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Home My WebLink AboutCT 72-24; SPANISH VILLAGE WEST; SOILS INVESTIGATION; 1972-02-17. , •• • • • • ' .• .' • SOILS INVESTIGATION , Proposed Borrow Area Southeast Comer of the Intersection of EI Camino Real and La Costa Avenue ~a Costa, California for La Costa Land Company Proiect No. 72-1-11A February 17, 1972 "". BENTON ENGINEERING, INC. £I.'.&EII., tr 7c2-::t¥ , i • • ... <? .- .- .. <'I .- < - PHILIP HENKING BENTON PRESIDENT .. CIVIL ENGI~EER IntrC?duction BENTON ENGINEERING. INC. APPLIED SOIL MECHANICS -FOUNDATIONS 6741 EL 'C,AJON BOULEVARD SAN DIEGO. CALIFORNIA 9.2115 . SOILS lNVESTIGATION SAN DIEGO: 583"~t.'4 LA, MESA: 469-~~$" . . This is to present th6. re~vlts of a soils investigation conducfed at the proposed cut slope '. area located at the southeast comer of the intersection of EI Camino Real and La Costa Avenue, La.Costa, California. . . It is understood th~f)th,prc>posed cut,slope was plannedodslnally to b, at 2hodzontal ' .. to 1.0 vertical slope up to 50 feet in heig'ht with a 1 o feet .wide' bench near midpOint •. The ... e~cavated materials will ~ ,~d as an imported fill for the.'con,struction use of th. P~PO$ed : "'.:' . . -'.:. ", < Shopping Center Plaza sifu~l~d northerly of the ptop<)$ed cut aSw~1I as La Costa Av.enue. The objectives of tJ~j ·investigation were to determine the ~xlsting soil cOr:i~itions in_.t~ . .. proposed cut slope areas and their physical properties in order that recommendations could be pre- ~.nted, for ,0 stable cut slope .• AlsO: to determine the soi tcibi·li·ty· of, 'the soils for use as. compacted ·fUI. In or.der to accompli.tuth~.:ob:iectives,.three borrng' ~re.drilled along the~tOe of the· cut slope areas and represel'):tOtt~e und.isturbed· and' loose bag samples were taken. for laboratory testing .. Field Investigation Three borrngs we"',.dtilled with a truck-mounted rotary buCket type drill rig at the approx!'" ." : . . 'imate location$shown on 'the·attachtd Drawing No.1; entitled'IILocatJon of Tesf-Borings.1l T.he borings were drilled to.depth$.of 51.0 to 58.0 n.t below the existing ground surface. A contin-. , .. . uous log of the soils encountered In the borings was recorded qt tbe time of drill ing and is shown in detail on Drawing Nos.2to 10; Inclusiv8,e.ach entUledll$ummary Sheet.1I A field engineer was lowered tnslde the -Open· holes to check the bedding and dip of contact surfaces betweenthe t varous soil strata • ..- (! -2-• The soils were visually classified by field identification procedures in accordance with the Unified Soil Classification Chart. A simplified d",cription of -this classification system is • presented in the attached Appendix A at the end of this report. • • Undisturbed samples were obtained at frequent intervals, where possible, in the soils a~eadof dri II tns. The drop weisht used for driving the sampl ins tube Into the soils was the "Kelly" bar of the drill rig which weighs 2200 pounds, and the overage drop was 12 inches. The general procedures used in fleJd .sampling are described under II SompUng li in AppendlxB. Laboratory Tests Laboratory tests were performed on all undisturbed sampl. of the solis in order to deter- m~ne the dry density, moisture content, ands~rfng strength. The results of these tests are • pr.sented on Drawing Nos, 2 to 10, inclusive. • • • ..- ~ 1 -I ~ • Consolidation tests were performed on represelitattvel~ bagsamp.leS compacted to 90 . * ptlJrcent of their maximum dry density In order to determine the compressible characteristics of the remolded sampl:esand the "",suits of th~se tests are presented graphically on Drawing Nos. 11 to 13, inclusive,·each entitled "Consolidation CurVes." The general.proc&du ... s u$8d for the laboratory tests are ~ctibed briefly In AppendiX B. In addition to the above laboratory tests, expansion tests were performed on some ·of the . claYEty $Oils, both undisturbed and remolded samples, encount~ to determine their volumetric ,. ,~hasige charaeterl$Hcs with qhange In1molsture content. The rec:o.rded expansions of the satnpl81 are p ... ented on the following page. * It should be noted that when water was permlttecl to contact the remolded samples, three ·of ,these were fourid to expand as indfcatedby the + symbols on Drawing Nos. 11 to 13, inclusive,. rather than consolidate. . '~ BENTON ENGINEERING. INC. • • • • :. " I. I • • '. <c ',--, I ,-, I 1('4 :f' ." -3- eXPANSION TEST RESULTS Percent Expan$ton Under Unit Load of Sample 60 Pounds per Square ,Boring or Bag Depth In Foot from Field No. No. (Feet) Soil Description N.otsture to Saturation (A) Undisturbed Samples 1 10 46.0 Silty clay, gray:tsh 7.15 {8) Remolded (Remolded. to 90 Percent f.Aaximum Dry Density per A.S.T .M. 0 1557-66T Method) '2 3 3 3 Boring No. SampJes 3 5 8 10 Bag No,. 39.0-40.0' 13.0-14.0 29.0-30.0 38~0-39.0 Depth in (Feet) Slightly clayey very fine to finG sand . Silty clay, light gray and brownIsh or olive brown Clayey very fine sand, light gray and yellowish Silty clay, greenish gray Soil Description Surcharge (Pounds Per Square Foot) 0.74 12.38 3.62 14.99 Percent Expansion Under Surcharge In 'the Water (C) Re$ults of Expansion From ConsolidatiQn Tests of Remolded Samples (Remolded to 90 Percent of Maximum Dry Denl~ity per A.S.T .M· •. b 1557-66T Nethod) 3 5 13.0-14.0 Sil ty clay, light gr9Y and 200 10.63 brownish or olive brown 600 9.83 1000 8.67 2000 5.69 4000 1.39 3 8 29.0-30.0 Clayey very fIne sand 200 2.51 light gray and yellowish 600 2.10 1000 1.50 2000 0.50 3 10 38.0-39.0 ,Silty clay, greenish 200 10.83 gray 600 10.08 1000 8.51 2000 5.01 4QOO 0.80 BENTON ENGINEERING, INC. • • '< ,--t .. ;~ • BENTON ENGINEERING. INC. -5~ • SATURATED AND DRAINED DIRECT SHfAR TEST RESULTS Direct shear tests Were also pes:fonned on both undisturbed sampleS and on the 100$~ • repr_ntatlve sampl. remolded to 90 percent of the maximum dry: density and saturated and drained prior to testing, 'In order to obtcitn strength characteristIcs of the solis when reco~cted and subfected to increased moistu .... content. Tne, results of these direct shear tests are presented • as follows: , (A) Undisturbed Samplel • Angle of Normal, Shearing Internal Apparent Boring Sample Depth' Load , ' Resistance Friction CoheSion No.,' No. (Feet).' Soil Description (kips/sq ft) . (ktps/sq ft) (Degree) lb/sq ft • 2 -7 31.0 51,1 ty clay, grayish 0.5 0.93 35.5 660 'brown 1.0 1.47 2.0 1.92 2 10 46.6 Silty clay, greenish 0.5 1.25 29.5 970 'gray 1.0 0.81 • 2.0 2.10 2 11 51.0 ' Silty clay, greenish 0.5 0.61 40.5 150 gray 1.0 1.05 2.0 2.17 • 3 3 12.0 Clayey very fine 0.5 1.63 39.0 480 sand reddish brown 1.0 2.77 2.0 2.86 • 3 4 16.0 Si I ty clay, gr:ayish 0.5 1.49 14.0 1270 brown 1.0 2.58 2.0 2.17 • · - BENTON ENGINEERING. INC. -6-'. ~ (8) Remolded Samples Angle of Normal' ,Shearing Infernal ,Apparent • ' "j80rtng Bag Depth Load ReSistance FrictJon Cohesion No" No. (Feet) Soil Description , (kips/sq ft) : (kiPs/$q ft-) : (Degree) (Jb/sq ft) '.' 1 1 18-.0-19.0 Very fiRe sand 0.5 0.51 ,37.2 150 1.0 0.94 :. 2 •. 0 1.62 1 ' ' , 2 33.0-34.0 Clayey very fine 0.5 0.48 31.0 -40 sand I ight gray 1.0 0.59 2.0 1.27 • -" i 1 1.0-2.0, Clayey very fine, 0.5 0.54 22'~0 360 to fine sand, light 1.0 0.86 'gray and brown 2.'0 1.07 . ~"-2 3 39.0-40.0 51 ightly clayey very 0.5 0.46 38.0 93 • ~~ "'-fine to fine sand, light 1.0 0.90 9rQY and reddish brown 2.0 1.60. a 3 4.5-5~5 , Clayey very fine sand 0.5 0.46 4O~() 40 light red and brown 1.0 0.88 • 2.0 1.74 3, 4 6.5-7.5 . Clayey very fine sand 0.5 0.52 37.0 150 light yellowish brown 1.0 1.00 2.0 2.00 • Silty clay, lightg,ray 3 5 13.0-14.0 0.5 0.61 9.0 540 and brown 1.0 0.71 2.0 0.85 • 3 8 29.0-30.0 Clayey very fine sand, 0.5 0.54 25.0 280 light gray with yellow 1.0 0.77 and red brown 2.0 1 ~31 3 10 38.0-39.0 Silty clay, greenish 0.5 0.61 9.0 550 gray with red 1.0 0.46 • 2.0 0.85:' • BENTON ENGINEERING. INC. -7-• UNCONFINED COMPRcESSION TESTS Unconfined compression tesl$ were perfOrmed on selected samples of the residual soils • of the claystone and sandstone in order. to determine the stren9~h chatactedstics of the forma- I tions and to detect, if any, possible weakp!anes within the sompJes from interpretation of the recorded stress-sttain relationships during te!its. The testing specimens had a I.,ngth 9f 5.0 • inches and a diameter of 2.5 Inches. AxiQI loads ~re applied in increments, and deflections was recorded until the samples fQtled. The testing..-ults aresh()wn as follows: • • • • • • • :« ..--I -I ~ Unconfined Compression' Strain At Boring Sample Depth Strength Yield Point . No. No • (fe$t) Soil Description (Ib/sq ft) (Percent) '1 8 36.0 SUty clay, yellowish 12,420 1.6 brown 1 9 41.0 SU ty clay, greenIsh 8,290 • 1.5 S 6 24 O' .. gray 'SIIty clay, gray and 10,360 1.84 brown TRIAXIAL COMPRESSION TESTS , .. (Unconsolidated and Undratned~ TrtaxJal compressi9n tests were perfo~ on sel.cted samples of the grayish silty clay . ~. , . :soi{~ derived from the san$::ioccil weathered mud$tone. Tn. $.qi)1pi:,., Were 5.0 inches high and laterally loaded by glycetbte preS$ure against a membrqn~;: qxiaH~ were applied to the ends, , .:Of t~~ samples in· Jncreasi:ng inorements until failure. Telts were performed unconsolidated and 'u!1drcdned condition. T~ PY'rpOse of this test is to determl;m~> theia~Qrent cohesion and the .~gle ofintemal frIction :til the ~k.t planes of the $Oils whioh rn.ight h~e been caused by previous l~ndJlide or earth movement In that area. T~ re5ulb.' of the hlSts are shown 011 .the following page. BENTON ENGINEERING. INC. • • • -S-• I, DeyiQtor Stre5$ Conf.inlng Dev·fetor Stress At Maxf.mumRatio Bortng Sample Depth Pressure At Yield Point Of Principal Stresse$ No. No. (Feet) . (~i) {psi} (psi) 3 11 44 .. 0 33.6 36.2 43.2 3 13 53.0 40.4 89.4 94.0 3 14 58.0 44.2 36.1 80.4 The angle of Intemal friction and the apparent cohesion of the grayish ahc:J 9re~nish silty clay soils tested are on the average of 7.5 degrees and 2845 pounds per square foot under field • moisture condition. • DISCUSSION, CONCLUSIONS AND R~COMMEN DATIONS Soil Strata "n general, the 5o~ls encountered in the three drilled hol~. are the residual soHs of local , muddy sandstone and clays;fone which are described as slightly clayey to clayey Y~ry ,fine toftn. • sand, and silty ~Iay tn engin(tering claS$ifications. • • ,..- I ,.... " ~ In Boring 1, medi~in, loose to firm clayey very fine to ,fine sand was underl:ain at the~pth '9f 9.5 feet by a firm slightly 'claye,y very fine sand to the depth ~f 20.S feet. F~ctures tn the' formation were encounter,~.,:dt 2.5 feet. Between the depths of-20.8 feet and 34~5 feeti. the sotls ::: : -. , consisted primarIly of fi"* clayey very fine sand with lenses of f~cturecf 'silty clay. containing 'I"9Otlets. Very fine to ftn.:.sand lenas. were found. at the depths:*f 14.5 feet arid 16.5 -feet., ' .CongioJn4trate 9 fnche$ thick, and 18 inches long was found-ot:tn. contact $Urfac~(;f 34.5 f.~. 'Below tht_ depth, Q firm slilY clay IlClaystonell wasencountj~ ',to Q ~th of 56~0 f"t,. the: 'Iimit of thfs :expJoratlon •. .the silty day layer was highly frQctured and contain.eeI fron ~tg'ffJ-loind . . gypSum ot the dep.ths beM_n 34~5 feet and 42.5 feet ,Approximately 1 in'ch thrck~ qf cemented fine' sandy tenses were found at the depths of 45 .• S feet, 48.0 feet and 51 .5 feet. Scattered Seq ~he.lls and sltck$mlded surfaces were also found at the.·depths between 48.Sfeet and 51 .0 feet. Distlnctlv, beddfngplanes and incHnQt;ons of ~,tact iUrfac~ between two " • different matedals were measured in the field and ore tabula.ted on .the foUowi.ng page .• , BENTON ENGINEERING. INC. 'I • • • • Depth (Feet) 9.0 -11.0 15,;,,5 20:.0 22.,0 ,~4.5 Dipping Angle (Degre.) , 21.0 lO.O 7.0 6.0 86.0 6~0 No' ground water Wos encountered in' this hole., DIpping Direction Soutli 75 Degrees Toward West North 58 Degrees Toward East North 86 Degrees Toward East SO"'~ 80 Deg"'" Toward East North 70 Degrees Toward i:ast . North 47 Degrees 'Toward West InBoring 2; Q firm clay~'Y very fine sand""with ~rCyish siltY clay lenses was underlain at 19.0 feet by 'a firm silty ciay with 'Ienses of clayey very fine san~ to the depth of 23.5 feet .. Numerous frciCtu~s were ~~·counter.(nn the 'Clayey ~d formation between the depths of 4.0 . . , . :fQt and 19 .0 feet, CI'ld in the slhy clay between the depths of 20.9 feet and 23.5 feet. ~Iow • 23 ",5 feet,the soll$ con$isted ptimqrilr. of intermittent layers of cl'~yey very fine sand, silty ~Iay, and slightly clayey very fine sqnd of varyfng thickn:esseli to th~ end of the hole at 51.0 feet. " . • • The. s.ifty clay lay~r.below .25.5 feet w~ hiShly fractured wrth iron statns to the depth of 27 .Ofeet.qnd shCtQredJeoieJ Gf 'clayey very flrie sand wHh gypsum was' found hi the silty clay laYer:at the dtpth of 31.5 ffAet. Numerous fr,actures were ClI50 found. in the silty clay lay~rs . " bl8~n the depths of 42~:5 feet and 43.6 feet and below 43.6 feet to the end of the hole at ·5:1 .:0 feet. Distinctive bedding, pJdn~sand inclinations of contact surfaces between two dr-fferent • materials Qret9bula'ted as follows: • " « ...... -I--.~ o.pth (Feet) 7.8' 11.0' 13.0 10;5 19.0 31.5 DipP.lng Angle (Degree) " 15.0 81.0 Horizontal Bedding Vertlccd Iy fractured " Horizontal Bedding 7.0 No grouhd water was encountered In this hole .. BENTON ENGINEERING. INc. Dipping Direction North 42 Degrees Toward Ealt South 16 Degrees Toward West South 60 Degrees Toward West • • • • • • • -lO-,··· '" In Boring 3, mediumi~e' to firm clayey very ,fine to fine ~qn~ was underlain at the depth of 11,.7 feet by a silty clay layer to, the depth of 16.5 feet •. Below that depth, a 4.0 f~t' thickness of clayey very ',fine ~nd Was underlain, by fl~ snty,,~IQY wI th gypsu,m seams, and , -l'l.l:-!~. ~ , , ' rost stained tracture$ to the depth of 28.6 feet. Lenses of grayish "II.t clay were found at the . " . ~ ~,' . , ' ~pth of 20.7. feet. Betwe~n, th. depths of 28.6' feet and 37~~' feet; ftrm clayey $dnd w,qI, ' encQ~ntered. This layer cQl'ltqin~: 14!1i1ses,~f grayish silty day qtth."~pth of 31.7 f.~t, thin, par,tlngs of very fine to fine s~nd. at 32.5 feet, gypsum ~mj~ ... n 34.5 feet and 34.8 feet -, ' _. ' . , . , aod Jtj,"s~ of ,gray silty clay at 36.P-fee't. &.lOw 37.5 fef,: flrm,~ilty clay wi.th gyp$upt seams ,'~d;;r~ri'$iPJ~,~re' en,COVJt.~~'·tethe en~ ~F,~ hOl.',(rt ?$.,Q~:~ .. ~t., tens .. of SCindy ,clay ~nd . '.' '.-., . '. clayey very fine sand werC[l' fourid at'the depthef 46.0 feat. ·:Oistinc:.t.ive bedding planes and ., .. ' ' 1 :~. '. . . -',~ ,~:}, <.' ~~ .• ::: ~tri~liilgtioli', of QQntqct, Sv.i~.'~betw.,n, two d!ff.rtm t 'm9t'rt~&;:wtte~JTI,asured in ,tn.' fl.ld arid: qte tClbuI dtedas follows: belj.th tF~.t~ 21.7 eS .. t> 37w:S Qlpplng Ans1le :r~re~s) 'l,O,'O, 2.0 22.0 ':OIS,cussions and. Conclustof~:" ", . -, ~<l >" ; . ::prpptng Dfr~ctfpl'l, ':$~~'t~(~P Dtsr~S:'Towaf~ W,n: ,,:Sq,,~~;~~ ~rees To~t~:r,:t.t: ~,l,I,tH~~O Degr~" Tow<iid:, West . .. ·t, " . "It is concluded f~;:bur ,fIeld Invest1gation,laborC;ItQrf,tijts and englneer.~tiS,:Qnaly5ti$~ ,.; " '~. s. , , ", '" . '-. ~ . Ih~t the .fduol spils of ~C;aF,tdstone and claystone do not hqve"~,~~sh strength to s}~nd on a cut :::~. :i"' L:/.' :,;'" , . :$,lop8 50,~O feet In h~Jght!~"(I' ratio of 2 horixotltal to 1 vertfccil. ,:lThe sandstone fOnnati,on which ,i;ittl'l the. form Qf claye.y ;d.'Wos htghly fracti,lred. Th~ sIlty c:I~~materrals derJV~ fFo.m theclay- ~, ' ,'. . stone have very high expansion potentials and quickly lose strength ,upOn intrQduction of water .trito the materials even th:$ugn these exhibit a high unconfined 6rxnpressive strength ,(uld cohe$ion . -'. . 'r . . ~ . . at the present field moistO'r~ contents. The weathered claystone is characteristically light gray to , . gray or greenish gray in c~',~r and contains marty Iron:~,tclthi"dn,d:9y'p$UI'n precIpitates in th. -I ': ", fractures. There are innumerable fractures and fissu..escrQaSirtg, th'. beddings In these solis, and BENTON ENGINEERING, INC. • -11- they eire frequently slickensided. Many of these structural hnperfectiens are not revealed until 'the materials a~ falled iii unconfined compressive strength tests and triaxial compressIon • tests. In the malority of the tested samples, failures foHowed a lagged diagonal Hne through • • the samples on irregular fractures and slickensided planes. The recorded stress-strain curves indicate a low strain ratio of yield point and relatively flat stress ... strain (:urves beyond that point. This indicates that thesampl. failed along their weakest planes either along bedding planes or slickensided surfaces, and therefore, no incred .. in stress wosattc:dned even through ,the loading strain was being increased. An examination of' the faUed samp'les, revealed .the fail- lire's did occur in these weakest .pIQnes. Some' of the failed samples were immersed in, water I and were found to disintegrate lnto fragments or soil particl~ in a few minutes. From our previous • Attethers Limit Tests performed on the similar materials in the vi'crnUy 01 the borrow area, the liquid limits of these materials far exceedthei'r present moisture content and the materiaJs have high pladicity indices ranging. from 37.6 percent to 40.4 perc~'"t. This indicates that the • materials are overconsolidated in nature and tend to swell and release abundant energy upon removal of overburden and introduction of water into the $Qils when excavation is made. The • energy was pressed into the materials in the post due to overburden, or old tectonic d!sturbances or'd_icatioil. Upon introduction of water and swellins, the silty clay materials' wHlloose con- .' • • -« I,::;: ,-I I~ :. iiderable -cohesion. In addition, some unfavorable oriemtation of-bedding planes will cause an ·addltional hazard to the slope stability. Recommendotions 1. C\lt SI3'es It Is recommended tbclt a 4 horizontQl to 1 vertIcal c::ut slope may be made to a h$ight of 20 feet, and then changed to' 2 horIzontal to 1 vertIcal slope to the top of cut slope to ~ total height of 50 feet. It is also recommended that a bench 1 0 feet wide be provided in the area wh.re thesJope changes. BENTON ENGINEERING. INC. • • -12- 'A straight slo". of-4 hQri~ontal to 1 vertical with one 10 feet wide bench maybe used, , , in lieu of the cOmbined slQpej des.cribed above, up to a maximum height of 50 f~t. Th~se recommended dastg" slopes include a fOetor of saf.ty on the order of 1.15,' :lnci,udJng a seismic factor of o. lEJ. It is recommended that-paved drainage ditches be provided above the top of slope, at '. th. insido 9f the:bench and at the, toe,of slope to coUect all surfac.runoff and .conduct fhis • in watertight drainage pipes aWay from the cut slope. It is recommended that watertight doWn' , . dJ'ClJns ,be pl'Oyjded throughout to prevent tbe surface water from running over the expOseq slopes. 21' 'The clayey sand soils from the sandstone fonnf;ltion may be satisfactorily used as struc- turg.1 fills provided the excavated material are properly compacted. The expansive, silty clay.: • Spils, Qnd green-ish.gray clo)'Stone con 0150 be used as compacted fill but these are not recommended for structural support iothe compact~ filled ground areas. It would be desirable to place th.,· • • • • • < --. 1 -I ~ • exPansiv~ soil$hi parking are9S only, at 3 feet Qr mo", below:fhe bottom-of pavement. 'The previous reco!TIm~mdations for the proposed Shopping Center present~ in out reporl$ under P~Iect,No. 67-2-17A, and dated April 26, 1967, andlmder Profect No. 69o:-12-23D dated Octo,ber 14, 1971 will apply. Respectfully submitted, BENTON ENGINEERING, INC. BY~~ S. H. Shu, Civil Engineer P.viewed G4 '* Philip H. Benton, Civil Engineer Dish': (4) Addressee (2) Attention: Mr" Burton L. Kramer (2) Rick engineering Company I Carlsbad BENTON E~GINEERING. INC. • • • • • • • • DATE; i?-/f-72. PROJECT NO. 72-1-IIA I I/O' f'ROPOS£IJ BORROW AREA -./ I ~ r I I I I - .~. Indicates Approximate Location of, Test Boring . .,. LOCATION OF TEST BORINGS BORROW AREA LA COSTA PLAZA SHOPPING CENTER SAN DIEGO COUNTY, CALIFORNIA BENTON ENGINEERING, INC • SCALE: /"= 100' DRAWING NO. I • • • o .~ . ~ .:,. g ",8 o .... . ·s .u. • '. '.;3 , • • ! ., t-l1li: ,III .. III ... III, II. Do • ...... % aa t-4(=» Do ., z· III a II» ... II» -c 0 ... II» U • IIIGI ~ II» SUMMARY SHEET BORING NO.---.l -..- ELEVATION .JJ4.0' * . -~. -~ ... Brown, Moist, Loose, Rootlets -.. .. 1 . . . . Firm . 2 , ._' .. .. .. '.' , .. .. . 3 ': ~: ; :. light Brown and Light Brown-Red, , . {,\ :':': :-.: Slightly Moist, Fractured; Layer 4. 0 : ::'; .. :. of Very Fine Sand ....... '\ ' , ......... .. .. .. .. .. 5 ~~:: :.:' Light Gray with Red .... ".' .. .. .. .. .. -", 6 .. " .. " .......... .. .. .. .. '" CD · ...... . : 2 ., .... . 7 ..... ~ .......... ,.-... '"0'" 8 .;-.. .. ~ ... .. ... . -,,- .. ! ',,"-,' 9 : ~~: Bedding Dips 21° S 75° W . 10 : : : :: light Yellow-light Brown, (;;\ ::.:: : Slightly Moist, Compact 11 ~I:!S~----------::,-----l .. :: : ::: Bedding Dips 10° N 58° E .......... 12 •• > ....... .. " .... -. .. ...... .. 1-3 ...... " " .. --' ..... .. .. .. .. .. .. .. .. /-, ,-...... -.... .. .. ~ '. f' ", 1'5 .:. ' .. , Light Gray, Layer of Very Fine .: .:'-: ... ;.: to Fine'Sand !. •••• CLAYEY VERY FINE TO FINE SAND SLIGHTLY CLAYEY VERY FINE 30.8.8.3 100.4 0.46 63.8' 9.4 113.8 3. 11 37.4.' 6.5 108.8 1.86 35.2 : 4.2 108.0 3. 35 Layer of Very Fine Sand 1 Continued on Drawing No.3 o -Indicates undisturbed drive sample . - PROJECT' NO. 72 .. 1 .. llA 0-Indicates loose bag sample . ,. '" -The elevations shown wereobtafned by interpolcitf~n of co"tour lines on Ric.k Engineering Company Drawing 3915-1, dated 8-20-71. BENTON ENGINEERING, INC. DRAWING NO. 2 '. ~. , ' • l , ~, .. • c8 .2 8 u " • ' " .":f • '. I,. t' f I !,. ... i ~ • SUMMARY SHEET BORING NO. 1 (Cont.) 1'27~ ..... ,,; .. ,--'-" ' ... >: ' " .' .,' -I'nt.l. ',,',," I ~o-'.. , ,.' .'. ",' " , " '. r" • , , : 29~j':~:'--': ",' : .: , '. ,'::;,,' ~:' "" ; , ''In'' ,',' " .' " 'ov" ' •• ,.,; n·I:At~: : l:~ . ",' " ,;0. ' r;,'.. • "" " • Llg,ht Gray''QnQ:~~, Sllghtl¥ Moist ' I)" ,',. f-~"::"~'=J---------~--'----1 ,w.r.-1"-' " •• >, ,: ;, • , :light Gr9)', MO,', '1st , ,;. " . " "f:;33l~:": ':">':';' , 'c',,' ," , '~_' ',0 .. ,~, ,.:" ":'" , 'i:, :,' 0 '351;,,'<-\' Brown Wlfh Rekl and Yellow, SLIGHTLY CLAYEY VERY FINE SAND CLAYEY VERY FINE SAND \ 44.0 11.31110.2 4.59 99.0 9.21114.7 4.55 " .. 71.5 20.31108.4 3.96 :",,~}~ , MoI$t, FJrm, Highly Fractured, ~ .;1\,1I'\9J With h'9n'Stal~ god GyPJum SILTY CLAy ~ '1\ 1035 . .5 Feet, 9 by 18 Inch 3"} ,,''iIi C;:ement BoO u Id6·~ aNt C4~tWact, . '~ Contact ips , ' I , ~ , , Green-gray with Red , , Continued on'Drawina No.4 PROJECT NO. I 72-1 ... 11 A ,BENTON ENGINEERING, INC. DRAWING NO, 3 • • • • • • • • • ... , , 'III III ... SUMMARY SHEET'· ....... z ... Ao III C BORING NO. 1 (Cont.) 38-. :, ':Green-gray WHh Red, Moist, , . Firm, Fractured, With Iron : 1.1.:1':1' Sta.ins and Gypsum 41 ®g"1 42 , 43- 44- ,', . "-', .' ",. Brown with Reel, Mottled, ,; :" Beddlng Highly Fractured, N.:arae Amount of GVD5um Grav-black , 45-:, ,: Gray 46-@ ':' ',' ± 1 Inch Thick Cemented 47 AS- 49-- 50- mm Layer , ""',, Lenses'of Light Gray, Clayey " ,. VerY Fine to Fine Sand, Scattered Sea Shens and , , S,Jjck~sides to 5Q.8 Feet 51@' " ± 1 Inch Lenses of Cemented 52 53 54 ,': 1\ FIne Sand .. ',' ' ± linch Thick Cemented Layer SilTY CLAY 117.7i 19.5 110.5 3.41 123.2 13.6 ~ 15.2 3.~2 119.7 15.7 118.5 3.43 " $ ~IL ______________ JL~------~~~~~~-J 56 @~ ,~ 86.9 11.9 h17.9 5.63 - - PIlQJECT NO. 72-1-11A BENTON ENGINEERING, INC. DRAWING NO. 4 •• ! f • • • • • • • • • J 0 ~ ~, e ... c& .2 S u .s SUMMARY SHEET , .- BORING NO. __ ~ .... ·2___. ELEVATION _ 85 QJ · ., ...... : : :: Light Gray and Light Brown · , . " With White, Moist, Firm, , 1,W ~,~ ~'~' Lenses of Gray Silty Clay 2-.. ,e" •• to ...... 0: ...... , 3 : : ~ : , Light Red Light Brown and CD ::: :: Light Gray, Slightly Moist, 4 1 ' , ' . '\~ayer of Very Fine to Fine : : : : : ,,,,,and .. 5-:: : : ~ Zon'e of Hrghly Fractured : : : : : Materiar to 19 Feet 6 : L-ightGray With Yellow and " ., Red brown .. CV'~: ::.:--l 7 ', .. " ' , 9 1(). .... IO" .. .......... ..... .. ~'-· , .-. : : : : : Bedding Dips 15° N 42°, E .......... ........ .. .. "II ~ -. .......... '':.'' .. , ... ~ .. ~.. .. ":." • (";;"\ . l' • • 11 '.Vt:::j:~: ::j: ---'--------~ · ,\", . · ..•. : Fracture Dip 81~ 5 l~.o W 12 13 14- 15 16 Q 17 · 1~ ........ ........ .. '" .... .. .. .. .. ....... ~' Bedding Horizontal ........ .. .... .. ........ .. 10 "" ........ .. .. .. .. .. t' ...... .. ~ -... " ....... , ,I' . .. .. .. .. $ ,: : :, :, Rootlets in Fractures ± 1/4 : : :: Inch Wtd~1 Vertical Fracture ~: :: Strike S 30° W , .... · ... ' ... -~ CLAYEY VERY FINE TO FINE SAND 1.76 11.5 106.0 8.8 6. 5 102.0 8.6 6.4 102.8 19.8 9.0 111.9 4.23 ;'~"~'~~~~~~~ __ ~(~~~~~~~jes~)~ ~~~--t--r--t-II~-j 19 ~ . '. ~ , ~ ,~ Light Gray With Rei d, Iv\oist, SILTY CLAY~ 20 Firm, L1tns.s of C ayey Very ~ t$$. ~$SS~: I~tne Sand 21. @~= Highly Fractured With Rust Stains PROJECT NO, 72-1-11 A Continued on Drawing No.6 BENTON ENGINEERING, INC. 35.2 15.8 104.5 4.36 DRAWING NO. 5 • • • • ... ... ' .. GIl: ~...... fA' ........ CL .... ~.IG :z: •• -c. ... II(:J' 0 ... >-:; "'Z ~ U·~· SUMMARY SHEET BORING NO. 2 (Cont.) .:II 22 23- -'. Light Gray With Red, NIois~, , ~. :. :, Fi 1m, lense$ of Clayey Very · .. ~ -Fine ,Sand., Highly Fractured . , . " WtthRust Stains '.. '\ "",-, .. ~"': (:' 'light Gray Wi.th Red, SI jghtly : ::~; : Moist, Firm, Contact Dips 6° .. ' .. " .. '. :25 "".;,,' .. .. :~~ -! ,-•. ,26 ~) ~~_-i~":~,~ . Gray With Red-broWn, Moist, . ' ' ',~ Firm, Highly Fractured, With 27 ' ' , Iron Stains, Contact Horizontal . ': :,'" ~rown With Gray-and Red-brown SILTY CLAY CLAYEY VERY FINE SAND (Merge.s) • '0 ~ 28 , :29 • • • '. \ ,I Ii. If -:! I Ii' ;. , . ~ " g -f..1, 30 c8 ' , . , , . , ,,<. , , ~ 31 CU", u . t$$.I7'~"~· ·-:7":-,:~--:-.....o.--:-1 SILTY CLAY 32 1!liotIotl .... '~ Gray W,i th Red-brown, Lens of ~, , ... • ~ 33- 34 '35 1I1IlI!oiI~ Clayey Very Fine Sand, Large =~ Amount of Gypsum, Beddi ngs ....... ~ Dip 70° S 00° W. ': 36-Q >: -, Brown Wi th Gray and Red-brown - 37- '38- ,. 39GJ 40 ,41"0 " . ~ .. -.. ' ... .. 01 ..... , .-.• -. ,. .. ...... · . · . · ... ., , ... · . -.. · ... · . '-.. ' ... , ' .... ·,-·0- Light Gray With Red-brown, Slightly Ntoist, Compact SLiGHTL YCLAYEY VERY FINE TO FINE SAND ~ 42 Continued on Drawing No.7 PROJECT NO. 72;..1-llA BENTON ENGINEERING" INC. 24.2 18.7 102.8 4.18 51.7 24.0 97.0 - 42.9 19.5102.2 2.59 92.4 7.3 ~ 11.0 6.88 DRAWING NO. 6 I I • • • • • .2 8. u . .s • '. • • III • tC Z ~. • SUMMARY . SHEET BORING NO. -2 (Cont.) :':"::':_~:' Light Gray with .Red-brown, SLI G HT L Y C LA YEY!-----.,.-1----+----4---------1-'---1 43 ~~.:0!1·1\1,Sli9htIY Moist, Compact . -: ::: Brown With Gray and Red- : : : : ;I\brown, N\oi$t, .Firm, Highly .. ~ l \ Frachtrftd With Rust Stains VERY FINE TO FINE :SAND SILTY CLAY u_ @ -.. ' Slightly Moist Firm VERY FINE TO . It l9ht Brown and Reel LIght Brown, CLAYEY "1V-~~. I FIN E SAN D 47 48 49 50 · · · · - - . . ~mJ Green and Gray With Yellow, ~~ Wtoist, Ftrm, Highly Fractured, . ':. WI th Gypsum SILTY CLAY .. 'IOJECT NO. 72-1-11A BENTON. ENGINEERING, INC. JJ-.-.....+.-.,.---I--....j.----,--j---I I)----!---+--~ /36.3 21.3 105.0 OIAWINGNO. 7 • • • • •• . '0 ~. ! • .2 ~ .s •• •• • I • SUMMARY SHeET BORING NO •.. ....-..;:;;3 ...... __ ELEVATION 91 • O· EU ~ ~ ::: Gray-brown, Moist, Loose to 1 . . . .. N\edium Firm, Rootlets, · .. ~. Sliohtlv Mi tIC:' · . 2 ..: :: Light Grpy and LIght Brown . m.:::~·: With Rust Spots, Slightly N\oist, 3 : : : :: :' ·F.irm, Slightly Micaceous ........... -fj\::' .. 4-\..V : : : : .: 5 W ~ ~ ... .. "" ...... .. -. ~-:. .. 6 .......... ... . ~'.. .. .. .. 7 r:iI :: ... t.=!.J .. . CV .... . 8 2 ::: .. . ," 'If. ~ .. .. .......... . .. ........ 9 .. .. .. .. .. .. -....... .. .. .. .. .. · . , .10" .' ...... ' ... .......... .. ........ .. .. .. ~ -. ... .. .. " .... Light Red Light Brown With Gray Interbedded Layers of LIght Red-brown Clayey Very Fine to Fine Sand Light Yellow-Light Brown With Gray and Brown and Red-brown Light Gray and Yellow CLAYEY VERY . FINE TO FINE SAND CLAYEY VERY FINE SAND SILTY CLAY CLAYEY VERY FINE SAND Continued on Drawing No.9 PROJECT NO. 72-1-11A BENTON ENGINEERING, INC. 17.6 4.1 ~03.2 1.35 22.0 10.0 ~01.1 1.80 33.022 .• 2. 97.1 . 2.6: 26.4 13.8 99.4 4.09 DRAWING NO. 8 ------......... ---------._...,..----.,.-"------/....,...' -------~~--~-~" =,-~,-,~, =,--~~--~,--, --, • :. • '. g -< • i .2 ~ ~ • • • • III ~ ·z ~ .... III ' ••. III ... III • !!:' 'A. III ---'C .. 'III .. = ~; O~~ ~"" Zlll U III SUMMARY SHEET BORING NO. 3 (Cont.) 4=11 .:~: ,:: Light Gray With Light Brown and CLAYEY VE'RY 21 ' '. ' Red-brown, Slightly Ntoist, Firm, FI NE SAND . [I] . ': '. 1\ Slightly Micaceous, Lenses of I 22' "'-I \Gray I MQist SI I ty Clay . -, ~. C;;;ray-brown With Yellow ·and 23-',:_ ':-: ,':Brown, Ntoist,Ftrm, With , ,: .. Gypsum Seams and Rust Stained 24-0 ~. ,_: ,'~ -Fractu.~, Contact Dips l()O 26.4 27.2 94.5 2.48 '. S 200W, 25 26; -~ -,' -" ", >-'.. • '. 27~ -, .' -,,"~ SILTY CLAY 39.6 23.,4 ~Ol.0 3.72 ·2~::.Ci) : :.'. :. '. '.29;:[§]J$·:_$::.:~:=;,lL....,...i9..!..<h,..;-t-G-ra-y-,W~ith-.. -Ye-I-Io-w-a--'n--d-~--"------l--+--+-+-+~ ,.' ... :: _: Red-brown, Slightly Ntoist, .' 30 ;.; ~ .. Slightl'y Mic~ceous, Contact ~: :: :: Dips 2° S 72f? E , • -e::. io'. . • .31" ... '. '_ .• !-. 32 G:) .~~ ~i,~:~,~ Lenses of .Gray"SfltyClay " . ~ II'·.,' ••• ", 1;::; •. ~~ ;::':. . :t-:-:-:--:-~~. 7:' '''-:---:----:-:-____ -1 ,~., ::3a:.· .:,': .:.:::: ;. Li~~t Broytl'f brtd Red-Light Brown, [1J ::' ::::: Layer of Very Fine to F~ne Sand 34. " ... :: " ".: " ~ ... . '-, '35 . :: ~ ; : Brown, Larg!l Arno~.mt of , ~' ... ·,1\ ·Gvosum SeamS:'. " . :,: .'3(1:.CD ~'~::~ '~~ Light Gra~ with, '~-btown " ;:~ :.':.: Lenses of Gray,'Sihy Clay ,37-. 'l~: '.~-1 1/2 Inches Th1ck .38, : -:. ' G~y-g.-ay \yith, Red-brown, 11:0·1 ., : " MoUlt, Firm, Gypsum Seams 3n ' '.' .: and lro~ StainSi"Contact .Dlps :' ~7 , , 220 S 200 W 40 @ ,,',',' , __ ,1 CLAYEY VERY FINE SAND SILTY CLAY Contlnu~ Qn Drawing No. 10 , PROJECT NO. 72-1 ... 11A BENTON·" ENGINEE'RING, INC. 74.8 18.0 110.2 5.00 41.8 12 .2110~9 6~47 63.E 18.8 109.8 2.92 DRAWING NO. 9 •• • • • • \ ' , • ' •. oS • •• • .' t-.. -SUMMARY SHEEr 'III III ;.Alii '" . ... A.-"-.... "' .. ~ (Cgnt.) z -~ !"'C~ BORING NO., t-~!:) 0 .... >-~z A. III a 42 43 "'U'" '. Green-gray With Red .. brown, MQ,ist, Flrm, Gyp$um Seams and IrQn Stain. 44-GJ)' ~: 45 'Blue-gray, L.nses 'of Sandy 47 Clay and Light G~y Clayey Very Ftl1e' Sand 4S@. " 49 50 55 56 57 5S@:' . - Inter~dded Ce.mented Layer 18 Inches Thick Interbedded, Cemented Layers ". '. ± 1 Inch Thick' .' SILTY CLAY PROJECT NO, 12-1-11A BENTON ENGINEERING, INC. ).. (!) t;:' '" ~ ~ t;:' '" J.: m ' .::.. in' . U I&. Z ;;;-a::t ~ Z :) • Z !, , '" ......... )0 '" U ceO -"''''. a __ "'t-v. '" ~. - --::-:c'''' ..... > ..: ",oa >-:a "'V;f ' .... ~~..... "'-a . 0 .~ 31.9 1'S.2 ~ 10.9 - 59.4 14.9 115 .. 0 '3.75 . 91. S 18.2 112.9 3.99 170&5 17.3 112 1 DRAWING ""0, 10 • • • • • • ., • • • • 11.1 =-c ~ ID o '., QlJ . . .' . o ' I n- 1 " 2 . ' .. " . ., ., . ' . ,11.1 z O(~ .. ~ 2 :z: ... H 11.1 .... IlL. =-c 2 II) " . , II. . " , 0 +3 ... z 11.1 C,,) g: 11.1+2 IlL. ~+l -4 ------tc 0 :; 0 0 II) ~ t> ! C,,) 1 2 PROJECT NO, 72-1-llA CONSOLIDATION CURVES LOAD IN KIPS PER SQUARE FOOT 0.4 0.6 0~8 1.0 2 ,4 6 8 10 16 : ': t . , · . . . . · .' . . ' . .' Boring No. 1 . . · · . , . .' ~ " . " .. . . . . · . Jklg No. 1 . . · ~ , . . , " .. '. " .Depth: 181-191 Remolded to 900k of \ Maximum Dry Density 1"'-_ 1-_ -, IJ.. t----r--, h --r--r---...... 1""""" " . ... . . .' . ~ . " . .' . . . '. ., . . . " " . ., . · " '. 0.,' " .' . . . '. , , , " .' . . :" .' , . . . . . ' . .' . · " " " I; • Boring No.1 . ' . .' . • , .' . .~ . .' Bdg No • 3 ; . '. .' , " . . . '. .' Depth: 39-40' , . . Remolded to 90010 of . Maximum Dry Density ""1 il- -~ h f-....... -r--'-....... ..,. . .' . ., . .·0·"' . " . . I . · " , , . " .' . .' . " . ': . . '. . , Boring No • 3 Bag No. 8 r-----. .. ,Depth: 29-30' ' ,...""" ........ Remolded to 90010 of '1 ~ Maximum Dry Density ~ 1---... ~ t---1---l-t--"" ~ r----. ' ~ '--1---_ . --, . , -1--_ ...... ~' t--~t ,~ 0 INorCATES PERCENT CONSOLIDATION AT FIELD NOISTUR,E • INDICATES PERCENTCONSO LIDATION AFTER SATURATION DRAWING NO. BENTON ENGINEERING, INC. 11 . -, . • CONSOLIDATION CURVES LOAD IN KIPS PER SQUARE FOOT • • • ,. .-. • +lp2 0.4 0.6 0.8 1.0 .2 4 6 8 10 16 .. Boring 3 --r---B'ag No.5 +10 r-....' Depth 13-14' .~ ~ Remolded to 90% r--... of Maximum +9 ~ Dr" Den~;it.., i) ~ +8 \ +7 \ ., ., 11.1 ~6 I~ 2~ :z: ... +5 11.1 \ ..J Q. :II :r4 \ .... ,. 0 ~ ~ t: ~ • 0 . .... , s u 0 ...... '. , • 0 1\ +3 ... \ z 11.1 u ':51-2 Q. \. ~1 1\ ~ \ e, ~ ~ ~ 0 .,' ,r----. ........ ! ( ~ ~ ~ u r--..... :1 1--' ....... r--.. \ i"-~~ "2 ~ '. ...... \ r---~ ·.3 I-----.. \ ...... r-...... ~, i'- :4 • III :II C ~ 0 INDICATES PERCENT CONSOl.lDATION AT FIELD MOISTURE • 0 • INDICAtES PERCENT CONSOLIDATION AFTER SATURATION ., , • PROJECT NO. DRAWING NO. 72-1-11A BENTON ENGINEERING, INC. 12 - • CONSOLIDATION CURVES LOAD IN KIPS PElt iQUAITE FOOT • • • • • +1 'R2 0.4 0.6 0.8 1.0 2 .4 6 " .8 . _.10 16 . -.. SoHng 3 . r--~ Bag No. 10 +10 ~ . Depth 38-39' .......... " . Retno Ided to 90 % .. '. ;'1 "'-of Maximum +9 Dr Den:,itv I') ~ +8 \ +7 \ ., > • ., iii z+ 6 ~ , \ ~ % ... +5 iii \ ...J 0. 2 ~+ 4 \ l&. 0 +3 ... \ ·0 ! « • ~ g c& 0' .... lit 0 U 0 • -' • z 1\ iii (,) ffi+ 2 0. \ ~+ 1-l . ij ~ ~. 0 "' ........ 1\ :::; s-:-0c ~ .......... r---....... \ ! r-.... (,) i"-1 t-.... ro ... ~" \ ,2 ........ ~ ........... ~ r-.......... :3 ....... " ...... " ~. ". ;·4 1 . ' I-.... a -: 5 c z 0 INDICATES PERCENT CONS01.IDATION AT FIELD f!lOISTURE .. 0 • INDICATES PERCENT CONSOLIDATION AFTER SATURATION ., i. PRO".EC,:r NO. . . BENTON DRAWING NO. 72-1-11A ENGINEERING. INC. 13 • • • • • • • I I. • BENTON ENGINEERING. INC. APPLIED SOIL MECHANICS -FOUNDATIONS 6717 CONVOY COURT SAN DIEGO, CALIFORNIA 92111 ,PHILIP HENKING BENTON ",UE.,DIENT • CIVIL ENGINEER APPENDIX A TELEPHONE (714) 156!!-1915!!' Unified Soil Classification Chart* , SOil DESCRIPTION GROUP I. COARSE GRAINED, More than half of material is larger than No. 200 sieve size. ** GRAVELS More than half of coarse fraction is larger than No. 4 CLEAN GRAVELS sieve size but smaller GRAVELS WITH FINES than 3 inches (Appreciable amount of fines) SANDS C LEAN SANDS , , More than half of coarse fraction is , smaller than No.4 sieve size SANDS WITH FINES (Appreciable amount of fines) II. FINE 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 HIGHLY 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, little or no fines. ' Poorly graded gravels, gravel-sand mixtures, .little or no fines. Silty gravels, poorly graded gravel- sand-silt, mixtures. Clayey gravels, poorly graded gravel- sand-clay mixtures. Well graded sand, gravelly sands, little or no fines. Poorly graded sands, gravelly sands, little or no fines. Silty sands, poorly graded sand-silt mixtures. :Clayey sands, poorly graded sand-clay mixtures. InorganiC silts and very fine sands, rock flour, sandy silt or clayey-silt-sand mixtures with sl ight pla~ticity. Inorganic clays of low to medium plas- ticity, gravel'ly clays, sandy clays, silty c lays, lean clays. Organic silts and organic si.lty-clays of low plasticity. , Inorganic silts, micaceous or diatomaceous fine sandy or silty soils, elastic silts. Inorganic clays of high plasticity, fat clays. Organic clays of medium to high ',' plasticity Peat and other highly organiC soils. ,Adopted by the Corps of Engineers and Bureau of Reclamation in January, 1952. * ,All sieve sizes on this chart are U. S. Standard. , .... -------------------------------------~-----~--~- • • • • • • • • • • PHILIP HENKING BENTON .. /lEal DENT • CIVIL ENGINEER Sampling BENTON ENGINEERING. INC. APPLIED SOIL MECHANICS -FOUNDATIONS 6717 CONVOY COURT SAN DIEGO, CALIFORNIA 92111 TELEPHONE (714) 565·191515 . APPENDIX B The undisturbed soil samples are obtained by forcing a special sampling tube into the undisturbed soils 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 cutting' tip on one end and a double ball valve on the other, and with a lining 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 soil 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 rate of deformation is approximately 0.05 inch per minute. The machine 'is so designed that the tests are mad~ without removing the samples from the brass liner 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 sampl ing. In some instances, samples are sheared under various 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 de.signed 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 placed in contact wrth 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 1050 F for at least 48 hours prior to placing into the expansion apparatus. A unit load of -sao pounds per ·square foot is then applied to the upper porous stone in contact with the top of each ·sample·. Water . is permitted to contact both the top and bottom of each sample through porous stones. Continu~us .. observations are made until downward movement stops. The dial reading is recorded .and expansion' is recorded until the rate of upward movement is less tha~ ]/10000 inch·per.hour. . .