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Home My WebLink AboutCT 82-23; Mass Grading for CT 82-23; Soils Report; 1984-05-21zRc761 301-2 SERVICES DURING MASS GRADING OPERATIONS REPORT OF TESTING AND OBSERVATION FOR CARLSBN TRACT NO. 82-23 CARLSBAD , CALIFORNIA For MOLA DEVELOPMENT CORPORATION Huntington Beach, Californla GEOCON, INCORPORATED San Diego. Callfornla May, 1981 GEOCON INCORPORATED ENGINEERS AND GEOLOGISTS CONSULTANTS M THE APS" EARTH SCIENCES May 21, 1984 File No. D-2904-502 Mola Development Corporation 808 Adams Avenue Huntington Beach, California 92648 Attention: Mr. Chris, Christie Subject : CARLSBAD TRACT NO. 82-23 CARLSBAD, CALIFORNIA REPORT OF TESTING AND OBSERVATION SERVICES DURING MASS GRADING OPERATIONS Gentlemen: In accor$ance wlth your request, we are provldlng testing and observation services durlng the mass gradlng of the, subject subdlvlgion. Our services to date were performed during the period of 'September 26, 1983 through April 19, 1984. The scope of our servlces included the following: a. Observing the gradlng operatlon. lncludlnn the installatlon - of subdralns and the removal -and/or processing of loose topsoll and alluvlal soll. ~ ~ ~. e Perfonnlng In-place densicy tests in the placed and compacted fill. . Performing laboratory tests on samples of the prevailing soil COndltiOn6 Used for fill. e Preparing an As-Graded Geologic Map. 0 Providlng professional opinions as to the grading contrac- tor's general adherence to the geocechnical aspects of the plans and specifications. e Preparing this final report of grading. - ,. File No. D-2904-502 May 21, 1984 General The project plans were prepared by Soward Engineering, Incorporated and are entitled Grading Plans for S.D.P. 82-4 and C.T. 82-23 dated August 1, 1983. The project soils report is entitled "Geotechnical Investigation for Tentative Planned Development, Map 82-23" prepared by Geocon, Incorporated - dated May 25, 1983. References to elevations and locations herein were based on surveyor's or grade checker's stakes in the field and/or interpolation from the referenced Grading Plans. - Grading - Grading began with the removal of brush and vegetatlon from the area to be graded and the material was then exported from the site. Loose topsoils and loose alluvial soils in areas to receive fill were removed to firm natural ground. Prlor to placlng fill, the exposed natural ground surface was scarified, until the design elevations were attained. operations and imported soils were then placed and compacted in layers - - moisture conditioned and compacted. Fill solls derived from onsite cutring Also, a canyon subdrain including a blanket drain was installed in the presence of expansive topsoils at or near finish grade In some of the cut seepage areas at the bottom of the canyon fill. In addltlon, due to the feet and the depression vas replaced with compacted low expansive soil. areas, it was necessary to overexcavate such areas approximately 2 to 3 place density tests (UTM D1556) were performed to evaluate the relative During the gradlng operatlon, compaction procedures were observed and in- compaction of the placed fill. Field observations and the results of the in-place density tests lndicate that the fill has generally been compacted to at least 90 percent relative compaction. The results of the in-place density tests are summarized in Table 11. The approximate locations of the in-place density tests have been recorded on the enclosed Geologic As-Built Map. Laboratory tests were performed on samples of materlal used for fill to evaluate moisture-density relationships, optlmum moisture content and maximum dry density (ASTM D15S7-70, Method C) and expanslon characteristics. The results of the laboratory tests are summarized in Tables I and 111. -2- 1 File No. D-2904-502 May 21, 1984 Slopes Both cut and fill slopes have inclinations of 2 to 1 (horizontal to vertical) with maximum helghts on the order of 26 feet and 24 feet, respectively. The fill slopes were periodically backrolled with a sheeps- upon completion. All slopes should be planted, drained and maintained to foot compactor during construction and were track-walked with a bulldozer mixture of natlve plants and trees having a variable root depth. Iceplant reduce erosion. Slope planting should consist of a drought-tolerant should not be used on slopes. Slope watering should be kept to a mininum to just support the vegetative cover. Finish Grade Soil Conditions During the grading operation, building pads which encountered clayey soils at grade were undercut at least 2.5 feet and capped:wlth granular soils. Slmllarly, our observatlons and test results indicate that granular soils were placed within at least the upper 3 feet of flnish grade'on flll lots. .The laboratory test results lndlcate that the prevalling soll conditions withln 3 feet of finished grade on each building 'pad have an Expansion Index of' less than 20 and are classlfled as having a "very low" expanslon potential as deflned by UBC Standard Table 29-C. Table I11 presents a summary of the indicated Expansion Index of the prevailing soll condition of each unit. In addition to capplng building pads as descrlbed above, the cut portlon of those pads whlch contalned a cut-fill transition wlthln the building area was undercut at least 2.5 feet and replaced with compacted flll soll. Subdrains Subdrains were installed at the general locations shown on the approved Grading Plans. In additlon, a blanket draln was installed in the seepage areas at the bottom of the canyon fill. The subdralns were "as-built" for locatlon and elevation by the project Clvil Engineer. Soil and Geologic Condltions The soil and geologlc conditlons encountered durlng gradlng were found to be similar to those described in the project geotechnical report. The enclosed reductlons of the approved Grading Plans depict the as-graded geologlc condltlons observed. The approximate locations of subdrains and the blanket draln are also Indicated. No soll or geologic conditions were continued development of the property as planned. observed during the gradlng which, In our opinlon, would preclude the -3- .. I ’: - < \I 3 Flle No. E-2904-502 May 21, 1984 CONCLUSIONS AND RECOMMeNDATIONS Based upon laboratory test results and field observations, it is our opinion that the prevailing soll conditions wlthln 3 feet of finish pad grade consist of “very low“ expansive soils as classified by UBC Table 29C. We recommend the following foundation and slab design criteria for the proposed residential structures. Foundations 1. Conventlonal. spread andlor continuous footlngs founded at least 12 undisturbed “low” expansive soll may be designed for an allowable soll lnches below lowest adjacent grade in properly compacted or dense bearing pressure of 2,000 psf (dead plus live loads). Footings should have a.mlnlmum wldth of 12 lnches. Thls bearing pressure may be.lncreased by up to one-thlrd for transient loads such as wind or selsmic forces. 2. All continuous footlngs should be relnforced wlth at least two No. 4 reinforcing bars, one placed near the top of the footlng and one near the bottom. . The above minLmum reinforcement is based on soil characterlstlcs and 1s not lntended to be In lieu of relnforcement necessary for structural conslderatlons. 3. Concrete slabs-on-grade should have a nomlnal thlckness of 4 lnches and should be relnforced wlth 6x6-10/10 welded wire mesh. The slabs should be underlaln wlth 4 lnches of clean sand and, where moisture sensitive floor coverings are planned, a vlsqueen moisture barrler protecced by a 2-lnch sand cushion should be provided. Great care should be taken durlng the placement and curlng of concrete flatwork to reduce the potentlal for shrlnkage cracking. 4. Footings should not be placed wlthin 8 feet of the top of slopes. Footlngs that must be located In thls zone should be extended In depth such from the face of the slope. that the outer bottom edge of the footlng 1s at least 8 feet horizontally 5. No special subgrade presaturatlon Ls deemed necessary prior to placing concrete, however, the exposed foundatlon and slab subgrade solls should be sprlnkled as necessary to maintain a molst condltlon as would be expected in any such concrete placement. Lateral Loads 6. The pressure exerted by an equlvalent fluld welght of 300 pcf should be used to provide resistance to design lateral loads. Thls deslgn value assumes that fOOtlngS or shear keys are poured neat against properly .. -4- GEOCON INCQIPOIA~=D -. May 21, 1984 File No. E-2904-502 compacted granular fill soils or undisturbed formational soils and that the soil mass extends at least 5 feet horizontally from the face of the footing whichever is greater. The upper 12 inches of material not protected by or three rimes the height of the surface generating passive pressure, floor slabs or pavement should not be included in design for passive resistance. 7. If friction is to be used to resist lateral loads, a coefficient of - friction between soil and concrete of 0.40 may be utilized. Retaining Walls 8. Unrestrained retaining walls should be designed to resist the exerted. onsite material will be used for backfill, that the backfill surface will by an equivalent fluid weight of 30 pcf. This value assumes that granular walls with backfill surfaces inclined at no steeper than 2.0 to 1.0, an be level, and that no surcharge loads will be acting on the wall. For active pressure exerted by an equivalent fluid weight of 45 pcf should be used. 9. For 'walls restrained from'movement at the top, such as basement walls, an additional uniform horizontal pressure of (7H) psf (A equals the height pressures given above. 10. All retaining walls should be provlded with a backfill dralnage system adequate to prevent the buildup of hydrostaeic forces. - - - - of 'the wall in feet) should be applled in addltion to the active lateral Drainage should .water be. allowed tq pond adjacene to footings. The lots and 11. Adequate drainage provlslons are imperative. Under no circumstances building pads should be properly finish graded after buildings and other improvements are in place so that drainage water 1s dlrected away from foundations, concrete slabs and slope tops to controlled drainage devices. Any additional gradlng performed at the site should be done under our observation and testing. All trench backfill material in excess of 12 inches in depth should be compacted to at least 90 percent relative compac- tion. This office should be notified at least 48 hours prior to commencing additional grading or backfill testing. -5- ... - '3 -. I ?' File No. D-2904-302 May 21, 1984 LIMITATIONS The conclusions and recommendatlons contained herein apply only to our work with respect to grading, and represent conditlons at the date this report. Any subsequent grading should be done under our observation and testing. AS used herein, the term "observation" implies only thac we observed the progress of the work with which we agreed to be involved. Our conclusions and opinions as to whether the work essentially complies with the job specifications are based on our observations, experience and testing. Subsurface conditions, and the accuracy of tests used to measure such or implied, except that our services were performed in accordance with conditions, can vary greatly at any time. We make no warranty, expressed engineering principles generally accepted at thls tlme and location. We will 'accept no responsibility for any subsequent changes made to the site by others, by the uncontrolled action of water, or by the failure of water. others to properly repalr damages caused by the uncontrolled action of further service, please contact the undersigned. If there-are any questions regardlng'our recommendations or if we may be of Very truly yours, GEgCON. INCORPORATED RRG:JEL:lm (2) addressee (4) Job Site -6- GEOCON INCOI~OIATID File No. D-2904-502 May 21, 1984 Sample No. 1 2 3 4 5 6 7 '8 9 10 11 12 13 TABLE I Summary of Laboratory Compaction Test Results ASTM D1557-70 Maximum Dry Density Description pcf Brown-tan, fine to medium, slightly Clayey SAND Brown, Clayey, Silty, fine SAND Green-tan, Silty Sandy CLAY Brown, flne to medlum, Silty Clayey SAND Tan, fine to medium, Silty SAND Brown, very flne to fine, Silty SAND Tan, very fine to flne, Silty SAND Reddish-brown. very flne to fine, Silty SAND White to gray, very fine to fine, Silty SAND Red-brown, very fine to fine SAND Tan, medium-grained, Clayey SAND Dark brown, flne SAND Light green, Silty Sandy CLAY 123.1 120.2 111.1 122.1 117.4 119.2 118.0 117.8 112.9 127.2 125.2 124.9 124.0 Optimum Moisture % Dry ut. 11.1 12.5 16.6 11.6 12.9 11.8 12.8 12.1 15.0 10.1 10.6 10.7 11.5 , ... - .I ! ... i0040000NmOOOO~3~ mmmmmmmmmmmmmmmmm .. -* w Lr 0 I V a al a d . 'GEOCON 0 0 0 E- . . .@J ... - i. .I '3 .-. i .. n H U U u) U u3 u3 U u) u3 u) U u) u) U u) u3 u) u3 u) 2: 02 u,w mmmmmmmmmmmmmmmmm~mm OO~NNUU~~O~~~NO~~NN~ dC a =X 0 C .d u E A x \ YI d \ a 4 GZ~CON INCOIIOIATID GEOCON INCOI?O~AT=D NU\D~N~?~\F-LA umnuunmmmn 0000000000 -I33drtrldr(-I3 ...... ... UYQOQ~OY~ oo-Ioooo 3-3 ri -I -I r( 4 . . . . . . . .2 . -I m 1 -I d Y . .I - .I ?. -. .. - .. " NmNONN40nd04000d400u mmmmmmmmmmmmmmmmmmmm .. :. .. -. . \o u3 u3 u3 a U U U U 9 u3 U W U .n U YI . d N \o . 4 N I. . N GEOCON INCOI~OIAT.D - , .. -. . 0- X ra 3 L4 >” 0 d 0 m m Y -...I C 3 mw r( N - 1 r( N . N N &EOCON n r~conroa~r=~ 0 C 2 d d 4 'u C 0 h E U 0 0 4 C 4 w W r) m a u d y1 0 u u- 2 . d rl d tr. U p. 4 d d d u x e 0 V E m mmm nuro 44-4 c) -4 C d x 4J L. al a L. a 0 w J m .-I al d c 0 Lo d 4 d 'u D x C e V d z D 0 -. N 4 U m \ 4 . d ro n N N ~EOCON INCOIPOIAtLD .,.. ..* . .. - ), " ... \ -. _. _. cx Ea ~~mmmmmmmmmmam~mmmmamm OE NONdONNdNNNOddNNOdNN 40 EN u ’5 l. \ \ (7 (7 m m GEOCON . . . . -. . . .. . . . . . . . . . . ...~.. . . '"I I - .’ . .. ?‘ m m d d m YI d 4 P- m YI rl d ..”, \ GEOCON INCORPO~ATI~ File No. D-2904-502 May 21, 1984 "7 '\ TABLE I11 Summary of Expansion Index Test Results Unit Nos. 1, 2, 3 7, 8, 9, 10 Expansion Index 14 I - File No. D-2904-302 Subject\. CARLSBAD RECOMMENDED PAVEMENT '~ECTI Gentlemen: - -. -. .. rock. Locay'interi'or st of base rock. Asp'ndt,a the. City-of Carlsbad." T "minimum relative .' f. #. - File No. D-2904-502 June 7, 1984 compaction of 952 based upon ASTM compaction test D-1557-70, Method C. minimum relative compaction of 90% based on the aforementioned ASTM Subgrade preparation should consist of compacting subgrade soils to a standard to a minimum depth of 12 inches below subgrade elevations. Please contact us if you have questions or if we can be of further service. - Very truly yours, GEO,C?N, INCORPORATED JEL:mr (4) addressee