.6 111.3 120.6 92.4 403 404 24 14.6 110.9 120.6 92.0 404 409 30 19.3 106.2 116.0 -91.7 405 408 32 17.2 102 .0 112.0 91.1 406 334 30* 15.0 104.0 115.0 90.5 Check on #377 407 407 30 14.9 ,115.5 120.6 95.9 408 405 26 15. 1 111.4 120.6 92.5 409 406 28 17. 1 113. 1 120.6 93.9 410 407 34 16.4 111.8 120.6 92.8 411 355 4 12.9 107.1 116.0 92.4 412 356 2 15. 1 109.9 117.0 94.0' 413 342 25 * 16.7 114.4 117.0 97.8 414 345 22 * 16.7 112.5 114.0 98.7 415 346 21 * 15.3 117.2 120.6 97.3 416 336 26 * 15.9 108. 1 115.6 93.6 417 335 25 * 17.2 109.3 114. 1 95.8 e 418 332 25 * 18. 1 109.2 114. 1 95.7 419 331 24 * 16.8 105.3 114.0 92.5 420 339 26 * 18.6 105.6 114.1 92.6 421 408 36 17. 1 l1Q.2 117.8 93.7 422 406 32 15.6 114.1 120.6 94.6 423 407 38 17. 1 105. 1 114.0 \ 92.3 424 406 36 16.8 107.1 114.0 93.9 425 406 38 14.2 106.9 114.-0 93.8 ,426 407 40 16.8 106.6 114.0 93.5 427 406 42 13.4 101.7 113.0 90.0 428 405 28 19.5 100.7 111.6 90.3 " 429 407 44 17.1 104.2 114.0 91.4 430 406 46 20.8 101.3 111.5 90.9 431 349 23 * 16.7 112. 1 117.0 95.9 , , 432 350 23 * 22.7 104.6 112.0 93.4 433 337 31 * 22.2 104.0 110.0 94.6 Check on #378 434 407 48 16. 1 106. 1 115.9 ' 91.6 435 406 50 15.3 104.8 115.9 90.4 J',' 436 400 6 15.7 103. 1 111.5 92.5 437 402 6 15.5 104.9 114.0 92.0 438 401 8 15.6 104.6 114.0 91.7 439 402 10 17.3 99. 1 1-09 .0 90.,9. e 440 401 10 21.6 105.2 113.0 93.1 'Ii Finished Grade BENTON ENGINEERING. INC. ~ - ---... ---------- ProJect No. 70-1-50 T13 Rancho La Costa South Unit No.5 , ~ TABLE OF TEST RESULTS (CONT.) e-Approx-Depth Maximum jmc;ate of Fill Field Dry Dry Test Location at Test Moisture Density Density Percent No. Lot No. in Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 441 340 27 * 16.6 112.0 118.0 95.0 442 343 ~ 26 ." 17. 1 111.2 118.0 94.4 443 356 6 14.9 110.0 117.0 94.0 444 355 8 11.9 106.7 116.0 92.0 445 344 27 * 22.8 99.6 109.0 91.3 446 347 26-* 24.3 98.3 109 .0 90.2 447 40J 12 23. 1 96.2 109 .0 88.2 Reworked 448 402 12 22.6 98.4 . 109.0 90.2 449 402 14 20.6 105.0 111.6 94.1 450 402 16 18.7 107.9 117.8 91.7 451 356 10 14.5 106.9 117.0 91.4- 452 355 12 16.2 103.2 114.0 90.6 453 356 14 14: 1 104.2 114.0 91.4 454 355 16 13.9 103.4 114.0 -90.7 455 402 18 17.8 104.8 114.0 91.9 456 408 40 * 17.8 104. 1 114.0 91.4 457 Gibraltar St. 14 17.9 105.3 114.0 92.5 e Opp.403 458 409 31 ." 19. 1 102.6 111.5 92.0 459 Gibraltar St. 16 23.8 96.7 109.0 88.6 Reworked Opp.403 105.3 Check on #447-460 401 12 18. 1 111.5 94.6 461 410 30'" 14.9 105.6 114.0 92.7 462 407 50 * 19. 1 101.8 109.0 93.4 463 406 52 22 ... 0 102. 1 109 .. 0 9~.7 464 406 54 20.2 103.3 111.6 92.6 465 404 28 2}.8 103.6 114.0 90.9 466 405 30 21.0 101.8 111.6 91.4 467 35,1 18 * 18.0 101. 1 111.6 90.7 468 348 19 * 16.7 107.5 117.·0 91.8 469 352 15 * 19.7 97.9 109.0 89.8 Reworked 470 .354 13 * 21.0 101.6 U1.6 91.1 471 35~ 18 * 13.0 107.3 114.0 94.3 472 405 32 16.8 105.3 11400 92.4 473 404 30 15.6 104. 1 114.0 91.4 474 405 34 15.0 103.8 114.0 91.0 475 404 32 16.5 105. 1 114.0 92.2 476 405 36 15.6 100.7 109 .0 92.4 477 404 34 12.6 106~2 114.0 93.2 ·tt 478 405 38 12.4 108. 1 114.0 94.8 ." Finished Grade BENTON ENGINEERING, INC. ~ Project No. 70-1-50 T14 Rancho La Costa South Unit No. 5 , -' iABLE OF TEST RESULTS (CONT.) e Approx-Depth Maximum imate of Fi" Field Dry Dry Test Location at Test Moisture Density Density Percent Nc;>. Lot No. in Feet % dry wt. Ib/cu ft Ib/cu ft Compaction Remarks 479 404 36 18.0 100.7 109.0 92.4 480 404 38 12.7 107. 1 114. l' 93.9 481 356 18 16.5 106.6 115.d 92.8 482 355 18 15.8 104.3 114.0 91.5 483 403 8 17.8 101.2 109.0 92.9 484 403 10 '16.7 100.4 109.0 92.2 485 403 12 18 .. 1 101.9 111.5 9] .4 486 403 14 14.2 104.0 114.0 91:2 487 La Costa Ave. 4* 14.6 106.3 114.0 93.3 Opp.338 488 La Costa Ave. 4 15. 1 114.8 117.0 98.1 Opp.334 489 La Costa Ave. 2* 19.8 104.0 114.0 91.2 Opp.342 490 La Costa Ave. 2* 16.3 107.3 117.8 91. 9 Opp.346 491 La Costa Ave. 6* 16.2 108.7 115.0 94.5 e Opp.337 492 357 16* 17.9 109.3 117.8 92.9 493. Gibraltar St. 16 15.8 106.7 115.0 92.8 Check on 1459 Opp-.403 494 355· 20 17.4 106.3 113.0 94.2 495 352 15* 18. 1 101.3 109.0 93. 1 Check on 1469 496 La Costa Ave. 2* 17.5 103.3 11~.0 91.4 Opp.355 497 La Costa Ave. 2* 14.8 105.3 114.0 92.4 Int ~ 498 La Costa Ave. 2* .17.8 103.4 114.0 90.8 - Opp.404 499 358 17* 17.9 105.2 115.0 91.6 500 360 3* 17.7 107.8 117.8 91.6 501 362 2* 20.6 104.0 111.6 93.3 502 363 4* 19.4 . 105.9 115.0 92.1 503 364 4* 18.4 106.2 115.0 92.3 504 365 4* 11. 9 115.3 117.8 97.9' 505 366 19* 10.3 113.2 117~8 96.2 506 400 8* 21.2 101.5 111.5 91. 1 507 401 14* 17.3 105.3 115.0 91. 7 508 402 20* 17.7 101. 7 111.5 91.3 e 509 404 40* 17.8 103.8 111.5 93. 1 510 405 40* 9.5 112.1 117.·8 95.2 * Finished Grade BENTON ENGINEERING. INC. Prolect No-. 70-1-50 Tl5 Rancho La Costa South Unit No.5 , " T ABLE OF' TEST RESU LTS (CO NT .) Approx-Depth ,Maximum hnate of Fill Field Dry Dry Test Location at Test Moisture Density Density Percent No. Lot No. tn Feet % dry wt Ib/cu ft Ib/cu ft Compaction Remarks 511 406 56* 18,4 103.9 111.5 93.2 512 382 44 15.5 108.2 114.8 95.0 513 382 46 14. 1 108. 1 114.0 94.9 514 368 2 18,8 105.7 116.0 91.2 Rear 515 369 4 17. 1 105.0 116.0 90.6 Rear 516 368 6 16~8 107. 1 116.0 92.4 Rear 517 389 2 13.9 118. 1 120.6 97.9 518 389 4 14.2 113.6 117.8 96.4 5,19 389 6 18.7 111. 6 117.8 94.8 520 355 22* 12.4 104.6 113;0 92.6 521 356 19* 13.6 107.8 114.0 '94.6 522 354 14* 11.2 106.0 114.2 92.8 Hi Pad 523 353 18* 11. 7 104.3 1l3.0 92.4 524 390 41* 11.8 112.2 114.0 98.4 525 391 40* 13.8 108.2 '114.0 94.9 526 382 47* 15.2 110.5 117.8 93.7 527 381 40* 10. 1 117.8 117.9 99.9 e 528 380 13* 10,.6 118.8 119.4 99.5 529 394 8* 13.2 110.3 117.8 ' 93.7 530 388 7* 12.5 109.3 113.0 96.8 531 389 9* 14. 1 109.0 113.5 96.0 532 379 ' 5* 11. 1 113.3 117.8 96.3 533 378 4* 15.7 107.7 117.8 91.6 534 377 16* 15.6 109.1 117.8 92.6 535 376 19* 15.0 107.~ 117.8 91.0 536 367 19* 15.9 109.9 117.8 93.3 537 375 19*, 15.0 108.8 ' 117.8 92.3 538 374 16* 13.9 110.2 117.8 93.6 539 372 18* 13.8 108.2 117.8 91. 9 540 371 13* 14.4 108.9 117.8 92.6 541 37Q 13* 14.2 110.6 117.8 '93.9 542 369 14" ,13.9 112.3 119.4 94.2 543 La Costa Ave. 6* 9.9 109.2 114.0 96.0 Opp.;333 544 La Costa Ave. 7* 11. 6 106.8 114.0 93.8 Opp.334 545 La Costa Ave. 4* 14.4 103.7 113.0 91.7 Opp.349 'e * Finished Grade BENTON ENGINEERING. INC. Proi~ct No. 70-1-50 T16 Rancho La Costa South Unit No. 5 , " TABI-E OF TEST RESULTS(CONT.) Approx.-Depth Maximum imate of Fill Field Dry Dry . Test location at Test lVIoisture Density Density Percent /, No. lot No. in Feet % dry wt Ib/cu ft Ib/cu ft CompaotiQn Remarks 546 I La Costa Ave. 9* 10.3 109.S 114.0 96.3 Opp.350 547 La Costa Ave. 7* 9.9 109.3 114.0 95.9 Opp.353 548 La Costa Ave . 2* 10.2 107.6 114.0 94 .. 4 . Opp.406 549 La Costa Ave. P 12 .. 5 109.5 114.0 96.1 Opp.408 550 La Costa Ave·.' 1.4* 10.9 107.6 114.0 94.4 Opp.410 551 La Costa Ave. 29* 14.2 106.3 114.0 93.3 Opp.390 552 369 S 15.2 111.2 11.7.S 94.6 Rear 553 368 10 14.,6 117.2 119.2 98.4 Rear 554 403 16 15.9 111. 9 117.8 95.1 555 370 2· 14.0 114.6 119.4 96.0 Rear 556 369' 12* 13.6 115. 1 119.4 96.5. Rear e 557 368 14* 14.0 113.5 119.4 95.0 Rear 558' 403 18* 14.0 109 .. 3 119.0 92.0 559 Gibraltar St. 17* 13.9 lOS.2 117.8 92.0 Opp.403 560 Gibraltar St. 18* 13.0 10S.7 117.4 92.5 ·Opp.402 561 377 2 14.4 ·114.1 117.6 97.2 Rear 562 377 4 lS.3 107.9 116.0 93.1 Rear 563' ·378 4 14.5 116.2 118.0 98.7 Rear 564 377 S 17.0 110.6 116.0 95.4 Rear 565 379 2 15.2 110.0 116.0 94.9 Rear 566 377 10 16.9 110.1 116.0 95.0 Rear 567 378 8* lS.1 109.5 116.0 94.5 Rear 568 379 6 17.2 111. 9 116.0 96.5 Rear 569 377 14* 16.7 110.0 116.0 94.9 Re~r 570 379 -9* 18.2 109.6 116.0 94.5 Rear $71 Gibraltar St. 22* '13.9 106.7 117.0 91.2 Opp.401 572 . Gibraltar St. 10* 13.2 109.2 117.8 92.9 Opp.400 * Finished Grade e BENTON ENG.lNEERING. ·INC. Pro ject No. 70-1-50 T17 Rancho La Costa South Unit No. 5 T ABlE OF TEST RESU LTS(CO Nt .) ·e Approx-Depth Maximum . (mate of Fill Field Dry Dry Test Lo~ation at Test Moisture Density Density Percent No. . Lot No. in Feet % dry wt Ib/cu ft Ib/cu Ft Compaction Remarks . 573 La Costa Ave. 2* 14.2 105.5 114.0 92.6 Opp.355 574-La Costa Ave. 2* 14.8 106.2 114.0 93.2 Opp.389 575 . Jerez Court· 4* 11. 7 110.7 119.2 92.8 Opp.358 576 Jerez Court 7* 14.7 10S.9 117.S 92.5 Opp.357 577 370 6 10.4 113.7 124.4 ·91.4 Rear 5iS 370 S' 13.6 109.0 119.2 91.4 Rear 579 370 10* 10 .. 8 107.6 119.2 9Q.3 Rear * Finished Grade I' . , e :'e BENTON ENGINEERING. ·INC. \ e -.. Pro ject No. 7O--1-5D T18 Rancho Lei Costa South Unit No.5 LABORATORY TEST RESULTS The maximum dry densities and optimum moisture contents of the major fill materials Cis determined by the A.S.T.M. D 1557-66T method, that used 25 blows-of a 10 pound hammer falling from a height of 18 inches on each of 5 layers in 0.4 inch diameter 1/30 cubic foot compaction cylinder, are presented as follows: , Soil Type { I . Yellow brown silty fine sqnd with some clay binder Gray-brown fine to medi~m sandy clay Gray-brown fi'ne sandy day o !.ive green clay Brown silty fine sand (topsoi I) light yellow-gray very fine to fine sand Yellow brown si Ity very fine to fine sand Light gray very fine to fiine sQnd Olive green silty clay Gray-brown slightly silty fine sand Light greenish~ray slightly clayey fine sand Olive green sil.ty clay Gray-brown fine sandy tlay Light brown fine to medium sand with some clay binder fv\edium brown silty fine to medium sand wifh clay chunks M.edium brown si Ity fi-ne to medium sand with gravel Light gray-brown fine tci medium sandy clay Gray-brown fine sandy c;:lay BENTON ENGINEERING. INC. Maximum. Dry Density Ib/cu ft 113.0 , 117.8 112. 1 109.0 117.9 115. 1 112.3 .114.0 110.6 113.9 122. 1 110.5 114.2 117.0 121.0 131.0 120.6 118.2 Optimum NiDis- ture Content % dry wt 13.5 12.2 15.0 16.6 11.5 13.5 13.8 14.2 15.7 13.3 11.5 16.3 13.0 12. 1 11.0 9.0 11. 7 12.0 .--------------~-~.-~-~ • i I . r """-73 ---3~ B,E~TON ENGINEERING. INC. V"·' . APPLIED ,SOIL MECHANICS -FOUNDATIONS • • • • • • • 6741 EL CAJON BOULEVARD ' SAN DIEGO. CALIFORNIA 112111S 'PHILIP HENKING BENTON .. iIESICENT • CIVIL ENGINEEIl November 7, 1969 Rancho La Costa, Inc. Routo I, Box 2550 Encinitas, California 92024 Subiect: Gentlemen: ProJect No. 69-9-8C Prelim i nary Soi 15 InveStiga ti on La Costa Sou th Uni t Nos. 5, 6 and 7 East of the Intersection of La, Costa Avenue and EI Camino Real San Diego County , Cal ifornla CONCLUSIONS It is concluded from the field investigation and laboratory test results that: SAN DIEGO: 1S83-1S61S4 LA 'MESA. 469·1S61S4 I.' Q~ner9.!J.y, £tf;le..;natur.QLso..U.L...e.xisti~ below the loose or soft surface soils ... ~..", ~~Jb.e .. sa,£e..Ml~eBr.t~of the P-mp..QD.d....ftlb and/or one and two story residential dwelli~s. HQW8ver I loose soils and porous alluy.ial deposits exist in certain areas and these are quite compressible when saturc;ated as evidenced by the resul ts of the load-consolidati,on tests performed ,on the upper sarrtples from Bori~ No$. 1, 7, and 10. It is recommended that, prlor to pJactl1J ~filled ground, all compressible soils be removed as directed by the soils ellJineer and that the -compacted filled ground be placed on soils suitable for foundation support. Unsuitable materials should also be removed in shallow cut areas and replaced with filled ground uniformly compacted to at least 90 percent of maximum dry density. ' ,2. It is concluded from the results of 'laboratory tests that the natural soils, suitable for s'tructural support, have a,safe beari~ capacity of at least 1560 pounds per square foot for one foot wide continuous footi~s placedontf f~t below the firm undisturbed natural ground surface. The settlement of a one foot wide ,continuous 'footi~ loaded to 1560 pounds per lineal foot and founded on suitable undisturbed natural 50115 is estimated to be less than-1/8 inch • 3. The results of the Ja~r:atory expansion tests Indicate, ,that certain of the clayey sand, sandy clay, and clay soils encountered in the investigation would be, considered as lIexpansive II soils. Therefore, In order to avoid the use of specially designed fOQti~s and slabs, it is recom- mended that, wherever practicable, -the lIexpansive II soils be removed to a depth of 3 feet below proposed finished grade and be replaced with nonexpansive soils uniformly compacted to at least 90 percent of maximum dry denstty. In filled ground areas, all lIexpansive II soils should be placed at least 3 feet below the final compacted fill surface . ( i J • TO • • .' • • • • • • :l.Project Np. 69-9-8C ' 1.0 Costa South Unit Nos • .5,6 and 7 -2-November 7,. 1969 If "expansive" soils are allowed to remain in the upper 3 feet below finished grade" then it is recommended that footi~s and slabs be specially designed. The'required special design will be dependent upon the degree of expansion potential. of the soil, the 'thi.ckness of the layer, and the 'location of tM expansive layer with respect to the footil'GS Or COlicrete slabs. The lots requiril1J specially designed footil1ls and slabs will be listed upon the completion of gradil1J. 4. All of the soils may be satisfactorily ccimpacted in the fill areas and, when com- pacte(f to at least 90 percent of maximum dry densi.ty, have a safe beari~ capacity of at least 2000 povnds per square foot for one foot wide footil'Gs placed 1 foot below the compacted ground surface . The settlement of a one foot wide continuous footil'Gplaced on fill soils uniformly compacted to 90 percent of maximum dry density is estimated to be on the order of '1/8 inch. It is recommended that all soft, loose, or compressibl. 50115 existirg in proposed compacted filled ground areas be removed as ,required by the soils e~ineer and the compacted filled ground be placed on firm natural soils. Recommendations for the placement of filJed ground are presented in the attached IlStandard Specifications fOr' Placement of Compacted rUled Ground, II Appendix AA. 5.A. Pr.eliminary plans indicate that a cut of approximately.i5 feet is to be excavated on the sou.th side of La Costa Avenue in the vicinity of Borirg 14 and a cut of appr~xlmately""" 60 fee.t is planned at Borirg15. It Is concluded from the field investigation and laboratory test,data that these cuts should be on a slope ratio no steeper than 2 horizontal to 1..~cal. Relatively shalloW cuts ar.planned on the lot areas on other portions of the subdivisions and these may be excavated on a J lL2..bs.d~<U-'L.&tt.c_o.L!Ispe for heightsJlotto exceed "" 25M,t ... However,,;s" cuts mQs:Je in th.,~ cla~ claystone, or silty claystone formations, S'iffi'irar to those encountered in Borl!lJs 14 and 15, should be excavated on a 2 horizontal to 1 vertical slope • Inspection duril1J gr~i~ will determine where the flatter s'lopes iTia'Y'bi"~.quir8d~ '",- B. The fill _oUt". when uniformly compacted to at least 90 R!rcent 01 maximum dry density in accorcfance with the approved specifications, will be stable with an,2S.!'SYA.t.ft...ia_QJ.Qt,.., ~ when constructed on a 1 1L2 horizontal to l vertlocal slope for heights 1!P to 70 feet. .. The above concl.usions assume that suitable 'Losipngl .. ~.2!'.t!:q1 and .ete~~ will be prov ide.d .. to prevent surface water from runni~ over the top of exposed .. lopes. - If any soil types are encountered duril1J the gradil'G operation that were not tested in this, investigation, additional laboratory 'tests wiJI be conducted in, order to determine their physical characteristics, and supplemental reports and recommendatiol1$ will automatically become a part of the spectflcations. The data presented on the attCIched pages are a part Qf this reporf'. kespectfully submitted I BENTON ENGINEERING, INC. Revie By # e ~zzr.4'd' R. C. Remer BENTON ENGINEERING. INC. II I' , • i • • • • • • • • • Project No. 69-9-8C -3-November '7, 1969 La Costa South Unit Nos. 5, 6 and 7 DISCUSSION A prelJminary soils investigation has been completed on the proposed La Costa South Unit Nos. 5, 6 and 7 located adjacent to La Costa Avenue east of EI Camino Real in San Diego County, California. The objectives of the investigation were to determine the existillJ soil conditions and physical p'roperties of the soils in order that ellJineerirg recommendations could b~ presented for the gradlllJ and development of proposed bulldi-1lJ sites for residential type dwellll'Gs. In order to accomplish these objectives, fi·fteen borillJs were drilled with a truck- mounted rotary bucket-type drill rig, undisturbed and loose bag samples were obtained, and laboratory tests were performed on these samples. The proposed subdivisions are located on the south side of the valley extendilll easterly from the Batiquitos Lagoon northeast of Encinitas, California. Unit No. 5is located partly on the gently slopirg lowland area and partly on moderately slopillJ hillsides. Unit NQs. 6 and 7 are located primarily on the higher land SQuth of the steep slopill) hillsides formill) the south rim of the valley. The drainage on Unit Nos. 5 and 7 is primarily to the north while the drainage on Unit 6 is toward the west and southeast. Future drainage will be into the streets and storm drains. . Accordilll to the "Soi I Map" prepared by the U • S. Department of Agri cui ture, the upper soils in the lowland areas are described as San Marcos fine 'sandy loam and Botella loamy sand. The upper soils at the higher elevations are described ~s Huerhuero fine sandy loam and Carlsbad loamy fine sand with some areas of rough broken land. The ma'jor soil types encountered in the ,xploration borllllS, as classified accordllll to the Unified Soil €Iassification Chart, were sandy clay, clay-ey SQnd I silty sand, silty clqy I clay,and sand • ~~.~. ~~ Field Investigation Fifteen borilllS were drilled with a truck-mounted rotary bucket-type drill rig at the c;spproximate locations shown on the attached DrawillJ No. l, entitled "location of Test BorillJs. II The borill)s were drilled to depths of 6 to 60 feet below the existilll ground surface • A continuous log of the soils encountered I n the bori illS was recorded at the time of drl II i IlJ and is shown in detai Ion Dr:awi~ Nos. 2 to 15, Inclusive, each entitled "Summary Sheet. II The soils were visually classified by field Identification procedures in accordance with the Unified Soil Classification Chart. A simplified description of·this claSsification system is pre- sented in the attached Appendlx.A at the end'of this report. Undisturbed samples were obtai ned at frequent intervals in the soi Is ahead of the dri II I Ill. The drop weight used for drlvlll) the sampllll) .tube into the soils was the "Kellyubar of the drill rig which weighs 1623 pOUndS., and the average drop was 12 inches.. The general procedures used in fieldsamplJl1J are described u.nder IISampli~" in Appendix B. BENTON ENGINEERING, INC. I I f .. ~ ! • I ~ j i , ~ ! ! ~. 1 I. t '. • • --.--~ ----------. ~-~-~ --------.---.-~.-~-.. -_~. -___ .... __ w_ ( 'Pfoiec't No • 69-9-8C -4- La Costa South Unit, Nos. 5, 6 and 7 Labora,tQry Tests Laboratory tests were performed on all undisturbed samples of the soils in 'order to determine the dry density and moidvre conte'lt. The results of these tests are presented on Drawi~ Nos. 2 to 15, inclusive. ConSolidation tests \¥ere performed on 'representative samples in order to determine the load-settlement characteristi¢s of the soils. The results of these tests are pre- sented on Drawi~ t\Ios', 16 to 21, inclusive, each entitled IIConsolidation Curves. II In addition to the above laboratory tests, expansion tests were performed on some of the clayey soils encountered to determine their volumetric cha~e characteristics with cha~e in moisture content. The recorded expansions of the samples are presented as follows: Percent Expansi on Under Unt t Load of 'Depth of 500 Pounds per Square Bori~, Sample Sample, Soil Foot from Air Dry No. No. in Feet Description to Saturation 1 . 1 1.5-2.0 Fine sandy clay -0.12 (Sample Consolidated) 2 2 9.5-10.0 qayey fine sand 5.60 2 Bag 3* 18.0-19.0 Clayey fi ne to medium 8.26 sand 3 1 1.0-1.5 Fine sandy clay 0.45 4 1 1.5-2.0' Fine sandy clay 7.65 8 Pas 1* 0-1.0 Clayey very fine to 5.00 fine sand 8 Bag 2* 6.0-7.0 Fine sandy clay 7.75 9 1 1.5-2.0 Fine sandy clay 2.10 10 2 3.5-4.0 Very fine. sandy clay 3.55 13 2 3.5-4.0 Very fine sandy clay 1.31 14 Bag 2* 13.0-14.0 Clay 13.90 15 10 48.5-49.0 Clay 4.06 * Indicates test sample compac~d to 92 percent of maximum dry densi ty. The general procedur.s used for the precedil1J laboratory tests ore described briefly in Appendix B,. Compaction tests were performed on representative sampl'es of the soils to be excavated to establish compaction criteria. The soils were tested accordirg to a modified A.S.T.M. D 1557 ... 58Tmethod of compaction which uses 25 blows of a 10 pound hammer droppi~ 18 inches on each of 5 layers in a 4 inch diameter 1/30 cubic foot mold. Theresults of the tests are presented as follows: Bori~ No • 1 2 Bag Sample t 1 Depth in Feet 0.3-1.0 0-1.0 Soil Description Fine sandy' clay Fine to medium sandy clay wi·th scattered gravel BENTON ENGINEERING. INC. Maximum Optimum Mois- Dry Densi ty ture Content Ib/cu ft % dry wt 114.2 13.0 117.8 12.2 • • BENTON ENGINEERING, INC. -~ , ---, '---_ .. -"' , • rProject No. 69-9-8C -6-November 7, 1969 La Costa South Unit Nos. 5, 6 and 7 A~le of' Normal Sheari~. Internal Apparent • Load in Resistance "Friction Cohesion kips/sq ft kips/sq ft Degrees Ib/sq ft Bori~4, Sample 1 0.5 0.89 24 660 Depth: 1 .5-2 .0 feet 1.0 1. 12 • 2.0 1.60 Bort~ 5, Sample 1 0.5 0.59 24 400 Depth: 1.5-2.0 feet 1.0 0.89 2.0 1.31 • Borirg 13, Sample 1 0.5 0.81 29 530 Depth: 1.5-2.0 feet 1.0 1.47 2.0 2.03 Borirg 14, Sample 3 0.5 0.90 39 500 (I Depth: 13.5-14.0 fee-t 1.0 1.31 2.0 3.11 BortllJ 14, Sample 10 0.5 1.36 28 1090 Depth: 48 .5-49 .. 0 feet· 1.0 J .63 • 2.0 3..99 Bori~ 15, Sample 6 0.5 0.86 -29 580 Depth: 28.5"29.0 feet 1.0 , 1"36 "'-2.0 1.93 • Bod~ 8, Bag 2* 0.5 1.84 18 1670 Depth: 6 .. 0-7.0 feet 1.0 2.00 2.0 2.63 Bori~ 10, Bag 1* 0.5 0.72 34 390 11 • Depth: 0 .. 1 .0 feet 1.0 1.11 2.0 1.78 BorttG 12, Bag 1* 0.5 0.64 41 210 Depth: 2.0-3.0 feet' 1.0 1. 12 • 2.0 2.00 * Indicates'tests were performed on samples molded to 90 percent of maximum dry density. • • BENTON ENGINEERING. INC. ~-----~-.~ ----~.-.-,-.. ---...... ----.--"~. ----... -.. --..,...----~-----------.-------------.---------.---------...., • .• ' • • • .'" '.' • • • iProject ~o. 69-9-8C -7-November 7, 1969 La Costa South Unit Nos. 5, 6 and 7 Unconfined compression tests were performed on representative samples of the clay soils encountered In 8orll1Js 14 and 15. The tests were performed at field moisture content and th'e, results are presented below: '. . , Cohesion Ib/sq ft. 8orll1J Sample Depth ( V2 Unconfi ned No. No • in Feet Compressive Stre~th) 14 4 18.5-19.0 5r 110 14 6 28.5-29.0 3,880 15 4 18.5-19.0 3,090 Usilll the lower values of internal argle of friction and apparent cohesion, and the Terzaghi. Formula for local shear failure, the safe allowable bearil1:J ,pressures for the soils are determi'necI asfolloWi : . Local Shear Formula: Q'd = 2/3 c N'e = YDf N'q + Y BN'y Assumptions : Undisturbed natural soils <I> = 240 (1) Continuous footi~ 1 foot wide = 2B (2) Depth of footi ~ =1 foot = Of c = 400 Ib/sq ft Y = 103 Ib/cu ft N'c = 14.5 N'q = 6.5 N'y = 2.8 Q'd = (2/3 x 400 x 14.5 + 103 x 1 x 6.5 + 103 x 0.5 x 2.8) = 4,684 Ib/sq ft Q'd Safe = Q'd -:-3 (Factor of Safety) = 1,561 Ib/sq ft Fill soils compacted to 90 percent of maximum drydenSi!}' c = 390 Ib/sq ft y = 118 Ib/cu ft N'c = 23.0 N'q = 13.0 N'., = 8.5 Q'd = (2/3 x 390 x 23.0:+ 118 x 1 x, 13.0 + 118 x Qr5 x 8.5) = 8,016 Ib/sq ft Q'd Safe = Q'd ~3 (Factor of Safety) = 2,672Ib/Sq ft BENTON ENGINEERING. INC. --, --~--r-----.. ----------.. -.---~----.. -.. ---.. --------__ .',......... !" • •• \, '\. >-~ ~ 'SUMMARY SHEET .(!) .~ w~ ~. ~!~ ~ .. w 0: 0: I&. iii I&. *~g ... w w ...... o:~ Z· ::c .... o..ca .... z '" Q:':)' w a .... w .. ~~ BORING NO. 1 w a.. ........ >-~;5 ~~ a..~ w 52 M:!!!o: Q ...... ct::) 00 >-iii ::C!!!", w "'Z 104' * > . "''''0.. e { ELEVATION -.... ~~ !III: ca :ld .1:lII: I&. o .... w_ e 1:lII:~ 1--0· H J+. G."'1 -iJ .. .nm, Slight! Moist, "'." Loose to MecUvm Loose 2 ~ Yellow-brown With White Alkali FINE SANDY 0.8 15.6 95.9 ":. \ Pockets, Moist, ~oose CLAY • A :: ~2t: 1\ Medium Firm ,2l.J JZ~4 106..1 .' ,"-, .\ Vrery Fi rm / ., .. " .. Gray-With Yellow-brown and .. . 6-P.(3F Red-brown, MOist, Very Firm, 26.8 18.4 108.0 ..... Fine Sandy. Clay Pockets, Alkali -.. '. CLAYEY FINE .. Pockets, Some Cemented Layers, 8-.. SAND .... 10 to 15 Percent Gravel From 6.5 ,', . to 8.0 Feet, Few Gravel to -" -'- -'--'-3 Inches, Below 8.0 Feet ,.., • B'ORING NO. 2 ELEVATION 92' (\. v M 1! Dark Gray, .Dry, Loose, 10 to FI NE TO MEDIUM • __ 15 Percent Gravel to 3 Inch,s, SANDY CLAY :! Cobbles to 5 Inches • I 8. 1 16.6 100.6 ~1:t ...,; Yellow-brown:-With 'Gray.; . FINE SANDY A Moist,Firm, Scattered Gravel CLAY "':"'-'-\ and Rock Fragments to 2 Inches' / "-' (Merges) ' ... ' .. • L ~ Gray, Moist, Very Firm, CLAYEY FINE u \ Scattered Gravel to 3 Inches, SAND J ...,... """ ...! • Cobbles to 4 Inches .., f:.-l12 f-7-o· ~ Gray with Red-brown, Moist, GRAVELLY Very Firm, 15 to 20 Percent CLAYEY FINE 10 7(2):T Gravel to 3 Inches, Cobbles to SAND 26.0 16.3 109.1 93.3 : ... , .. .-. 5 Inches I'" ~ Gray with Red.-brown, Moist, ,GRAVELLY Very Firm, 15 to 20 Percent CLA YEY FI NE TO -. cI:. ... .., Gravel to 3 Inches, Cobbles MEDIUM SAND -'-.... ...... to 5 Inches 1~ -. !_. .-- Continuec:f on Drawing No.3 .' O· -Indicates Loose Bag Sample , o Indicates Undisturbed Drive Sample •• .w ~ ct. Z * -The elevationS presented here.in were obtained from. the contours shown on the tentative map, of La Costa South prepared by Mcintire & Quiros, Inc. lSI 0 ..., •• ~ . PROJECT NO. ;,ENGINI;ERING, DRAWING NO. 69-9-8C ·BENTON INC. 2 ) . ~ : • .' ;. t • 1 I , , • ,. I ,. '.' ; • • -0' 00 It) . ,~ .... ·c :::::> -s ;:) 0 Vl .e d .,9, 0 ..c u c ~, LLI ~ < Z &IC o ., < , SUMMARY SHEET" ~ LLlOI: .... LLI ::z: .... A.&IC 2 (Cont.) .... LLI ~~ BORING NO . A.lf <~ LLI I.I'IZ C ~-i4 " ~ Gray with Red,-.., ......... Moist, I, ,. --Very Firm, 15 to 20 Percent GRAVELLY , 16--Gravel to 3 Inches, Cobl;>l,s to CLA YEY FI NE TO , .. . 8 Inches, 4 Inch Sandstone MEDIUM SAND ,', Layer at 14.0 Fee t "". ,~ 18 "." -1~3r.---20-20 to 30 Percent Gravel to i\ 3 Inch.es, Cobbles to 8 Inches ( .. / .... ,. ' \ Highly Cemented SANDSTONE BORING NO. 3 ELEVATION 461 . 0 _ ~"Brown, Dry, Loose SILTY FINE SAND ) 2-."~ .•. Brown, Moist, Firm, 15 to 20 GRAVELLY FINE Percent Gravel to 2 Inches SANDY CLAY , , , I A ' , , Dark Gray and Brown, Moist, CLAYEY FINE ~ -Very Firm, with Alkali Streaks SAND . , 6 . , Dark Gray with Red ~b.·c ..... , , , . '..!. Moist, Very Firm, Fine Sandy CLAYEY FINE 8 ~ Clay Pockets, 4 Inch Fine to . SAND , . , , , 1\ Coarse Sand Layer at 8.0 Feet -, .. . 10 . \ Yellow-brown, Clay Chunks J , PROJECT NO . 69-9-8C BENTON ENGINEERING, INC. >->-' ~§. LLI·..,: ........ .1&,1 . ..,: -U. uu;. c~~ ~ . OI:Z LLI a <~~ LLI .A. ..., .... >- LLI ii2 LLlI.I'I·OI: c ....... ~h ii:C5c >-vi > ' -.... ~~. 1:11: &IC 01: U. Q .... Q < 9.7 8.4 1107.0 21.1 6.8 110.6 17.9 6.4 106.2 , I . , 11 .1 . , I , t DRAWING NO, 3 l I' BORING NO. 5 ELEVA nON __ 12_2 I ...... .,.,) :C:::.::: Gray,-Dry, loosel Shrinkage .::'.~ ~/l;~' Cracks to 1.0 Fool, Moist and . ") ~.!.~ Medium Soft Below 0.5 Foot 1-..:....:..;:-+-...:.....:--+~-t-.,..:......t--:---t'.':;.~.,:.;~ .. :.' '. : '. \ 2 '-----~----,-----+~--'-------' . '::J ~ . Brown; Mots t, Medi urn Loose, ':: J 4--~ "".i : :::: Porous . <J .. ; ...... "i. ... ,e 6 ." ..... , . . .-" .. ~?P. .......... ·k· ...... . -' .. ' ........ I NTEcRBEDDED FINE SANDY CLAY AND ClAY~Y FINE SANOLAYERS ,~ .~:. ; '!: iJ .~:',::J )~ . ...,..: • 'J ~ . . y '( ", .. ,: .... :'~~:~ i 'i'. 'P.' .' ~ . -~ ~, ~.;:"', -. ~.......,..".--:.~...---... ---_ .. -----. ..... - .' -, ' •. ' .< -Q . , ] 0 I() J!! ·c .~ ::> -:E 5 en R <S u .. ..9 0 ..s:: ~ j • 'l: :z:t:i ... w A.u. W Q SUMMARY SHEET BORING NO. q . ELEVATION 232 1 ray, S 19 LooSe ray wi th Red -brown, 5119 h.tf Y Moist, Medium Firm , Firm Below 1.0 Foot ---'-Gray, Moist, Very Firm Gray with Red-brown Gray and Red-brown, Moist, Very Firm SIL TY VERY FI NE TO FINE SAND FI NE TO MEDIUM SANDSTONE SILTY VERY FI FINE PROJECT NO. 69-9-8C BENTON ENGINEERING, INC. 10.512.0101.9 16.2 7.6 14.6 6.0 9.7 9.3 109.7 105 . 103.1 DRAWING NO. 5 , ' ">f;';":\"';>;" c '1'''r::' ,; '. ' i}';'/i ,t, ': "~; y~ ,',,: :>; ':1; -'" -SUMJV!i.ARY SH-EST "-.;~, BORING NO. , J eL~VATION 205 1 Gray, Moj~t, Medium Loose I Porous, Some Roots I Sea ttered Gravel to 3 Inches, Cobbles to Inches Gray, With Red-brown, Moist, Very Firm SILTY VERY FINE TO FINE SAND 19.5 12.4 107.6 " ," ~I 8....i.::'6.'J.:!!..Zl.-________ ~---~_L_~ ____ __L:3~.:::.5.!_.4:...l.,_.8=-.:..::8...L:..::.=-.=5-1,____,l-_1, '_', ';, BORING NO. 8 ELEVATION 255' , .,~, ,_ 1 )-t:::-,..:;!~IIt::::L.:'r;-:::==~D;::::-ry:-;,L-:oo=s=e'-~'-lrc:tLAA, vY1:-EyV"\;yii:ED-Ryv',-,-:--r-l-T-1 ,:' ::', ..... .j;7-:-t-;-;I,_~_,_ ---------+,FINE TO FINE ;,: Brown-gray, Moist; Very Firm, Brown Ciay Seams and Lenses ~~~ Gray with Yellow-brown and Red .. brown, Moist, Very Firm SI LTY VERY FI NE TO FINE SAND {Me FINE SANDY CLAY SlLTY CLAY 14.6 1,L7 105.0 14 ',6 19.6 105.6 9.4.Q 14.6 21.7 100.7 17 .9 25.5 94. DRAWING NO, 6 ': 7.'~~' ,-,.0 ~~""'-'-'-~':-,,", --'-T~ ___ "r----'~-"-': ------. --~--. -----~--.. ---~. :: " :. ' ' >-SU'MMARY S,HEET :" . III: I:i: ~ ",III: .... '" '''' ...... ... o.a:I ..... Z '" , :z:: '" ,~~ , ,BORING NO. 9 '" 0. ... '" ,--., '" 52 0.1&-'" "'Z 238' > . Q ELEVATION -... III: I&-• • Q ~n' , , v ~~ Brown, Dry, Firm S[LTYFI NE SAND ~lF' l\ j 8. 1 2 Red-brown, Gray and Brown, ., ... ,: .... 0° ':'" ... Moist, Very Firm FINE SANDY -~ ~\ CLAY AND 4.9 4' .''', ...... Firm CLAYEY FINE ~'." .. ::....'. " .' SAND ::;. ... ' .. ' ' [.1' •• • •• 6 .... '~ !9.5-Gray with Yellow-brown; SILTY VERY FINE • Moist, Very Firm TO FINE SAND BORING NO. 10 ELEVATION 237' , • '-Ot It l. ~; .Ie! 1:-0,2; ~ ,-' ..c, -'ofoio: ~, I I\Brown, Dry, Loose, Po~ous SILTY FINE -• • .. ' Slightly Moist" ,,'.. :. SAND 2-' 1· 1.0 • 'eJ ...... " Gray with Red-brown and .-.' .. , ...... VERY FINE 4 ~ Yellow-brown, Moist I Very SANDY CLAY 19.5 . .0. ....... " Firm (Meraes) ..... -... • " • o,'! Gfay with Red-brown and CLAYEY VERY · . . ~ .. ' . 6 · . ~ " . Yellow-brown, Moist, Very FINE SAND tiCiB 26.0 ·3 .. Firm :. ,~ S i u' BORING NO. 11 t " .3 ELEVATION 214' ..8, I -a :. ~li " ' I <~ to .-.J t _.' t; , j ~ '(; \ 0 I, \-,1 r-, ,~ 1:-.~ ... 1 " r ! A 1t~~ Brown I Dry, Loose SILTY FINE -C(D#. SAND / 1 .' ,\ ' , -S. 1 2 .. ;, ... Brown, Gray and Yellow-brown, CLAYEY FINE . -, .. '. ~ '. ~ .. " .. ".' ' .. :. Slightly Moist to, Moist, Very SAND AND FINE -~ .. ,'. ~', . : .' 4-1~ Firm ' SANDY CLAY / 27.6 .... - : .• ~ Light Gray, Moist, Very SILTY VERY FINE 6'. ',. Firm TO FINE SAND .. ~ i· • , 1'. Li.I ~. ~ < Z a:I I 0 , .... ~ ! \. \\ , \ PROJECT NO. 69 ... 9-SC BENTON ENGINEERINt;,. ' INC. -; 1 .; 'J .-, ~- ( .. -',);( ,to -.. "'~ >-• ...... -I&-' a: ~ !2 . Q::l '" a ...... > "''''a: 0 ...... ~OQ >-vi ~~ CI: a:I Q ... 12.4 106.9 13.4 97.2 .' . 1-9.8 104. • 8.5 86.S 19 • .9 105. 1 15.0 103.1 11. 1 '109.9 13.8 111.0 -. -_ .. -_. ---; 1&.1' ut: III: Z . «0 "' ... '" :z::"' ...... "'-'" 11'10. "'-III::.&:: I - ~e.~ .... ::l! ;.§! ~~~ 73.6 . , , II , , " I' , , II II II II i i ji II DRAWING NO. ,I 7 .' . , • • • • r . , [ . ~. i t I. • . o :z: ~ 'i: :::> -:e 5 til R S u Jl o ,..c g ~ w ~ 0( Z lID o ..., --~ --*---~ --~-.... -----~ *--------,--.--------- SUMMARY SHEET BORING NO! 12 ELEVA nON 218 ' ~ a ~,fJ<: Brown, Dry, Loose -:~Sli9htIYMoist, Medium Loose, ' 2'~:J ~'A 1\ With Clayey Fine Sand Be,tween _~~~ • 1\ 1.0 anell.5 Feet --,-, ---,---1 ~• Light Gray, Yellow-brown and 4-~.. Brown, Moist, V~ry Firm, Clay -:. 1\ Seams " . 6 ' 1.-0-___ ----___ ---I LIght Gray with Red-brown Streaks BORINGS NO. 13 ELEVATION 221' o .~' 1 Brown, Dry to Slightly Moist, -• .'.! Lciose 2 .'. l..z;:" G' , h D d b 51' . htl . ... ; .... ' ray WI t I\e -rown, Ig y _.:.:':'.:::::: Moist, Very Firm 4~' ~ •• e. • Gray wi thYe II ow-brown, 6-. • Moist, Very Firm - Eo'. • • -'" . 8 -3 :) SILTY FINE SAND SILTY FINE SAND VERY FINE SANDY CLAY SILTY VERY FINE TO FINE SAND PROJECT NO. 69 .. 9-8C BENTON ENGINEERING, INC .. 11.4 9.2 106.9 94.5 27.6 10.5 107.9 'T ~ 9.7-17.1 105,fH-v --I-'---I 21. 1 16.2 107.8 35.4 12.0 107.0 DRAWING NO. 8 , " , .' , • • • • -0 .0c5 It') J/!' .-• c :::> -:S :;) 0 V) .... • ~. ..9 • • • ~ ~ -----. ---... '): Z ""III SUMMARY SHEET , -... "" I"-L .. :"" ~~ ... "" BORING' NO. 14 ,L ..... ~ ELEVATION 205' :"',Z " " " " . " ..... I-• '.' • " ,. , .. " " : ':::::'.:::: Light Brown, Moist, Medium .... -.. -. _Firm .., .:: : :: Light Brown, Moist, Medium to)± Fi rm to loose, Porous .qr-.......... . . " e'. " " ,~ " " " " " ........ .I. ••••• .... " ... .8]1+ _ f.-L.!....I-:-: r ::::: , •.. eo" .. 0-::::: 0j...:....:..~..:..j . i eo" .... "R2:P: 7·~...:....:.....:.-j ,-.......... " ........ I&-: : ~ : : .......... 11-'" .. ......... .. " ...... " .. " ~ . 1" . '.' , " Olive-green, Moist, Very Fil1l1, Dips Down 24° to N 35° W ---- FINE SANDY CLAY CLAYEY FINE SAND Varies and Merges to Ollve- brown, Thin Silt Lenses 1~ 16 17-.:.J,·'-~ PROJECT NO. 69-9-8C CLAY Continued on DrawirlJ No. 10 BENTON ENGINEERING, INC. 3.2 10.698.4 2.4 12.0 91.2 11. 4 24.0 93. 1 84.7 DRAWING NO, 9' -- --~----......-. _ .. -'------' ----~-------, ,. i i j I __ .. ..J • I • • -0 ""2 • 0 L() l! . . -c .;:) -:e • ~ .2 S u ..9 • •• • • • w ~ < Z I:D 0 ., • 20- 21-1----1 22--;.._---l SUMMARY SHEET· BORING·NO. 14 (Cont.) CLAY (Conti nued) .. 23 Contai ns Clayey Fine to Medium ""'--~-' Sand Lenses 24-~ 25---'")-' ----f 13.0 26.4 96.3 SfL3 25.S 10. 1104. 1 26~~~~------~--~----~----------+---r-~~-r--~~ I-I-rl-'-'-l Olive-green, Moist, Very 27-;...1..,1.....,..I.·....! I" '.I .' 28-'-I' 1 I . 29 -heY- 1 ' 3o-rJ-L-,..i~· ,I 1 Firm CLAYSTONE J. 32-1 _J-r.i-'-II Light Olive-gray 33- Light Brown, Moist, Very Firm SIL TY VERY FI NE TO FINE SAND Conti nued on Drawi rlJ No. 11 PROJEC;T NO. BENTON ENGINEERING, INC. 69-9-8C 22.5 US.6 11009 44.1 12.S106.S DRAWING NO. 10 • 1 • • • • -:e :;) 0 en .2 • ~ .9 0 -5 s:: ~ • • • · ~ < z co o ..., • SUMMARY SHEET' . :x:ti "'1iI A, &a. iii Q BORING 'NO. La6 ;.:,: ... :., 'h _ '::Ii}::: lIg t Brown, Moist, Very 37-:::::':;":':';':: Firm, Sli9ht Clay Binder /?!//? 38-.::.::.:::.;, -~?" ... \ 39--}}W'/' .:::: :::::: 40-::::::,::.:~;:::"~ -:X·»l.:~ 41-:;::,:::-:-:-:': -\{?~}. 42-:::':'::'/:':': 14 (Cont.) FINE TO MEDIUM 45.4 8.2106.1 SAND -----~ 90.8 . -~y/,:~} 43~~~t~f. __________________ ~~ ____ -~.~ ______ ~4~1~.6~~6~.8~11=2~.0~ __ ~--; 44-Joi--./.....;--.j 01 ive..-brown, Moist, Very Firm, Contact Dips Down, .'. 45-1-----1 5°, S 35° E AL 47---r-----I -1-----1 50. ~rz. .. . _~~:-;:~.:::!: .. : ~live-gray, Moist, Very 51 .. -~ .. ::. Firm 1-. "'.'.~ .:: ..... :~.~ CLAY VERY FI NE SANDY SILTStONE (Meroes) ALTfRNATE LAYERS OF SILTY CLAYSTONE AND-, VERY FI NE SAND) SILTSTONE PROJECT NO. 69-9-8C BENTON ENGINEERING, " INC. 25.8 19.8 106.2 57.4 10.0 127.8 DRAYlING NO. '11 • .,- • • ;:)' • ~ :;) ,~ J:! ~ ..9 • 0 ..c u 'C & • • SUMMARY SHEET" BORING'NO. 14'(Cont.) e- Olive-gray I Moist I Very Firm ALTERNATE LAYER OF SILTY CLAYSTONE AND AND'-NERY FINE PROJECT NO. 69 ... 9-8C BENTON , • .1 , SANDY.-' , SILTSTONE (Continued) ENGINEERING, INC. DRAWING NO. 12 , J • • • • • • • • • • • -0 ~ it) . 0 z. .... ·c ::> -:E. ~ .e VI 8 ..9 0 ..c ~ ~ IoU . ~. cc Z ai o ..., SUMMARY SHEET BORING' NO.-..:· 1~5_ ELEVATION 184 I !-.-0 : :' :' :: Brown and Gray, Moist, ..... Loose 1...,.. : : : : : , ., ... Firm ............ 2-::::: .... , Very Firm '. -....... .. .. .. .. .. 3 .-........ 4-~ -:£]i. 5 .... ..... Light Brown, Moist, Very Firm, :::: Occasional Silty Fine to 6-:: :9' Medium Sand Layer .. i .... •• '--1> 7-... 1/ EE3" 8J~) -i~~ 9 ....• :: ; ~ 10- -~CI~ ________ ~ 11-~Sltg.h.tly...sil..ty j=ine-.SancC _ 12~ ~~~!"'t~.~~·1~:I~~ft;r~ITtY • i:"l \£I.DCLSID'l<l - - - - - - 13-~:.:::.::':':::'.:\ L Sandstone . . . . ".:::~~:::::::.: Light Gray, 51 ightly Moist to 14-·:;\[t~ Dry, Compact, Some Clayey CLAYEY FINE SAND ALTERNATE LAYERS OF CLAYEY FINE SAND AND SILTY . FINE SAND / 13.0 11.5 112.7 8 .. 1 11.1109.1 FI NE TO MEDIUM SAND 13.0 8.3 110.5 _ .::.:'.:::"'\':::'" Fine to Medium Sand Lenses .: .. ::.~.:.:: ::-:". 15,-+~~--------------~----~~----------~--~~~--~--~--~ Light Olive-green, Moist, 16----.1-----1 Very Firm, Approximately I-----l Level Contact 17~---1 . -I:ift: CLAY 18 Continued on DrawillJ No. 14 PROJECT NO. . ~69~~9~C BENTON ENGINEERING, INC • ____ ....... ,.. __ • __ ~_~ ____ ~ ____ .-__ ....l.. •• __ ._. M.~_4 DRAWINGCNO. 13 · . , • • • ~. 'c ':J -= .---5 .. :Vl .e-8 u ..9 o • -5 c .. J! • • • IoU :t < Z a:I 0 .... • SUMMARY SHEET' - BORING-NO. 15 (Cont.) 20-- .. 21- 22- 23 +-=--1 Cemented Ncx;!ules to 24.6 Feet, 2A. 4...5)-Glassy Fractures From 23.7 Feet to 26.0 Feet I---~ 25 26-t=::::j-~---~-~----I ..1--'-_-1 01 ive-green ..ir--_-1 2& 1----1 -29-K.6)--1---"" Glassy Fractures to 31.5 Feet 3 . f----; 3'-.- ~-..., light Olive-,Green oJ.I 1--_-1 'f--Oo,--j 3& CLAY (Continued) Conti nued on Drawing No. 15 PROJECT NO. 69-9-SC BENTON ENGINEERING, INC. 22.8 18.7 110.0 - 33.3 18.3 117.9 35.8 14.9 115.9 47.2 16.S 116. 1 DRAWING NO. 14 · . ( • • '. -0, 06 to ~ . 0 0 Z • .... ·c. :=> -:e ::;) 0 en .2 • 8 U .9 0 ..c u c ~ • • • .', 'W ~ c( • Z ra o ..., • ' , , ! WIIIIC ... w ::ci-Dora ... ttI ~~ A., .. ",", tC:::t W "'Z Q. 'lL .,.., 37- 38- 39-~8)- 4(} . 41- 42 43 -,44 :1:9):: 45~ 46.....; .. 47 48 49-~ 50- 51-- ,52 53- 5A f-(1)- ~ SUMMARY SHEET BORING' NO~ 15 tCont.) Light 01 ive-green, Moist I Ver.y Firm, Formation Appears- Uniform and Very Stable Below 36.0 Feet . Occasional Pockets and Lenses of Claye¥ Fine to Medium Sand and Fine to Medium Sandy Clay Some Merging Fine Sandy Claystone Lenses CLAY (Continued), ----. PROJECT NO. 69-9"8C BENTON ENGINEERING, INC. 54.5 11.5 122.5 60.0 16.4 117.0 59.7 12".5 )19.8 89.5 10.8 128.2 DRAWING NO. 15 J / . ", ( • • • • • • • • • r- • -0 "E a Ii) J!! 'c ::J -= ::) ~ 0 .... ' a u .,g 0 ..c 0 c ~ 1£1 :I ct Z CD o ., , 0:>.2 1 r---- 2 3 4 ~ 1£1 Z 5 l( 0 :l: I- 6 1&1 oJ 11. :I cC 7 (/) II.. 0 8 I-Z 1£1 (.) a: 1£1 9 11. I 210 I-ct ~ 2 r---oJ ~11 z 0 o 12 13 PROJECT NO. 69-9-8C I r-______ ~ CONSOLIDATION CURVES LOAD, IN KIPS PER SQUARE FOOT 0.4 0.6 0.8 1.0 2 4 6 8 10 16 Bori~ 1 SdITlP e 1 De[ th 2' r---r--l"-t--l-t-... b... ~ r-... \ \. 1\ -t---\ 1-_ t--t-l-I-r-------r-----\ ~ 0 Indicates percent consol idation at field moisture • Indicates percent consol idatian after saturafion DRAWING NO. BENTON ENGINEERING T INC. 16 · " ( • •• • .. • '. • • • CD o ., )' " 0°·2 .1 2 3 4 U) U) 1&1 Z 5 ~ <.J ::z: I-~ 6 1&1 ..J a;. :::E < 7 U) u. 0 ... Z 1&1 <.J 0: 0 1&1 a;. ~ I z 1 52 ... < 0 ..J 0 2 U) ~ z 0 <.J '3 4 5 PROJECT NO. , 69-9-8C CONSOLIDATION CURVES' LOAD IN KIPS PER. SQUARE FOOT - 0.4 . . 0.6 0.8 1.0 -2 4 6 8 10 16 , -Borirg 3 Sample'l . -Di'mth 1.51 Note: Sample may have been disturbed due to i grav~l. '\ \ \ \ 1"--t--t-t-\ t-t-----_ t---- Boring 5 I--SamRle 1 nl'mth ,I - ~ r--t--1--r--t--r-----___ l\ r----- .. . . 0 Indicates percent. con~ol idation at field moisture • Indicates percent consol idation after saturation DRAWING NO. BENTON ENGINEERING r INC. 17 e'(t () • • • • • • • • " • • -0 o(j ~ . ~ -·c ::J -:E 5 Vl .e 8 u .s 0 ii c ~ !AI 2 ct Z III o .., ", 0°·2 ~, 1 ~ """ 2 3 4 II) (1)' !AI Z 5 ~ (.) :x: ~ 6 '" -J .Il. 2 ct 7 II) ~ 0 8 ... z !AI (.) III: 9 !AI Il. I glO ... ct e 511 II) z 0 (.) 12 13 PROJECT NO. 69-9-8C CONSOLIDATION CURVES LOAD IN KIPS PER SQUARE FOOT 0.4 0.6 0.8 1.0 ,2 4 6 8 ' 10 16 B6ri~ 10 Samp e 1 Deeth 2' ~ "" l\. \ r\ \. 1\ f\ \ \ -' \ \ '\ \ \ , - 0 Indicates percent consol idaHon at field moisture • Indicates percent consol idation after saturation DRAWING NO. BENTON ENGINEERING, INC. 20 • • • " • • • • • • -0 0(5. 1.0 J!! ·c ::J -:E. ;:) 0 Vl ,g 8 u .9 0 .s: u c ~ CD o ., 00.2 1 2 1'\ \ 3 1\ 4 en en III z 5 :.c: " X .... 6 III oJ 4. 2 < 7 en II-0 .... 8 z III " a: 9 III 4. I 910 .... '"' e 511 en z 0 " 12 13 14 15 16 PROJECT NO. 69-9-8C CONSOLIDATION CU.RVES LOAD IN KIPS PER SQUARE FOOT .0.4 .0,6 0.8 1.0 2 4 6 8 10. 16 Boring ., 1~~m!le2~ .. \ 1\ \ 1\ \ ~ . 1\ 1\ \ 1\. \ \ \ 1\ \ .. 1\ '-\ ,-- a Indicates percent consol idation at field moisture • Indicates percent con.sol idati on after saturati on DRAWING NO,. BENTON ENGINEERING, INC. 19 • • • 1'0. cO -.0 • ... t.(') l! 'c ::>' -:S, :;). 0 • V') 2, .." 0 u 0 ...J 0 • .c' g d! • • • 1&.1 2 "' z CD 0 .., • CONSOLIDATION CURVES LOAD IN KIPS PER SQUARE FOOT 0 0.2 It:- .~ ____ ~ __ ~0.~4 __ ~~0~.6~~0~.8~~1,~0 ________ ~2~ ____ ~ __ ~4 __ ~~6~~~8~ 10 16 Boring 10 1 2 3 0 (/) (/) 1&.1 z 1 ~ (J :z: .... 2 1&.1 ..J ,4- 2 ~ 3 Ii. 0 .... ·z 1&.1 0 0:: 1&.1 4- I z 2 .... c 0 ~ ~ z 0 (J -r::::: ' Bag No. 1 ~ __ ~~ __ +-__ ~4-_-~~~r-~~-+~~ __ ~'-=~~--~~--+-~~4-~Depfu:0-11 -r=::::::--r-.. Remol ded to """"'4 90% of Maxi- lmum Drv Densii" BorirG 12 r--,t--r-Bag No, 1 ~===:t-__ +-__ t-+-t-~-+r--+r-,-1i>--.:"'=~-=:::::::::---1---~+----+---t-+---1 Depth: 2 1-2-1 .,... ~ --:---r-I---L ~D' Remolded to r-11-+-----__ t::---r--. 900k of Maxi- 0 • Indicates percent con sol idation at field ~oisture Indicates percent consol idati on after saturatLon mum Dr, De ns i tv PROJECT NO. ENGINEERING T INC. DRAWING NO. 21 69-9-8C BENTON • • • • • • • • • • BENTON ENGINEERING, INC. APPLIED SOIL MECHANICS -FOUNDATIONS 6717 CONVOY COURT SAN. DIEGO, CALIFORNIA 92111 PHIL,IP HENKING BENTON .. RESIDENT. CIVIL ENGINEER TELEPHONE (714) 5615·191515 APPENDIX AA STANDARD SPECIFICATIONS FOR PLACEMENT OF COMPACTED FILLED GROUND 1. General Description. The objective is to obtain uniformity and adequate internal strength in filled ground by proven eng ineering procedures and tests so that the proposed structures may be.safely supported. The procedures include the clearing and grubbing, removal of existing structures, preparation of land to be filled, filling of the land, the spreading, and compaction of the filled areas to conform with the lines, grades, and slopes as shown on the accepted plans. 2. The owner shall employ a qualified soils engineer to inspect and test the fille~ ground as p laced to verify the uniformity of compaction of fi lied ground to the specified' 90 percent" of maximum dry density. The soi Is engineer shall advise the owner and grading contractor immediately if any unsatisfactory conditions are observed to exist and shall have the authority to re ject the compacted fi lied ground until such time that corrective measures are taken necessary to comply with the specifications. It shall be the sole responsibility of the grading contractor to achieve the specified degree of compaction. ' Clearing, Gr'ubbing, and Preparing Areas to be Filled. (a) All brush, vegetation and any rubbish shall be removed, piled, and burned or other- wise disposed of so as to leave the areas to be filled free of vegetation and debris. Any soft, swampy or otherwise unsuitable areas shall be corrected by draining or removal, or both. - (b) The natural ground which is determined to be satisfactory for the support of the filled ground shall then be plowed or scarified to a depth of at least six inches (611), and until the surface is free from ruts, hummocks, or other uneven features which would tend to prevent uniform compaction by the equipment to be used. (c) Where fills are made on hillsides or exposed slope areas, greater than 10 percent, horizontal benches shall be cut into firm undisturbed natural ground in order to provide both lateral and vertical stability. This is to provide a horizontal base so that each layer is placed and compacted on a horizontal plane • The initial bench at the toe of the fi II shall be at least 10 feet in width on firm undisturbed natural ground at the eleva ... tion of the toe stake placed at the natural angle of repose or design slope. The soils engineer shall determine the width and frequency of all succeeding benches which will vary with the soil conditions and the steepness of slope. • • • • APPENDIX AA - 2 - (d)' After the natural ground has been prepared, it shall then be brought to the proper mois- ture content and compacted to not less than ninety percent of maximum density, In accordance with A.S. T.M. 0-1557-70 method that uses 25 blows of a 10 pound hammer falling from 18 inches on each of 5 layers in a 4" diameter cylindrical mold of a 1/30th cubic foot volume. 3. Materials and Special Re uirements. The fi II soils shall cpnsist of select materials so graded at at east 40 percent of t e material passes a No.4 sieve. This may be obtained from the excavation of banks, borrow pits of any other approved sources and by mixing soils from one or more sources. The material uses shall be free from vegetable matter, and other de- leterious substances, and shall not contain rocks or lumps of greate'r than 6 Inches in diameter. If excessive vegetation, rocks, or soils with inadequate strength or other unacceptable physical characteristfcs are encountered, these shall be disposed of in waste areas as shown on the plans or as directed by the soils engineer. If during grading operations, soi'ls not encountered and tested in the preliminary investigation are found, tests on these soils shall be performed to determine their,physical characteristics. Any special treatment recommended in the preliminary or subsequent soil reports not covered herein shall become an addendum to these ~pecifications. The testing and specifications for the compaction of subgrade,subbase, and base materials for roads, streets, highways, or other public property or rights-of-way shall be in accordance with those of the governmental agency having jurisdiction. • 4. Ptacing, Spreading, and Compacting Fill Materials. • • • • ., (a) The suitable fill material shall be placed in layers which, when compacted shall not exceed six inches (6"). Each layer shall be spread evenly and shall be throug'hly mixed during the spreading to insure uniformity of material and moisture in each layer. (b) When the moisture content of the fill material is below that specified by the soils engineer, water shall be added until the moisture content is near optimum as specified by the soi Is engineer to assure thorough bonding during the compacting process. ' (c) Vv11en the moisture content of the fi II material is above that specified by the soils engineer, the fill material shall be aerated by blading and scarifying or other satis- factory methods unti I the moisture content is near optimum as specified by'the soils engineer. ,(d) After each layer has been placed, mixed and spread evenly, it shall be thoroughly compacted to not less than ninety percent of maximum density in accordance with A.S.T.M.0-1557-70 modified as described in 2 (d) above. Compaction shall be accomplished with sheepsfoot rollers, multiple-wheel pneumatic-tired rollers, or other approved types of compacti on equipment, such as vibratory equipment that is specially designed for certain soil types. Rollers shall be of such design that they will be able BENTON ENGINEERING. INC. .' • • • • • • . ' APPENDIX AA - 3 - to'compact' the fill material to the specified density. Rolling shall be accomplished while the fill matedal is at the specified moisture content. Rolli~ of each layer sheill be continuous over Its entire area and the roller shall make sufficient ,trips to insure that the desired densi ty has been obtai ned. The entire areas, to be fi lied shall be compacted. (e) Fill slopes shall be compacted by means 'of.sheepsfoot rollers or other suitable equlp~ent. Compacting operations shall be continued unti I the slopes are stable b0t not too dense for planting and until there is no appreciable amount of loose soli on the slopes. Compacting of the slopes shall be accomplished by backrolling the slopes In, increments .. of 3 to 5 feet In elevation gain or by other methods producing, satisfactory results. (f) Field d~nsity tests shall be taken by the soils engineer for approximately each fooHn el,evation gain after compaction, but not to exceed two feet in vertical heig'ht between tests. Field density tests may be taken at intervals of 6 inches in elevation gciin if required by the soils e~ineer. The location of the tests in plan shall be so spaced to , give the best possible coverage and shall be taken no farther apart than" 100 feet. ' Tests shall be taken on corner and terrace lots for each two feet In elevation gain • The so,ils engineer may take additional tests as considered necessary to check on the uniformity of compaction. Where sheepsfoot rollers are used, the tests shall be taken in the com- pacted material below the disturbed surface. 'No additional layers of fill shall be'spread until the field density tests indicate that the specified density has been obtaIned. , ' (g). Th~ fill operation shall be continued in six Inch (6") compacted layers, as specified ,'above, until the fill has been brought to the finished slopes and grades as shown on, the accepted plans. ' 5. Insp~ctiol'). ?ufficlent Inspection' by the soils e~'ineer shall be maintained during the" filli,~ and compacting operations so that he can certify "that the fill was constructed in accordance with the accepted speci fi cati ons . 6'. ,Seasonal Limits. No fill material shall be placed, spread, or rolled if weather conditions increase the mqisture content above permissible limits., When the work Is interrupted"by , 'rain~ fill operations shall not be resumed until field fests by the soils e~inee"'lndiccte that ,'the moistUre content and density of the fill are as previously specified. 7:' , liml'ting Values of NonexpansIve Soils. Those solis that expand 2.5 percent'or less ,trom .' 'air dry to saturation under a ,unit load of 500 pounds per square foot are considered to be~ , ,nonexpansive. 8. ,All recommendations presented in the "Conclusions II section of the attached report ,are a, part' of these specifications . , - ~ENTON ENGINE~RING. INC. • • ,0( JI -A • • • • • • • • • • BENTON ENGINEERING. INC. APPLIED SOIL MECHANICS -FOUNDATIONS 6717 CONVOY COURT SAN DIEGO. CALIFORNIA 92111 ·PHILIP HENKING BENTON fORESIDENT • CIVIL ENGINEER APPENDIX A- TELEPHONE (714) !S6!S.i9.!S!S Unified Soil Classification Chart* , SOIL DESCRIPTION GROl,JP I. COARSE GRAINED, More than half of material is larger than No. 200 sieve size.** GRAVELS More than h'a!f of coarse fraction is larger than No.4 CLEAN GRAVE LS sieve size but smaller GRAVELS WITH FINES than 3 inches (Appreciable amount of fines) SANDS C LEAN SANDS More than half ot coarse fraction is , smaller than No.4 sieve size SANDS WITH FINES (Appreciable amount of fines) II. F'!NE GRAINED, More than half of material is smaller than No. 200 sieve size.** SiLTS AND CLAYS liquid limit Less than 50 SILTS AND CLAYS liquid limit Greater than 50 III. HIGlil Y ORGANIC SOILS SYMBOL GW GP GM GC SW SP SM SC Ml Cl OL MH CH OH PT TYPICAL NAMES Well graded' gravels, gravel-sand mixtures, I itt/e or no fines. ' Poorly grdde,d gravels, gravel-sand mixtures, .little or no fines. Silty grdvels, poorly g~aded gravel- sand-silt, mixture,s. Clayey gravels, poorly graded gravel- sand-c lay mixtures. Well graded sand, gravelly sands, little or no fines. Poorly graded sands, grav'elly sands, little or no fines. Silty sands, poorly graded sand-silt mixtures. -'Clayey 'sands, poorly graded sand-day mixtures. InorganiC silts and very fine sands, rock flour, sandy sil t or clayey-si It-sand mixtures with sl ight plasticity. Inorganic clays of low to medium plas- ticity, gravel'/y 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 c lays of medium to high", plasticity Peat and other highly organic soils. * ,A~opted by.the Corps of Engi'neers' and' Bureau of Reciamation in January, 1952. ** All sieve sizes on this chart are ,U. S. Standard. " ,: • • • • • • • • • PHILIP HENKING BENTON PltlE.IDItNT • CIVIL ENGINEER Sampling BENTON ENGINEERING. INC. APPLIED SOIL MECHANICS -FOUNDATIONS 6717 CONVOY COURT SAN DIEGO, CALIFORNIA 92111 TELEPHONE (714) 58!S·19!S15 ' APPENDIX B The undisturbed soil samples are obtained by forcing a special sampling tube into the undisturbed soi Is at the bottom of the boring, at frequent intervals below the ground surface. ' ,The sampling tube consists of a steel barrel 3.0 inches outside diameter, with a special cutfing , tip on one end and a double ball valve on the other, and with a'iining of twelve thin brass rings, each one inch long by 2.42 inches inside diameter. The sampler, connected to a twelve inch long waste barrel, is either pushed or driven approximately 18 inches into the ~oil and a six inch section of the center portion of the sample is taken for laboratory tests, the soil being, stilI confined in the brass rings, after extraction from the sampler tube. The samples are taken to the laboratory in close fitting waterproof containers in order to retain the fie'ld',moisture until completion of the tests. The driving energy is calculated as the average energy in foot-kips required to force the sampling tube through one foot of soil at the depth at which the sample is obtained. Shear Tests The shear tests are run using a direct shear machine of the strain control type, in which' the rat<e of deformation is approximately 0.05 inch per minute. The machine is so designed that t.he tests are mad? without removing the samples from the brass I iner rings in which they are secured. Each sample is sheared under a normal load equivalent to the weight of the soil above the point of sampling. In some instances, samples are sheared under va'rious normal loads in order to obtain the internal angle of friction and cohesion .• Where considered necessary, samples are saturated and drained before shearing in order to simulate extreme field moist~re conditions. Consolidation Tests The apparatus used for the consolidation tests is designed to receive one of .the one inch high rings of soil as it comes from the field. 'Loads are applied in'several increments to the upper 'surface of the test specimen and the resulting deformations are recorded at selected time intervals 'for each increment. Generally, each increment of load is maintained on the sample until the rate of deformation is equal to or less than 1/10000 inch per hour. Porous stones are pla'ced in contact with the top and bottom of each specimen to permit the ready addition or release of water. Expansion Tests One inch high samples confined In the brass rings are permitted to 'air dry at 105° F for , at least '48 hours prior to placing into the expansion apparatus. A unit load of '500 pounds per ,square foot is then applied to the upper porous stone in contact with the top of each saniple~ Water ,is permitted to contact both the top and bottom of each sample through porous stones~ Continu~us" obserVations are made unti I downward movement stops. The d.ial reading is recorded and expansion' is recorded until the rate of upward ,movement is less tha~ :1/10000 inch per', ho~r. ' ",