版權(quán)說明:本文檔由用戶提供并上傳,收益歸屬內(nèi)容提供方,若內(nèi)容存在侵權(quán),請(qǐng)進(jìn)行舉報(bào)或認(rèn)領(lǐng)
文檔簡(jiǎn)介
10GeologicproblemsinfoundationengineeringGeologyAppliedtoCivilEngineering123contentsBearingcapacityoffoundationGroundimprovementTypesoffailureinsoil4Casestudies231Typesoffailureinsoil(1)GeneralshearfailureThefoundationisloadedbyastripfootingwiththewidthofB.Thedimensionperpendiculartotheplaneofthepaperwillbetakenasunit,butallmotionissupposedintheplane.Now,iftheaveragepressureqisgraduallyappliedtothefoundation,settlementwillincrease.Atacertainpoint,whentheloadperunitareaequalsquthefoundationwillundergosuddenshearfailure.Inaddition,thefailuresurfaceinthesoilwillextendtothegroundsurface.Thisloadperunitareaisusuallyreferredtotheultimatebearingcapacity.Whensuchsuddenfailureinsoiltakesplace,itiscalledgeneralshearfailure.Natureofbearingcapacityfailureinsoil:(a)generalshearfailure1Typesoffailureinsoil(2)LocalshearfailureIfthesamefoundationisnowsupportedbyamediumcompressibilitymaterial,theplotofqvs.settlementwillbedifferent.Notethatthemagnitudeofqincreaseswithsettlementuptoq=qu(1),whichisusuallyreferredtothefirstfailureload.However,iftheloadonthefoundationisfurtherincreased,theload-settlementcurveproceedsinalmostalinearmanneralongwiththegradualprogressofthefailuresurfaceinsoil.Whenqincreasestoqu,thefailuresurfaceextendsuptogroundsurface.Beyondthat,theplotofqvs.settlementtakesalinearshapeandapeakloadisneverobserved.Natureofbearingcapacityfailureinsoil:(b)localshearfailure41Typesoffailureinsoil(3)PunchingshearfailureIfthefoundationissupportedbyafairlyloosesoil,theload–settlementplotwillbeasthefollowingfigure.Inthiscase,thefailuresurfaceinsoilwillnotextendtothegroundsurface.Beyondtheultimatefailureload,theload–settlementplotwillbesteepandpracticallylinear.Thistypeoffailureinsoiliscalledthepunchingshearfailure.Natureofbearingcapacityfailureinsoil:(c)punchingshearfailure52BearingcapacityoffoundationPrandtl’ssolutiononultimatebearingcapacityBasicassumptionofPrandtl’stheoryThegroundsoilunderthefoundationisconsideredtobeweightless,namelyγ1=0;Thebaseofthefootingissmooth.Namely,thefrictionangleonthebaseoffootingiszero,sothatthefoundationpressureshouldbeimposedonthegroundinverticaldirection;Theembedmentdepthisnotgreaterthanthewidthofthefooting.Hence,thiskindoffoundationisdefinedasshallowfoundation.Inaddition,theleveloffoundationbottomisassumedtobethevirtualplane,onwhichthefailuresurfaceextendsto.Thesoilbelowthevirtualplaneissubjectedtosurcharge.Sliplinenetworkofweightlesssoil62BearingcapacityoffoundationPrandtl’ssolutiononultimatebearingcapacityb)FailuresurfaceZoneⅠofRankineactivestate.Thetriangularwedgesoil(ΔABC)ispusheddownwards,withinwhichthemajorprincipalstressisverticalandtheminorprincipalstressishorizontal.ThistriangularΔABCbehaveslikearigidbodyandwouldmovedownwardwithnodeformation.TheanglebetweenABandACis45°+φ/2.ZoneⅡofradialshearstate.ThesectorACEandBCE’areforcedsidewaystorotateabouttheedgeofthefooting.ThecurveCEandCE’aresectionsoflogarithmicspirals,andtheanglebetweenACandAEis90°.ZoneⅢofRankinpassivestate.IntheouterwedgeAEFandBE’F’,theprincipalstressarealignedinaccordancewithRankinpassivestatebecauseoftheprincipalstressrotationinZoneⅡ.TheanglebetweenAFandAEis45°-φ/2.Sliplinenetworkofweightlesssoil72BearingcapacityoffoundationPrandtl’ssolutiononultimatebearingcapacityc)TheultimatebearingcapacitypuTheaboveequationcanbeexpressedas:82Bearingcapacityoffoundation(2)Terzaghi’stheoryontheultimatebearingcapacityBasicassumptionofTerzaghi’stheoryThesoilisasemi-infinite,homogeneous,isotropic,rigid-plasticmaterial;Thebaseofthefoundationisrough;Theembedmentdepthisnotgreaterthanthewidthofthefooting(d<B);Generalshearfailureoccurs;ThelinesACandBCformanangleψwiththehorizontaldrawnthroughthepointAandB.ψisrelevanttothetoughdegreeofthebase,andisinarangeofφ<ψ<45°+φ/2;TheShearresistanceofthesoilabovethelevelofthebaseofthefootingisneglected.Theoverburdenpressureduetotheembedmentdepthofdisconsideredasq=γ2d.Terzaghi’smechanismsforbearingcapacityanalysis92Bearingcapacityoffoundation(2)Terzaghi’stheoryontheultimatebearingcapacityb)Terzaghi’ssolutionontheultimatebearingcapacityTheultimatebearingcapacitycanbeexpressedaswhere:NqandNccanbecalculatedusingPrandtl-Reissner’ssolution:N
isderivedusingNqandNc:(TerzaghiandPeck)(Meyerhof)(Hansen)Terzaghi’smechanismsforbearingcapacityanalysis10112Bearingcapacityoffoundation(2)Terzaghi’stheoryontheultimatebearingcapacityInTerzaghi’ssolutionontheultimatebearingcapacityforlocalshearfailure,thelowbearingcapacityisDuetothereductionofthestrengthparameters,thefactorsNr',Nc',Nq'arelessthanNr,Nc,Nq,respectively.ThevalueofthefactorNr',Nc',Nq'versusthevalueofφcanbefoundinTerzaghi’sbook.122Bearingcapacityoffoundation(3)ThegeneralbearingcapacityequationRectangularfoundation:inwhichlisthelengthoffoundation.b)Squarefoundation:c)Circularfoundation:whereRistheradiusofthefoundation.132Bearingcapacityoffoundation(4)AllowablebearingpressureThedesignofshallowfoundationsneedstosatisfythefollowingtwopoints:(i)maintainanadequatefactorofsafety(FS)relativetoshearfailureofthebearingsoil;(ii)limitthesettlementofthefoundationtomeetserviceabilityrequirements.Thelesserofcalculatedpressurecorrespondingtotheabovetwopointsisdefinedastheallowablebearingcapacity.In-situbearingtestThefieldplateloadtestTheplateloadtestisasemi-directmethodtoestimatetheallowablebearingpressureofsoiltoinduceagivenamountofsettlement.Plates,roundorsquare,varyinginsize,from30to60cmandthicknessofabout2.5cmareemployedforthetest.Schematicsketchofplateloadingtestapparatus.1—bearingplate;2—hydraulicjack;3—jackingplate;4—bar;5—inclinedjackingplate;6、7—pin;8—pressuregauge;9—dialgauge;10—referencebeam;11—spreaderbeam142Bearingcapacityoffoundation(4)AllowablebearingpressureIn-situbearingtestII.VanesheartestVanetestsareusedprimarilytodeterminetheundrainedshearstrengthofsaturatedclaydepositswithstrengthgenerallyupto200kPa.Theycanalsobeusedinfine-grainedsoilssuchassilts,organicpeats,tailingsandothergeomaterialswhereapredictionoftheundrainedshearresistanceisrequired.Vanebladesfortestinginboreholes152Bearingcapacityoffoundation(4)AllowablebearingpressureIn-situbearingtestIII.Standardpenetrationtest(SPT)Ofthevariousmethodsofgroundinvestigationcurrentlypracticedworldwide,thestandardpenetrationtest(SPT)remainsthemostpopularandiswidelyusedinsitutestingtechnique.Primarilyrecommendedforgranularsoilsandothergroundconditionsinwhichitisdifficulttosampleandtestinthelaboratoryortoperformotherinsitutests,theSPTisbeingusedforpreliminaryexplorationinvirtuallyanygroundcondition.Additionally,itprovidesassessmentofsoilproperties,foundationdesignparametersandliquefactionpotential.SchematicviewofSTPusingdonuthammer,ropeandcatheadmethod162Bearingcapacityoffoundation(5)CorrectionfordepthandwidthInChina,thecorrectionequationprovidedin“CodeforDesignofBuildingFoundation”(GB50007-2011)isshownasTypeofsoil
b
dsludgeandsludgysoil01.0artificialfill,redclay(e≥0.85orIL≥0.85)01.0RedclayWatercontentratioαw>0.8;Watercontentratioαw≤0.800.151.21.4AgreatdealofcompactedfillSiltysoil(compactingfactor>0.95andclaycontent(
c)≥10%);Gradingsandwithmaximumdrydensitygreaterthan2.lt/m3001.52.0SiltysoilSiltysoil(claycontent(
c)≥10%);Siltysoil(claycontent(
c)≤10%)0.30.51.52.0Claysoil(e≥0.85&rIL≥0.85);Siltysand,finesand(excludingtheextremelywetorsaturatedsoil);Mediumsand,coarsesand,gravelandgravelsand0.32.03.01.63.04.4Correctioncoefficientforwidthandembedmentdepth173GroundimprovementGroundimprovementinitsbroadestsenseisthealterationofanypropertyofsoilorrocktoimproveitsengineeringperformance.Next,thegroundimprovementtechniquesforsoftgroundandproblemsoilgroundarediscussed.SoftgroundSoftgroundmeansagroundconsistingmainlyofsoftsoil,hydraulicfills,miscellaneousfillsorotherhighcompressibilitysoils.SoftsoilThecharacteristicsofasoftsoilarehighwatercontent,largeporeratio,lowpermeabilitycoefficient,highcompressibilityandlowshearstrength.Thebearingcapacityofthesoftsoilgroundislow,andthedeformationislarge.183Groundimprovement(1)Softgroundb)HydraulicfillsThesoilneededforthisisusuallyobtainedbydevelopingitfromtheadjacentriver,lake,oroceantoplaceitatthedesiredlocation.Generallyawellgradedsoilispreferredforhydraulicfill.Sanddepositedbyhydraulicmethodswillberelativelyinlooseconditionandhastobedensified.Siltandclayhydraulicfillsaredifficulttocompactafterplacement.Whentimepermits,suchfillislefttoconsolidateandstabilizenaturally.c)MiscellaneousfillMiscellaneousfillisakindofirregularfillingmaterialsuchasconstructionwaste,industrialwasteandlivinggarbageformedbyhumanactivities.Themainproblemsofmiscellaneousfillarelowstrength,highcompressibilityandpooruniformity.193Groundimprovement(2)ProblemsoilgroundThe“collapsibleloess”region,thedifferentialsettlementusuallyoccurwhilethegroundsoilisimmersedinwater.Thevolumeofswellingsoilwillchangealotindifferentwatercontent.Thefrozensoil,especiallytheseasonalfrozensoilwillmeltinsummer,whichinducesthedecreaseofthebearingcapacity.Hence,theproblematicsoilsneedtobereinforced.203Groundimprovement(3)ThepurposeofgroundimprovementToenhancethebearingcapacity.Toensurethegeneralshearorlocalshearnotoccurringintheground.Toreducethecompressibility.Thesettlementanddifferentialsettlementmustbekeptwithintolerablebounds.Toimprovethedynamiccharacteristicsoftheground.Theseismiccapacityofthegroundneedstobeimprovedtopreventtheliquefaction.Toimprovethepermeability.Thepermeabilityofthegroundneedstobeimprovedtopreventthesandboilandpiping.Toensurethestabilityofthegroundinproblemsoils.213Groundimprovement(3)ThepurposeofgroundimprovementToenhancethebearingcapacity.Toensurethegeneralshearorlocalshearnotoccurringintheground.Toreducethecompressibility.Thesettlementanddifferentialsettlementmustbekeptwithintolerablebounds.Toimprovethedynamiccharacteristicsoftheground.Theseismiccapacityofthegroundneedstobeimprovedtopreventtheliquefaction.Toimprovethepermeability.Thepermeabilityofthegroundneedstobeimprovedtopreventthesandboilandpiping.Toensurethestabilityofthegroundinproblemsoils.223Groundimprovement(4)TheapproachofgroundimprovementDrainageConsolidationPreloadingmethod,surchargepreloadingmethod,vacuumpreloadingmethod,pumpingmethod.b)GroutingmethodDeepmixingmethod,jetgroutingmethod,permeationgrouting,compactiongroutingmethod,hydraulicfracturinggroutingmethod.c)GeosyntheticmethodReinforcementmethod,geotextile,rootpile,anchormethod.d)CompositefoundationVibro-replacementstonecolumnmethod,CFGcolumn,limepile,flyash&limecolumn,dynamicreplacement.e)CompactionmethodRollingcompaction,heavytampingmethod,dynamiccompactionmethod.234CasestudiesCase1softsubgradeimprovementTongliao-Ranghulu(Daqing)RailwayislocatedinthewesternpartofJilinprovinceandsouthernHeilongjiangProvince.Thetotaltracklengthis421km.Alongtherailwayline,thereareatleastfiveareasthatimmersedinwaterforalongtime.Intheseareas,thegroundiscomposedofsoftsoil.Generally,thesoilalongtherailwaylineismainlyQuaternaryalluvialmaterial.Muckyclay,muckysand,andsiltsandaredistributedintheseareas.(a)(b)SanddrainssetupinErdaojiang244CasestudiesCase1softsubgradeimprovement:improvementmethodThereareintotal1271sanddrainsinthissectionwithplumblossom-likearrangement.Thediameterofthesanddrainis200mm,theintervalsare2.2(alongtherailway)and2.5(cross-sectiondirection),respectively.Thelengthofthesanddrainis7-11m.Thesandgrooveinsteadofthesandcushionisusedfordrainage.Thespeedofconstructionisstrictlycontrolled,inordertoimprovethestrengthofthesoftlayerbydrainageinducedbytheloadingduringtheconstruction.Untilnow,thereisnolargedeformationduringtheoperationperiod.(a)(b)SanddrainssetupinErdaojiang254CasestudiesCase2softgroundimprovementwithdynamicreplacementmethodThefourthsinteringplantofWuhanIronandSteelCompanyisloca
溫馨提示
- 1. 本站所有資源如無特殊說明,都需要本地電腦安裝OFFICE2007和PDF閱讀器。圖紙軟件為CAD,CAXA,PROE,UG,SolidWorks等.壓縮文件請(qǐng)下載最新的WinRAR軟件解壓。
- 2. 本站的文檔不包含任何第三方提供的附件圖紙等,如果需要附件,請(qǐng)聯(lián)系上傳者。文件的所有權(quán)益歸上傳用戶所有。
- 3. 本站RAR壓縮包中若帶圖紙,網(wǎng)頁內(nèi)容里面會(huì)有圖紙預(yù)覽,若沒有圖紙預(yù)覽就沒有圖紙。
- 4. 未經(jīng)權(quán)益所有人同意不得將文件中的內(nèi)容挪作商業(yè)或盈利用途。
- 5. 人人文庫網(wǎng)僅提供信息存儲(chǔ)空間,僅對(duì)用戶上傳內(nèi)容的表現(xiàn)方式做保護(hù)處理,對(duì)用戶上傳分享的文檔內(nèi)容本身不做任何修改或編輯,并不能對(duì)任何下載內(nèi)容負(fù)責(zé)。
- 6. 下載文件中如有侵權(quán)或不適當(dāng)內(nèi)容,請(qǐng)與我們聯(lián)系,我們立即糾正。
- 7. 本站不保證下載資源的準(zhǔn)確性、安全性和完整性, 同時(shí)也不承擔(dān)用戶因使用這些下載資源對(duì)自己和他人造成任何形式的傷害或損失。
最新文檔
- 全國賽課一等獎(jiǎng)初中統(tǒng)編版七年級(jí)道德與法治上冊(cè)《樹立正確的人生目標(biāo)》課件
- 2023年胺類項(xiàng)目融資計(jì)劃書
- 《基本透視原理》課件
- 養(yǎng)老院老人生活設(shè)施維護(hù)制度
- 養(yǎng)老院老人財(cái)務(wù)管理制度
- 旅行社酒店入住合同(2篇)
- 《報(bào)價(jià)回購經(jīng)驗(yàn)分享》課件
- 2024年度演出器材租賃免責(zé)協(xié)議書下載3篇
- 中小學(xué)教師多媒體課件制作培訓(xùn)流程
- 2025年淮安貨運(yùn)資格證試題及答案
- 水泥混凝土路面施工方案85171
- 建筑電氣施工圖(1)課件
- 質(zhì)量管理體系運(yùn)行獎(jiǎng)懲考核辦法課案
- 泰康人壽養(yǎng)老社區(qū)介紹課件
- T∕CSTM 00584-2022 建筑用晶體硅光伏屋面瓦
- 2020春國家開放大學(xué)《應(yīng)用寫作》形考任務(wù)1-6參考答案
- 國家開放大學(xué)實(shí)驗(yàn)學(xué)院生活中的法律第二單元測(cè)驗(yàn)答案
- CAMDS操作方法及使用技巧
- Zarit照顧者負(fù)擔(dān)量表
- 2021年全國質(zhì)量獎(jiǎng)現(xiàn)場(chǎng)匯報(bào)材料-財(cái)務(wù)資源、財(cái)務(wù)管理過程及結(jié)果課件
- 5F營銷工業(yè)化模式(194張)課件
評(píng)論
0/150
提交評(píng)論