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Home My WebLink AboutCT 72-20; La Costa Vale Unit 1; Soils Report; 1973-04-02.- .- Gentlemen: BENTON ENGINEERING. INC. AI.PL,EO SC,,. MFc:H*NltS F<~rin,>*,~,iil”* 6717 CONVOl COUR7 SAN DIEGO. C*l.IFORNIA 92I,! PHIL.IP”EN~:lNc; LlLIVI”N Pr)ESlDEM(l ‘:I”,, Ee+GINELR La Cost0 land Cunpany Costa Del Mar Road Cartsbad, California 92008 April 2, 1973 .- “2-,/2f RECEIVED APR 4 1973 CITY OF CARLSBAD ,?, ,!!!!4!?s, PmxPent Subiect: Project No. 72-8-18D Grading Permit No. t-6392 T.M. 3036 Interim Report on C-acted Filled Ground Lots 1 to 10, inclusive Lots 108 to 209, inclusive. and Lomto 246, inclusive La mle Unit No. 1 Carl&ad, California CT 7z?-aiQ of-us KJQ 1 This is to report the results of tests and observations made in order to inspect the compaction of filled ground placed on certain areas of Lots 1 to 10, inclusive, 108 to 209, inclusive, and 232 to 246, inclusive, of La Costa Vale Unit No. 1 in Carlsbod, California, formerly a part of the County of Son Diego. Filled ground was placed on Lots 17 to 22, inclusive, on February 16, 1970 and the major grading of the subdivision commenced on September 21, 1972. The results of field density test Nos. 1 to 1019, inclusive, taken during the period between February 16, 1970 and February 27,1973, were presented in our interim report on this project dated March 1, 1973. The filled ground was placed under our inspection in accordance with the approved specifications. The grading plan used for the placement of filled ground was prepared by Rick Engineering Company and approved August 23, 1972. Some of the tests taken on the subject Iok were included in our previws report dated March 1, 1973. The results of field density test Nos. 1020 to 1109, inclusive, are presented on pages T-28 to T-30, inclusive, under the “Table of Test Results.” The laboratory determinations of the maximum dry densities and optimum moisture contents of the maior fill materials are presented on page L-l, under the “Laboratory Test Resu1.k.” Some of the maximum dry densities shown in the “Table of Test Resulk” were combinations of these. The tests were taken during the weekly periods indicated on the following page, Project No. 72-B-1BD La Costa Vale Unit No. 1 -2- April 2, 1973 - -. - - - - - Test Number Week Ending 1020 to 1035, inclusive March 3, 1973 1036 to 1040, inclusive March 10, 1973 1041 to 1072, inclusive March 17, 1973 1073 to 1105, inclusive March 24, 1973 1106 to 1109, inclusive March 31, 1973 Only nonexpansive soils were placed in the upper three feet below finished grade in the fill areas on the subject lots. All expansive soils existing in the upper three feet below finished grade in cut areas and areas of shallow fill were removed and were replaced with properly ccmpacted nonexpansive fill soils. Therefore, special design for expansive soil conditions will not be required on the subject lots. The final resulk of tesk and observations indicate that the compacted filled ground has been placed at 90 percent of the maximum dry density or greater. It has been determined that the fill materials, compacted to 90 percent of the maximum dry density, have a safe bearing value of 1650 pounds per square foot for one foot wide continuous footings founded ot a minimum depth and placed five feet or more inside the top of campocted filled ground slcpes. If footings are placed closer to the exposed slopes than 5 feet inside the top of compacted filled ground slopes, these should be deepened one foot below a 1 l/2 horizontal to 1 vertical lfne projected outward and downward from a point 5 feet horizontally inside the top of compacted filled ground slopes. Tests indicate that the compacted filled ground is adequate to satisfactorily support the proposed one and two story wood frame dwellings without detrimental settlements. A plan showing the approximate areas and depths of filled ground placed under our inspection in accordance with the approved specifications will be submitted with our final report on La Costa Vale Unit No. 1. Respectfully submitted, BENTON ENGINEERING, INC. BY d?d? -&we R. C. Remer Distr: (4) Addressee La Costa Land Canpany (1) Attention: Mr. Burton L. Kramer (1) Rick Engineering Company, Carlsbad San Diego County Engineering (1) Attention: Mr. H. M. Taylor (1) Attention: Mr. Willard Robinson, Rm. 260 Cf ty of Corlrbad (1) Department of Building Inspection. (2) Department of Engineering Pardee Construction Company, Los Angeles - ~42) Attention: Mr. Russell R. Ofria (4) Attention: Mr. Jack Wagner Philip Hi Benton, Civil Engineer (1) Attention: Mr. Bob Trede Pardee Construction Company, San Diego (1) Attention: Mr. Art Scott (1) Attention: Mr. Mike Copik (1) Delivered to lob site by Bud Beattfe RCR/f’HB/ew CIENTON ENGINEERING. INC. - - - .- - - - - - - Project Wo. 72-8-18D Lo Costa Vale Unit No. 1 T-28 April 2, 1973 Test No. 1020 1021 1022 1023 la?4 1025 1026 1027 W.28 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 Approx- imate Location Lot No. 84 84 84 84 84 84 84 83 2 84 83 a4 83 83 2 4% 47 a3 55 109 123 128 136 137 139 140 141 142 143 144 145 146 147 148 153 149 156 159 TABLE OF TEST RESULTS(CONT.) Depth of Fill Field ot Test Moisture in Feet % dry wt 14.0 15.1 16.0 15.0 18.0 . 15.3 20.0 12.5 22.0 12.5 24.0 11.7 26.0 12.8 1.0 10.0 30.0 11.4 5.0 10.2 34.0 15.3 9.0 13.1 38.0 15.8 13.0 16.1 15.0 11.2 17.0 13.3 5.0 17.2 4.0 17.0 14.0 14.6 19.0 15.9 2.0 15.2 6.0 l 20.4 15.0' 12.9 14.0 * 16.7 15.0* 11.2 10.0 l 16.1 4.0 * 16.2 3.0 * 16.8 3.0. 16.1 3.0 l 14.5 22.0 l 13.2 3.0 l 14.8 10.0 * 15.5 28.0* 11.7 40.5 * 13.9 43.0 * 12.5 8.0 * 11.4 29.0 + 17.1 16.0' 12.3 3.0' 14.2 l Finished Grate DW Density lb/cu ft Maximum Dry Density Ib/cu ft 107.5 115.2 107.2 115.2 109.4 115.2 107.1 115.2 109.2 114.2 109.0 115.2 111.9 115.2 107.4 112.8 110.7 115.2 112.6 115.2 110.7 111,o 109.5 114.0 101.e 109.3 105.8 110.9 110.7 113.6 107.5 115.2 108.1 116.0 108.0 118.1 108.0 115.7 107.9 115.4 112.1 118.8 101.9 111.8 101.8 111.8 107.8 115.2 105.0 111.8 105.2 115.2 105.6 115.2 109.0 115.2 111.0 115.2 110.9 115.2 114.1 117.9 108.3 115.2 105.4 115.2 111.7 115.2 102.2 115.2 104.0 115.2 103.8 111.8 107.3 115.2 103.8 113.5 105.1 115.2 Percent Compaction Remarks 93.2 93.0 94.9 93.0 95.5 94.5 97.0 95.4 95.8 97.5 99.6 96.0 92.9 95.4 97.4 2: 91.4 93.5 93.3 94.6 91.2 90.9 93.2 94.0 91.4 91.5 94.4 96.2 96.0 97.1 94.0 91.5 96.7 88.7 90.2 93.0 93.1 91.3 91.2 Ck on 1952 Ckon&3 Ckon #969 Ck on 1973 Reworked Ckon #977 Ckon 1677 FIENTON ENGINEERING. INC Project No. R-8-18D LaCosto Vale Unit No. 1 T-29 Apri12, 1973 Test bcation No. Lot No. 1060 1061 1062 Ei 1065 1066 - 1067 1068 1069 - 1070 1071 160 3.0* 162 14.5 l 164 36.0. 166 167 34-P. 14.0 167 17.0* 171 3.0. 177 1.0 177 3.0' 178 3.0 l 179 3.0. 180 1.0 - 1,072 1073 1074 - 1075 1076 I077 1078 1079 1080 - 1081 1002 1083 - 1084 1085 1086 - 1087 1088 1089 - 1090 1091 1092 - 1093 1094 1095 1096 1097 1098 - 1099 180 3.0 l 181 2.0 18i 5.0 l 201 1.0 182. 6.0 182 9.0 * 183 14.5 l 184 24.5 * 208 3.0 * 201 7.0~. 195 7.0 l 194 10.0 l 193 16.0 * 192 21.0. 191 22.5 l 187 5.0 l 186 12.5 l 185 22.5 l 204 3.0 l 242 8.0' 243 17.0' 244 20.5 l 70 10.0 71 18.:0, R 11.0 46 16.0 45 14.0 233 3.0 l - * Finished Grade Depth of Fill attest In Feel TABtE OF TEST RESULTS (CONT.) Field b Moisture DWlsity % dry wt Ib/cu fi Maximum DV Density Ib/cu ft Percent Compaction Remarks 12.8 101.7 111.8 91.0 16.0 105.2 115.2 91.3 16.0 101.7 115.2 88.2 16.9 105.8 115.2 91.5 17.2 108.0 115.2 93.6 16.0 107.3 115.2 93.1 13.2 102.5 111.8 91.8 14.1 109.3 115.2 94.9 14.6 108.0 115.2 93.6 16.1 104.3 115.2 90.5 16.0 105.1 115.2 91.1 18.4 105.1 115.2 91.1 16.5 17.3 17.1 8.6 12.4 15.7 15.7 14.9 13.4 13.5 16.0 19.4 13.6 14.9 12.3 11.0 13.7 15.4 13.1 K 17:o 18.7 13.6 15.5 22.2 15.6 11.6 106.1 115.2 92.1 101.8 111.8 91.1 102.2 113.5 90.2 107.0 111.8 95.8 107.1 115.2 92.9 105.9 115.2 91.7 108.2 115.2 93.8 112.1 115.2 97.3 107.1 115.2 93.0 106.6 115.2 92.4 106.1 115.2 92.1 100.1 115.2 86.9 107.2 115.2 93.0 107.7 115.2 93.3 105.1 115.2 91.1 102.7 115.2 89.0 111.3 115.2 96.5 112.0 115.2 97.1 107.1 115.2 93.0 103.8 113.5 91.4 103.7 115.2 90.0 106.4 115.2 92.4 101.9 111.2 91.3 109.1 115.2 94-6 109.0 115.8 94.3 102.8 110.9 92.7 110.0 118.5 93.0 104.5 11502 90.6 Ck on.8680 Ck on 1682 Reworked Ckon #895 Ck on 11743 Ckon#925 Ck on #89l 8, t892 Ckon #890 Ckon 8851 Ckon 1889 Ckont948 Ckon #885 Reworked Ckon x1002 Ckon WlOOO Reworked Ckon 1888 Ck on 1582 Ckonf661 Ckon%O sENTON ENGINEERINO. INC. Project No. R-8-l3D La Costa Vale Unlt No. 1 T-30 TABLE OFTESTRESULTS (CONT.) - - Test NO. 1100 1101 1102 1103 1104 1105 1106 1107 - 1108 1109 - - - - - - - - - - Approx- imate Location Lot No. 245 245 246 246 247 18 147 164 187 194 Depth of Fill Field at test Moisture In Feet %dryti 15.0 10.2 17.0* 16.4 28.0 13.9 30.0' 18.1 37.5 + 20.7 40.0 20.7 40.5 * 15.8 36.0 * 17.1 5.0 l 10.1 10.0 l 15.3 Dry De&y lb/w ft M&mum DV Density Ib/cu ft 109.2 115.2 109.5 115.2 107.7 115.2 104.1 115.2 103.9 115.2 106.4 115.2 111.9 115.2 106.7 115.2 104.6 111.8 103.3 113.5 Percent Compactlon Remarks 94.6 94.9 93.5 90.3 90.0 Ckonj659 92.4 97.0 Ck on #lo54 92.7 Ckon 11062 &#697 93.6 Ckon 51087 &#999 91.1 Ckon #I083 - l Flnlrhed Grade BENTON ENGINEERING. INC. - - - - - - - - - - - - - Project No. R-8-180 La Costa Vale Unit No. 1 L-i LABORATORY TEST RESULTS March 1, 1973 Revised - April 2, 1973 The maximum dry densities and optimum moisture contents of the maior fill materials o determined by the A.S.T.M. D 1557-66T method, that uses 25 blows of a 10 pound rammer falling from o height of 18 inches on each of 5 loyen in o 4 inch diameter i/30 cubic foot compactlon cylinder, are presented as follows: Soil Description Maximum Dry Density lb/cu ft Optimum Mois- ture Content % dry wt Light brown groy clayey silt 107.2 19.0 Olive green rllty clay 107.5 16.4 Brown gray silty clay 109.0 17.8 Light yellow brown silty very fine to fine sand with 109.2 16.8 cloy binder ond chunks of silty clay Yellow brown and gray very fine sandy silt Yellow brown very fine to fine sandy cloy Gray brown fine sandy clay Olive green silty clay Light brown silty fine sand Light grayyellow clayey fine sand Light gray brown clayey very fine to fine sand Gray with red brown and white silty clay Light grey brown clayey ffne sand Light gray silty very fine to fine sand with slight 110.4 15.4 110.4 15.5 110.9 14.3 iii.2 15.0 112.5 10.9 114.1 13.9 114.2 14.4 114.7 15.3 115.2 14.7 115.2 13.7 clay binder Grey-block silty cloy 116.8 ii.8 Brown clayey fine sand with some fine randy clay 117.8 13.3 Light brown silty fine sand with clay binder 118.3 il.9 Light brown and grey silty clay 118.6 14.0 Light yellow brown fine sandy clay 121.6 ii.5 Light yellow silty fine sand 123.6 10.5 Greenish-brown fine sandy clay 118.8 12.2 Brown clayey fine to medium sand 128.0 9.2 Graylsh&own silty fine sand 117.0 13.1 Light brown silty fine to medium sand 118.5 12.0 Red-brown fine to medium sandy cloy 111.3 15-o Light groy clayey silt with streaks of red brown iii.3 16.0 and yellow Light grey silty cloy with yellow streaks 110.7 15.1 Light groy silty fine sond 111.8 12.5 BENTON ENGINEERING. INC. - - - - Prolect No. 72-8-181) La Costa Vole Unit No. 1 -2- February 28, 1974 Test Number Week Ending .- 1142 to 1178, inclusive April 21, 1973 ii79 to 1210, inclusive April 28, 1973 1211 to 1251, inclusive May5, 1973 1252 May 19, 1973 1253 to 1255, inclusive June 9, 1973 1256 February 6, 1974 Compacted filled ground was placed on an oreo west of Lot 1 outslde the boundory of La Costa Vale Unit No. 1 and is designated on Drawing No. 1 as Area “A”. The finol results oi tests ond observations indicate that the compacted filled ground hos been placed at 90 percent of the maximum dry density ,or greater. It has been determined that the fill moterials, compacted to 90 percent of the maximum dry density, have a safe bearing value of 1650 pounds per square foot for one foot wide continuous footings founded at a depth of one foof below the lowest adjacent compacted ground surface. This value may be increased to 1950 pounds per square foot for 16 inch wide footings placed 1.5 feet below the lowest adjacent corn- patted ground surface. if footings are placed closer to the exposed slopes than 5 feet inside the top of compacted filled ground slopes, these should be deepened one foot below o 1 i/2 horizontal to 1~ vertical line projected outward and downward from a point 5 feet horizontally inside the top of compacted filled ground slopes. Tests indicate thot the compacted filled ground is adequate to satisfactorily support the proposed one and two story wood frame dwellings withou: detrimental settlements. Only nonexpansive soils were placed in the upper three feet below finished grode on ihe following IL.- - - - All expansive soils existing in the upper three feet shallow fill were removed on the above lots ond were replaced with properly compacted non- ~_ expansive fill soils. Therefore, special design for exponsive soil conditions will not be required on these lots. c’ ., . the subdivision were determined to have&iticallv expansive soils In the upper finished grade. Therefore, in order to n%imize’ posr;iEi[e detrimental effects caused by these potentially expansive soils, the follow$z special design and preca%ons ore - recommended. 1. Avoid the use of isolated interior piers where possible. Use continuous - footings throughout, and place these ot a minimum depth of ho feet below the lowest adjacent oxtcrior finol ground surface. BENTON LNGIN~ERINO, INC. - - - i J 1 1 1 1 1~. 1 L c in I l - i_- i L - Prclec, NO. 72-8-18D !.p Costa Vale Unit No. 1 -3- February 28, 1974 2. 3. 4. 5. 6. Reinforce and interconnect continuously with steel bars all interior and exterior footings with one #5 bar at 3 inches above the bottom of all footings with one u5 bar placed 1 l/2 inches below the top of the stems of the footingi. Raised wooden floors that span between continuous footings are preferable. Concrete slabs on grade should be reinforced with at least 6 x 6 - lO/lO welded wire fabric. Provide a minimum of 4 inches of crushed rock 3/4 to 1 inch in size beneath all concrete slabs. A moisture borrier should also be provided over the crushed rock and then 2 inches of sand should be placed over the moisture barrier and below the bottom of the slab. Separate garage slabs from perimeter footings by l/2 inch thickness of construction felt or equivalent, to allow independent movement of garage slabs relative to perimeter footings. Assure complete separation by extending the construction felt over the full depth of the front thickened edge of the garage slab. Cut off garage door stops at least l/2 inch above the garage slab. Provide positive drainage away from all perimetei footings with a vertical fall of at least 6 inches in a horizontal distance of 5 feet, to a distance of at least 5 feet outside the house walls. Exercise every effort to assure that the soil under the concrete slabs has a uniform moisture content at least 1 to 3 percent,greater than optimum throughout the top 1.5 feet below’ finished grade at the time of placing the foundations and slabs. Respectfully submitted, BENTON ENGINEERING, .INC. BY R<RGr& . . &i&l> &i$5~ Reviewed b PFiitrij H. tinton, Civil Engineer RC R/PHB/pk Distr: (4) Addressee (1) Addressee, Attention: Mr. Burton L. Kramer San Diego County Engineering Department Attention: Mr. H. M. Taylor Attention: Mr. Willard Robinson, Room 206 City of Carlsbad Building Department Rick Engineering Company, Carlsbad Title Insurance and Trust Company Attention: Ruth J. RodgeL ENTON LNatNEER,NG. INC. I