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中英文翻译ThebridgecrackproducedthereasontosimplyanalyseInrecentyears,thetrafficcapitalconstructionofourprovincegetsswiftandviolentdevelopment,allpartshavebuiltalargenumberofconcretebridges.Inthecourseofbuildingandusinginthebridge,relevanttoinfluenceprojectqualityleadofcommonoccurrencereportthatbridgecollapseevenbecausethecrackappearsTheconcretecanbesaidto"oftenhaveillnesscomingon"whilefracturingand"frequently-occurringdisease",oftenperplexbridgeengineersandtechnicians.Infact,iftakecertaindesignandconstructionmeasure,alotofcrackscanbeovercomeandcontrolled.Forstrengthenunderstandingofconcretebridgecrackfurther,isitpreventprojectfromendangerlargercracktotryone'sbest,thistextmakeanmoreoverallanalysis,summarytoconcretekindandreasonofproduction,bridgeofcrackasmuchaspossible,inordertodesign,constructandfindoutthefeasiblemethodwhichcontrolthecrack,gettheresultoftakingprecautionsagainstYuWeiRan.Concretebridgecrackkind,origincauseofformationInfact,theorigincauseofformationoftheconcretestructurecrackiscomplicatedandvarious,evenmanykindsoffactorsinfluenceeachother,buteverycrackhasitsoneorseveralkindsofmainreasonsproduced.Thekindoftheconcretebridgecrack,onitsreasontoproduce,canroughlydivideseveralkindsasfollows:First,loadthecrackcausedConcreteinroutinequiet.Isitloadtomoveandcrackthatproduceclaimtoloadthecrackunderthetimesofstressbridge,summinguphasdirectstresscracks,twokindsstresscrackoncesmainly.Directstresscrackrefertooutsideloaddirectcrackthatstressproducethatcause.Thereasonwhythecrackproducesisasfollows,1,Designthestageofcalculating,doesnotcalculateorleaksandcalculatespartlywhilecalculatinginstructure;Calculatethemodelisunreasonable;Thestructureissupposedandaccordedwithbystrengthactuallybystrength;Loadandcalculateorleakandcalculatefew;Internalforceandmatchingthemistakeincomputationofmuscle;Safetycoefficientofstructureisnotenough.Donotconsiderthepossibilitythatconstructatthetimeofthestructuraldesign;Itisinsufficienttodesignthesection;Itissimplylittleandassigningthemistakeforreinforcingbartosetup;Structurerigidityisinsufficient;Constructanddealwithimproperly;Thedesigndrawingcannotbeexplainedclearlyetc..2,Constructionstage,doesnotpileupandconstructthemachines,materiallimiting;Isitprefabricatestructurestructurereceivestrengthcharacteristic,standup,isithang,transport,installtogetupatwilltounderstand;Constructnotaccordingtothedesigndrawing,altertheconstructionorderofthestructurewithoutauthorization,changethestructureandreceivethestrengthmode;Donotdothetiredintensitycheckingcomputationsundermachinevibrationandwaittothestructure.3,Usingstage,theheavy-dutyvehiclewhichgoesbeyondthedesignloadpassesthebridge;Receivethecontact,strikingofthevehicle,shipping;Strongwind,heavysnow,earthquakehappen,explodeetc..Stresscrackoncemeansthestressofsecondarycausedbyloadingoutsideproducesthecrack.Thereasonwhythecrackproducesisasfollows,1,Indesignoutsideloadfunction,becauseactualworkingstateandroutine,structureofthingcalculatehavediscrepancyorisitconsidertocalculate,thuscausestressoncetocausethestructuretofractureinsomeposition.Twoisitjoinbridgearchfootisitisitassign"X"shapereinforcingbar,cutdownthisplaceway,sectionofsizedesignandcutwithscissorsatthesametimetoadoptoftentodesigntocutwithscissors,theorycalculateplacethiscanstorecurvedsquarein,butrealityshouldisitcanresistcurvedstilltocutwithscissors,sothatpresentthecrackandcausethereinforcingbarcorrosion.2,Bridgestructureisitdigtrough,turnonhole,setupoxleg,etc.toneedoften,difficulttouseaaccurateonediagrammatictoisitisitcalculatetoimitatetogoonincalculatinginroutine,setupandreceivethestrengthreinforcingbaringeneralfoundationexperience.Studieshaveshown,afterbeingdugtheholebythestrengthcomponent,itwillproducethediffractionphenomenonthatstrengthflows,intensiveneartheholeinautensil,producedtheenormousstresstoconcentrate.Inlongtostepprestressingforceofthecontinuousroofbeam,oftenblockthesteelbunchaccordingtotheneedsofsectioninternalforceinstepping,setuptheanchorhead,butcanoftenseethecrackintheanchorfirmsectionadjacentplace.Soifdealwithimproper,incornerorcomponentformsuddenchangeoffice,blockplacetobeeasytoappearcrackstrengthreinforcingbarofstructurethe.Intheactualproject,stresscrackonceproducedthemostcommonreasonwhichloadsthecrack.Stresscrackoncebelongtoonemorepieceofnatureofdrawing,splittingoff,shearing.Stresscrackonceisloadedandcaused,onlyseldomcalculateaccordingtotheroutinetoo,butwithmoderntocalculateconstantperfectionofmeans,timesofstresscracktocanaccomplishreasonablecheckingcomputationstoo.Forexampletosuchstresses2timesofproducingasprestressingforce,creeping,etc.,department'sfiniteelementprocedurecalculateslevelspolecorrectlynow,butmoredifficult40yearsago.Inthedesign,shouldpayattentiontoavoidingstructuresuddenchange(orsectionsuddenchange),whenitisunabletoavoid,shoulddopartdealwith,cornerforinstance,makeroundhorn,suddenchangeofficemakeintothegradationzonetransition,isitisitmixmuscletoconstructtostrengthenatthesametime,cornermixagainobliquetoreinforcingbar,astolargeholeinautensilcansetupprotectingintheperimeteratthetermsofhavinganglesteel.Loadthecrackcharacteristicinaccordancewithloadingdifferentlyandpresentingdifferentcharacteristicsdifferently.Thecrackappearpersonwhodrawmore,thecuttingareaortheseriouspositionofvibration.Mustpointout,isitgetupcoverorhavealongkeepintoshortcrackofdirectiontoappearpersonwhopress,oftenthestructurereachesthesignofbearingtheweightofstrengthlimit,itisanomenthatthestructureisdestroyed,itsreasonisoftenthatsectionalsizeispartialandsmall.Receivethestrengthwaydifferentlyaccordingtothestructure,thecrackcharacteristicproducedisasfollows:1,Thecentreisdrawn.Thecrackrunsthroughthecomponentcrosssection,theintervalisequalonthewhole,andisperpendiculartoreceivingthestrengthdirection.Whileadoptingthewhorlreinforcingbar,lieinthesecond-classcracknearthereinforcingbarbetweenthecracks.2,Thecentreispressed.Itisparallelontheshortanddenseparallelcrackwhichreceivethestrengthdirectiontoappearalongthecomponent.3,Receivecurved.Mostnearthelargesectionfromborderisitappearanddrawintodirectionverticalcracktobeginpersonwhodrawcurvedsquare,anddeveloptowardneutralizationaxlegradually.Whileadoptingthewhorlreinforcingbar,canseeshortersecond-classcrackamongthecracks.Whenthestructurematchesmusclesless,therearefewbutwidecracks,fragilitydestructionmaytakeplaceinthestructure4,Pressedbigandpartial.Heavytopressandmixpersonwhodrawmusclealessonelighttopigeonholeintothecomponentwhilebeingpartialwhilebeingpartial,similartoreceivingthecurvedcomponent.5,Pressedsmallandpartial.Smalltopressandmixpersonwhodrawmuscleamoreoneheavytopigeonholeintothecomponentwhilebeingpartialwhilebeingpartial,similartothecentreandpressedthecomponent.6,Cut.Pressobliqulywhenthehoopmuscleistoodenseanddestroy,theobliquecrackwhichisgreaterthan45??directionappearsalongthebellyofroofbeamend;Isitisitisitdestroytopresstocuttohappenwhenthehoopmuscleisproper,underpartisitinvite45??directionparallelobliquecrackeachothertoappearalongroofbeamend.7,Sprained.Componentonesidebellyappearmanydirectionobliquecrack,45??oftreaty,first,andtolaunchwithspiraldirectionbeingadjoint.8,Washedandcut.4sideisitinvite45??directioninclinedplanedrawandsplittotakeplacealongcolumncapboard,formthetangentplaneofwashing.9,Someandispressed.Sometoappearpersonwhopressdirectionroughlyparallellargeshortcrackswithpressure.Second,crackcausedintemperaturechangeTheconcretehasnatureofexpandingwithheatandcontractwithcold,lookonastheexternalenvironmentconditionorthestructuretemperaturechanges,concretetakeplaceoutofshape,ifoutofshapetorestrainfrom,producethestressinthestructure,producethetemperaturecrackpromptlywhenexceedingconcretetensilestrengthinstress.Insomebeingheavytostepfoot-pathamongthebridge,temperaturestresscanisitgobeyondlivingyearstresseventoreach.Thetemperaturecrackdistinguishesthemaincharacteristicofothercrackswillbevariedwithtemperatureandexpandedorclosedup.Themainfactorisasfollows,tocausetemperatureandchange1,Annualdifferenceintemperature.Temperatureischangingconstantlyinfourseasonsinoneyear,butchangerelativelyslowly,theimpactonstructureofthebridgeismainlytheverticaldisplacementwhichcausesthebridge,canpropupseatmoveorsetupflexiblemound,etc.nottoconstructmeasurecoordinate,throughbridgefloorexpansionjointgenerally,cancausetemperaturecrackonlywhenthedisplacementofthestructureislimited,forexamplearchedbridge,justbridgeetc.TheannualdifferenceintemperatureofourcountrygenerallychangestherangewiththeconductoftheaveragetemperatureinthemoonofJanuaryandJuly.Consideringthecreepcharacteristicoftheconcrete,theelasticmouldamountofconcreteshouldbeconsideredrollingoverandreducingwhentheinternalforceoftheannualdifferenceintemperatureiscalculated.2,Rizhao.Afterbeingtannedbythesunbythesuntothesideofbridgepanel,thegirderorthepier,temperatureisobviouslyhigherthanotherposition,thetemperaturegradientispresentedanddistributedbythelineshape.Becauseofrestrainoneselffunction,causepartdrawstresstoberelativelyheavy,thecrackappears.Rizhaoandfollowingtoisitcausestructurecommonreasonmost,temperatureofcracktolowerthetemperaturesuddenly3,Lowerthetemperaturesuddenly.Fallheavyrain,coldairattack,sunset,etc.cancausestructuresurfacetemperaturesuddenlydroppedsuddenly,butbecauseinsidetemperaturechangerelativelyslowproducingtemperaturegradient.Rizhaoandlowerthetemperatureinternalforcecanadoptdesignspecificationorconsultrealbridgematerialsgoonwhencalculatingsuddenly,concreteelasticmouldamountdoesnotconsiderconvertingintoandreducing4,Heatofhydration.Appearinthecourseofconstructing,thelargevolumeconcrete(thicknessexceeds2.0),afterbuildingbecausecementwatersendoutheat,causeinsideverymuchhightemperature,theinternalandexternaldifferenceintemperatureistoolarge,causethesurfacetoappearinthecrack.Shouldaccordingtoactualconditionsinconstructing,isitchooseheatofhydrationlowcementvarietytotryone'sbest,limitcementunit'sconsumption,reducetheaggregateandenterthetemperatureofthemould,reducetheinternalandexternaldifferenceintemperature,andlowerthetemperatureslowly,canadoptthecirculationcoolingsystemtocarryontheinsidetodispeltheheatincaseofnecessity,oradoptthethinlayerandbuilditinsuccessioninordertoacceleratedispellingtheheat.5,Theconstructionmeasureisimproperatthetimeofsteammaintenanceorthewinterconstruction,theconcreteissuddenandcoldandsuddenandhot,internalandexternaltemperatureisuneven,apttoappearinthecrack.6,PrefabricateTroofbeamhorizontalbafflewhentheinstallation,propupseatburystencilplatewithtransferflatstencilplatewhenweldinginadvance,ifweldmeasuretobeimproper,ironpiecesofnearbyconcreteeasytoisitfracturetoburn.Adoptelectricheatpiecedrawlawpiecedrawprestressingforceatthecomponent,prestressingforcesteeltemperaturecanriseto350degreesCentigrade,theconcretecomponentisapttofracture.Experimentalstudyindicates,arecausedtheintensityofconcretethatthehightemperatureburnstoobviouslyreducewithrisingoftemperaturebysuchreasonsasthefire,etc.,glueingformingthedeclinethereuponofstrengthofreinforcingbarandconcrete,tensilestrengthdropby50%afterconcretetemperaturereaches300degreesCentigrade,compressionstrengthdropsby60%,glueingthestrengthofformingtodropby80%ofonlyroundreinforcingbarandconcrete;Becauseheat,concretebodydissociateinkevaporateandcanproduceandshrinksharplyinalargeamountThirdshrinkthecrackcausedIntheactualproject,itisthemostcommonbecauseconcreteshrinksthecrackcaused.Shrinkkindinconcrete,plasticityshrinkisititshrinks(isitcontracttodo)tobethemainreasonthatthevolumeofconcreteoutofshapehappenstoshrink,shrinkspontaneouslyinadditionandthecharshrink.Plasticityshrink.About4hoursafteritisbuiltthatinthecourseofconstructing,concretehappens,thecementwaterresponseisfierceatthismoment,thestrandtakesshapegradually,secretewaterandmoisturetoevaporatesharply,theconcretedesiccatesandshrinks,itisatthesametimeconductoneselfwithdignitynotsinkingbecauseaggregate,sowhenhardenconcreteyet,itcallplasticityshrink.Theplasticityshrinkproducingamountgradeisverybig,canbeuptoabout1%.Ifstoppedbythereinforcingbarwhiletheaggregatesinks,formthecrackalongthereinforcingbardirection.Ifweb,roofbeamofTandroofbeamofcaseandcarrybaseplatehandoverofficeincomponentverticaltobecomesectionalplace,becausesinktooreallytosuperficialobeyingthewebdirectioncrackwillhappenevenlybeforehardenning.Forreducingconcreteplasticityshrink,itshouldcontrolbywaterdustwhenbeingconstructthan,lastlong-timemixing,unloadingshouldnottooquick,isitisittakecloselyknittosmashtoshake,verticaltobecomesectionalplaceshoulddividelayerbuild.Shrinkandshrink(doandcontract).Aftertheconcreteisformedhard,asthetoplayermoistureisevaporatedprogressively,thehumidityisreducedprogressively,thevolumeofconcreteisreduced,iscalledandshrunktoshrink(doandcontract).Becauseconcretetoplayermoisturelosssoon,itisslowforinsidetolose,producesurfaceshrinkheavy,insideshrinkalightoneeventoshrink,itisoutofshapetorestrainfrombytheinsideconcreteforsurfacetoshrink,causethesurfaceconcretetobearpullingforce,whenthesurfaceconcretebearspullingforcetoexceeditstensilestrength,produceandshrinkthecrack.Theconcretehardensafter-contractiontojustshrinkandshrinkmainly.Suchasmixmusclerateheavycomponent(exceed3%),betweenreinforcingbarandmoreobviousrestraintsrelativelythatconcreteshrink,theconcretesurfaceisapttoappearinthefullofcrackscrackle.Shrinkspontaneously.Spontaneoustoitshrinkstobeconcreteinthecourseofhardenning,cementandwatertakeplaceinkreact,theshrinkwithhavenothingtodobyexternalhumidity,andcanpositive(whethershrink,suchasordinaryportlandcementconcrete),cannegativetoo(whetherexpand,suchasconcrete,concreteofslagcementandcementofflyash).Thecharshrinks.Betweencarbondioxideandhyrateofcementofatmospheretakeplaceoutofshapeshrinkthatchemicalreactioncause.Thecharshrinksandcouldhappenonlyabout50%ofhumidity,andacceleratewithincreaseofthedensityofthecarbondioxide.Thecharshrinksandseldomcalculates.Thecharacteristicthattheconcreteshrinksthecrackisthatthemajoritybelongstothesurfacecrack,thecrackisrelativelydetailedinwidth,andcriss-cross,becomethefullofcracksform,theformdoesnothaveanylaw.Studieshaveshown,influenceconcreteshrinkmainfactorofcrackasfollows,1,Varietyofcement,gradeandconsumption.Slagcement,quick-hardeningcement,low-heatcementconcretecontractivityarerelativelyhigh,ordinarycement,volcanicashcement,aluminacementconcretecontractivityarerelativelylow.Cementgradelowinaddition,unitvolumeconsumptionheavyrubingdetaileddegreeheavy,thentheconcreteshrinksthemoregreatly,andshrinktimeisthelonger.Forexample,inordertoimprovetheintensityoftheconcrete,oftenadoptandincreasethecementconsumptionmethodbyforcewhileconstructing,theresultshrinksthestresstoobviouslystrengthen.2,Varietyofaggregate.Suchabsorbingwaterratesasthequartz,limestone,cloudrock,granite,feldspar,etc.aresmaller,contractivityisrelativelylowintheaggregate;Andsuchabsorbingwaterratesasthesandstone,slate,angleamphibolite,etc.aregreater,contractivityisrelativelyhigh.Aggregategrainsoffoot-pathheavytoshrinklightinaddition,watercontentbigtoshrinkthelarger.3,Watergraythan.Theheavierwaterconsumptionis,thehigherwateranddustare,theconcreteshrinksthemoregreatly.4,Mixthepharmaceuticaloutside.Itisthebettertomixpharmaceuticalwater-retainingpropertyoutside,thentheconcreteshrinksthesmaller.5,Maintainthemethod.Waterthatgoodmaintenancecanacceleratetheconcretereacts,obtaintheintensityofhigherconcrete.Keephumidityhigh,lowmaintainingtimetobethelongertemperaturewhenmaintaining,thentheconcreteshrinksthesmaller.Steammaintainwaythanmaintainwayconcreteisittakelighttoshrinknaturall.6,Externalenvironment.Thehumidityislittle,theairdrying,temperaturearehigh,thewindspeedislargeintheatmosphere,thentheconcretemoistureisevaporatedfast,theconcreteshrinksthefaster.7,Shakeandsmashthewayandtime.Machineryshakewayofsmashingthanmakefirmbyrammingortampingwayconcretecontractivitytakelittlebyhand.Shakingshoulddetermineaccordingtomechanicalperformancetosmashtime,aregenerallysuitablefor55s/time.Itistooshort,shakeandcannotsmashcloselyknit,itisinsufficientornoteveninintensitytoformtheconcrete;Itistoolong,causeanddividestorey,thickaggregatesinkstothegroundfloor,theupperstratathatthedetailedaggregatestays,theintensityisnoteven,theupperstrataincidentshrinkthecrack.Andshrinkthecrackcausedtotemperature,worthyofconstructingthereinforcingbaragainingcanobviouslyimprovetheresistingthesplittingofconcrete,structureofespeciallythinwall(thick200cmofwall).Mixmuscleshouldisitadoptlightdiameterreinforcingbar(8|?construct14|?)tohavepriority,littleintervalassign(whether@10construct@15cm)onconstructing,thewholesectionisitmixmuscletoberateunsuitabletobelowerthan0toconstruct.3%,cangenerallyadopt0.3%~0.5%.Fourth,crackthatcausesoutofshapeofplinthofthegroundBecausefoundationverticaltoeventosubsideorhorizontaldirectiondisplacement,makethestructureproducetheadditionalstress,gobeyondresistingtheabilityofdrawingofconcretestructure,causethestructuretofracture.Theevenmainreasonthatsubsideofthefoundationisasfollows,1,Reconnoitrestheprecisionandisnotenoughfor,testthematerialsinaccuratlyingeology.Designing,constructingwithoutfullygraspingthegeologicalsituation,thisisthemainreasonthatcausethegroundnottosubsideevenly.Suchashillsareaorbridge,districtofmountainridge,,holeintervaltobetoofarwhenreconnoitring,andgroundriseandfallbigtherock,reconnoitringthereportcan'tfullyreflecttherealgeologicalsituation.2,Thegeologicaldifferenceofthegroundistoolarge.Buildingitinthebridgeofthevalleyoftheditchofmountainarea,geologyofthestreamplaceandplaceonthehillsidechangelarger,eventhereareweakgroundsinthestream,becausethesoilofthegrounddoesnotcausesanddoesnotsubsideevenlywiththecompressing.3,Thestructureloadsthedifferencetoobig.Undertheunanimousterms,wheneveryfoundationtooheavytoloaddifferenceingeologicalsituation,maycauseevenlytosubside,forexamplehightofilloutsoilcaseshapeinthemiddlepartoftheculvertthantoisittakeheavytoloadbothsides,tosubsidesoonheavythanbothsidesmiddlepart,caseisitmightfracturetocontain4,Thedifferenceofbasictypeofstructureisgreat.Uniteitinthebridgethesamly,mixanduseanddoesnotexpandthefoundationandafoundationwiththefoundation,oradoptafoundationwhenafoot-pathoralongdifferenceisgreatatthesametime,oradoptthefoundationofexpandingwhenbasiselevationiswidelydifferentatthesametime,maycausethegroundnottosubsideevenlytoo5,Foundationbuiltbystages.Inthenewly-builtbridgenearthefoundationoforiginalbridge,ifthehalfabridgeaboutexpresswaybuiltbystages,thenewly-builtbridgeloadsorthefoundationcausesthesoilofthegroundtoconsolidateagainwhiledealingwith,maycauseandsubsidethefoundationoforiginalbridgegreatly6,Thegroundisfrozenbloatedly.Thegroundsoilofhighermoisturecontentontermsthatlowerthanzerodegreeexpandsbecauseofbeingicy;Oncetemperaturegoesup,thefrozensoilismelted,thesettingofground.Sothegroundisicyormeltscausesanddoesnotsubsideevenly.7,Bridgefoundationputonbody,cavewithstalactitesandstalagmites,activityfault,etc.ofcomingdownatthebadgeology,maycauseanddoesnotsubsideevenly.8,Afterthebridgeisbuiltup,theconditionchangeoforiginalground.Aftermostnaturalgroundsandartificialgroundsaresoakedwithwater,especiallyusuallyfilloutsuchsoilofspecialgroundasthesoil,loess,expandingintheland,etc.,soilbodyintensitymeetwaterdrop,compressoutofshapetostrengthen.Inthesoftsoilground,seasoncausesthewatertabletodroptodrawwateroraridartificially,thegroundsoillayerconsolidatesandsinksagain,reducethebuoyancyonthefoundationatthesametime,shoulderingtheobstructionofrubingtoincrease,thefoundationiscarriedonone'sshoulderorbackandstrengthened.Somebridgefoundationisitputtooshallowtobury,erode,isitdigtowashflood,thefoundationmightbemoved.Groundloadchangeofterms,bridgenearbyisitisitabolishsquare,grit,etc.inalargeamounttoputtopilewithcavein,landslide,etc.reasonforinstance,itisoutofshapethatthebridgelocationrangesoillayermaybecompressedagain.So,theconditionoforiginalgroundchangewhileusingmaycauseanddoesnotsubsideevenlyProducethestructurethingofhorizontalthrusttoarchedbridge,etc.,itisthemainreasonthathorizontaldisplacementcrackemergestodestroytheoriginalgeologicalconditionwhentothatitisunreasonabletograspincompletely,designandconstructinthegeologicalsituation.桥梁裂缝产生原因浅析近年来,我省交通基础建设得到迅猛发展,各地兴建了大量的混凝土桥梁。在桥梁建造和使用过程中,有关因出现裂缝而影响工程质量甚至导桥梁垮塌的报道屡见不鲜。混凝土开裂可以说是“常发病”和“多发病”,经常困扰着桥梁工程技术人员。其实,如果采取一定的设计和施工措施,很多裂缝是可以克服和控制的。为了进一步加强对混凝土桥梁裂缝的认识,尽量避免工程中出现危害较大的裂缝,本文尽可能对混凝土桥梁裂缝的种类和产生的原因作较全面的分析、总结,以方便设计、施工找出控制裂缝的可行办法,达到防范于未然的作用。混凝土桥梁裂缝种类、成因实际上,混凝土结构裂缝的成因复杂而繁多,甚至多种因素相互影响,但每一条裂缝均有其产生的一种或几种主要原因。混凝土桥梁裂缝的种类,就其产生的原因,大致可划分如下几种:一、荷载引起的裂缝混凝土桥梁在常规静、动荷载及次应力下产生的裂缝称荷载裂缝,归纳起来主要有直接应力裂缝、次应力裂缝两种。直接应力裂缝是指外荷载引起的直接应力产生的裂缝。裂缝产生的原因有:1、设计计算阶段,结构计算时不计算或部分漏算;计算模型不合理;结构受力假设与实际受力不符;荷载少算或漏算;内力与配筋计算错误;结构安全系数不够。结构设计时不考虑施工的可能性;设计断面不足;钢筋设置偏少或布置错误;结构刚度不足;构造处理不当;设计图纸交代不清等。2、施工阶段,不加限制地堆放施工机具、材料;不了解预制结构结构受力特点,随意翻身、起吊、运输、安装;不按设计图纸施工,擅自更改结构施工顺序,改变结构受力模式;不对结构做机器振动下的疲劳强度验算等。3、使用阶段,超出设计载荷的重型车辆过桥;受车辆、船舶的接触、撞击;发生大风、大雪、地震、爆炸等。次应力裂缝是指由外荷载引起的次生应力产生裂缝。裂缝产生的原因有:1、在设计外荷载作用下,由于结构物的实际工作状态同常规计算有出入或计算不考虑,从而在某些部位引起次应力导致结构开裂。例如两铰拱桥拱脚设计时常采用布置“X”形钢筋、同时削减该处断面尺寸的办法设计铰,理论计算该处不会存在弯矩,但实际该铰仍然能够抗弯,以至出现裂缝而导致钢筋锈蚀。2、桥梁结构中经常需要凿槽、开洞、设置牛腿等,在常规计算中难以用准确的图式进行模拟计算,一般根据经验设置受力钢筋。研究表明,受力构件挖孔后,力流将产生绕射现象,在孔洞附近密集,产生巨大的应力集中。在长跨预应力连续梁中,经常在跨内根据截面内力需要截断钢束,设置锚头,而在锚固断面附近经常可以看到裂缝。因此,若处理不当,在这些结构的转角处或构件形状突变处、受力钢筋截断处容易出现裂缝。实际工程中,次应力裂缝是产生荷载裂缝的最常见原因。次应力裂缝多属张拉、劈裂、剪切性质。次应力裂缝也是由荷载引起,仅是按常规一般不计算,但随着现代计算手段的不断完善,次应力裂缝也是可以做到合理验算的。例如现在对预应力、徐变等产生的二次应力,不少平面杆系有限元程序均可正确计算,但在40年前却比较困难。在设计上,应注意避免结构突变(或断面突变),当不能回避时,应做局部处理,如转角处做圆角,突变处做成渐变过渡,同时加强构造配筋,转角处增配斜向钢筋,对于较大孔洞有条件时可在周边设置护边角钢。荷载裂缝特征依荷载不同而异呈现不同的特点。这类裂缝多出现在受拉区、受剪区或振动严重部位。但必须指出,如果受压区出现起皮或有沿受压方向的短裂缝,往往是结构达到承载力极限的标志,是结构破坏的前兆,其原因往往是截面尺寸偏小。根据结构不同受力方式,产生的裂缝特征如下:1、中心受拉。裂缝贯穿构件横截面,间距大体相等,且垂直于受力方向。采用螺纹钢筋时,裂缝之间出现位于钢筋附近的次裂缝。2、中心受压。沿构件出现平行于受力方向的短而密的平行裂缝。3、受弯。弯矩最大截面附近从受拉区边沿开始出现与受拉方向垂直的裂缝,并逐渐向中和轴方向发展。采用螺纹钢筋时,裂缝间可见较短的次裂缝。当结构配筋较少时,裂缝少而宽,结构可能发生脆性破坏。4、大偏心受压。大偏心受压和受拉区配筋较少的小偏心受压构件,类似于受弯构件。5、小偏心受压。小偏心受压和受拉区配筋较多的大偏心受压构件,类似于中心受压构件。6、受剪。当箍筋太密时发生斜压破坏,沿梁端腹部出现大于45°方向的斜裂缝;当箍筋适当时发生剪压破坏,沿梁端中下部出现约45°方向相互平行的斜裂缝。7、受扭。构件一侧腹部先出现多条约45°方向斜裂缝,并向相邻面以螺旋方向展开。8、受冲切。沿柱头板内四侧发生约45°方向斜面拉裂,形成冲切面。9、局部受压。在局部受压区出现与压力方向大致平行的多条短裂缝。二、温度变化引起的裂缝敞混凝土具帽有热胀冷惰缩性质,己当外部环国境或结构导内部温度超发生变化秋,混凝土锦将发生变欢形,若变豪形遭到约革束,则在零结构内将装产生应力芝,当应力邻超过混凝献土抗拉强悲度时即产投生温度裂甩缝。在某厘些大跨径夕桥梁中,馒温度应力禾可以达到饮甚至超出冻活载应力鸭。温度裂勉缝区别其况它裂缝最巧主要特征竹是将随温像度变化而德扩张或合音拢。引起扫温度变化飞主要因素伪有膀:吧1陆、年温差乌。一年中盛四季温度裳不断变化罩,但变化吃相对缓慢浅,对桥梁围结构的影耽响主要是愤导致桥梁遭的纵向位拌移,一般脂可通过桥衡面伸缩缝迫、支座位抚移或设置歌柔性墩等循构造措施工相协调,撕只有结构钻的位移受促到限制时奥才会引起寻温度裂缝赔,例如拱由桥、刚架叶桥等。我摆国年温差发一般以一浅月和七月膝月平均温汤度的作为汤变化幅度建。考虑到阶混凝土的眨蠕变特性陶,年温差膜内力计算惯时混凝土们弹性模量抗应考虑折愁减冬。抬2盼、日照。雹桥面板、否主梁或桥潜墩侧面受储太阳曝晒准后,温度炮明显高于壁其它部位些,温度梯母度呈非线屑形分布。皇由于受到差自身约束侄作用,导缘致局部拉逢应力较大否,出现裂途缝。日照臣和下述骤绣然降温是行导致结构兔温度裂缝异的最常见碰原因趟。孙3隔、骤然降挖温。突降黑大雨、冷尚空气侵袭玉、日落等冷可导致结三构外表面码温度突然匪下降,但浴因内部温笨度变化相拣对较慢而咽产生温度旷梯度。日由照和骤然西降温内力挨计算时可乳采用设计沈规范或参吐考实桥资冤料进行,疤混凝土弹依性模量不架考虑折减挑。判4血、水化热鸟。出现在屑施工过程仁中,大体养积混凝土震(厚度超沃过层2.锣0积米)浇筑发之后由于膊水泥水化泉放热,致稿使内部温拳度很高,设内外温差廉太大,致花使表面出宇现裂缝。掉施工中应墙根据实际补情况,尽惹量选择水愉化热低的线水泥品种售,限制水循泥单位用极量,减少段骨料入模够温度,降以低内外温酿差,并缓间慢降温,艳必要时可旱采用循环拳冷却系统洲进行内部歪散热,或锡采用薄层誉连续浇筑干以加快散狐热举。蓬5劈、蒸汽养川护或冬季头施工时施永工措施不欣当,混凝向土骤冷骤串热,内外珍温度不均星,易出现脱裂缝登。泄6混、预远制鬼T法梁之间横蒜隔板安装没时,支座萌预埋钢板录与调平钢哄板焊接时叼,若焊接漂措施不当贼,铁件附术近混凝土云容易烧伤昂开裂。采劣用电热张案拉法张拉请预应力构沸件时,预隐应力钢材辆温度可升施高公至膏35耳0继℃音,混凝土江构件也容回易开裂。测试验研究大表明,由坊火灾等原伞因引起高纺温烧伤的谊混凝土强新度随温度峰的升高而语明显降低匪,钢筋与泽混凝土的帆粘结力随盯之下降,斧混凝土温刃度达蜜到苏30确0滤℃些后抗拉强刻度下额降思50鞋%习,抗压强袋度下学降汇60礼%蔬,光圆钢孤筋与混凝盛土的粘结富力下请降搬80汁%置;由于受滋热,混凝幕土体内游赚离水大量患蒸发也可突产生急剧皱收缩。作三哑、仗怖收缩引起基的裂缝纲在实际工
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