毕业设计外文参考资料及译文.docx
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毕业设计外文参考资料及译文.docx
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毕业设计外文参考资料及译文
外文参考资料
Mechanicalpropertiesofperviouscementconcrete
CHENYu1,WANGKe-Jin2,LIANGDi1
1.SchoolofTrafficandTransportationEngineering,
ChangshaUniversityofScienceandTechnology,Changsha410004,China;
2.DepartmentofCivil,ConstructionandEnvironmentalEngineering,IowaStateUniversity,Ames,IA50010,USA©CentralSouthUniversityPressandSpringer-VerlagBerlinHeidelberg2012
Abstract:
Compressiveandflexuralstrength,fractureenergy,aswellasfatiguepropertyofperviouscementconcretewitheithersupplementarycementitiousmaterials(SCMs)orpolymerintensified,wereanalyzed.TestresultsshowthatthestrengthdevelopmentofSCM-modifiedperviousconcrete(SPC)differsfromthatofpolymer-intensifiedperviousconcrete(PPC),andporosityhaslittleeffectontheirstrengthgrowth.PPChashigherflexuralstrengthandremarkablyhigherflexural-to-compressivestrengthratiothanSPCatthesameporositylevel.Resultsfromfracturetestofperviousconcretemixeswithporosityaround19.5%showthatthefractureenergyincreaseswithincreasingthedosageofpolymer,reflectingtheductiledamagefeaturesratherthanbrittleness.PPCdisplaysfarlongerfatiguelifethanSPCforanygivenfailureprobabilityandatanystresslevel.Itisprovedthattwo-parameterWeibullprobabilityfunctiondescribestheflexuralfatigueofperviousconcrete.
Keywords:
perviousconcrete;strength;fracture;fatiguelife
1Introduction
Perviouscementconcretewasaconcretewithcontinuousvoidsthatwereintentionallyincorporatedintoconcretebyblendingwithnoorverylittleamountoffineaggregates.Cementitiousmaterialswerenotenoughtofillthevoidsamongcoarseaggregateswithspecialparticle-sizedistributiontomakeinterconnectedmacropores[1−2].Therangeofporositythatwascommonlyreportedforperviousconcreteutilizedinpavement,wasabout15%−25%[3−4].
Thesignificantlyreducedstrengthofconventionalperviousconcreteduetohighporosity,notonlylimiteditsapplicationinheavytrafficroadsbutalsoinfluencedthestabilityanddurabilityofthestructures,becauseof,forexample,susceptibilitytofrostdamageandlowresistancetochemicals.However,byusingappropriatelyselectedaggregates,silicafume(SF)ororganicintensifiers,andbyadjustingconcretemixingproportion,themechanicalpropertiesofperviousconcretecouldbeimprovedgreatly[5−6].YANGandJIANG[7]showedthattheuseofSFandsuperplasticizer(SP)inperviousconcretecouldobviouslyenhanceitsstrength.TheresultsalsoindicatedthatSFhadabettereffectforimprovingthepropertiesofperviousconcretethanpolymerwhenusingwithSP;anditcouldobtaincompressivestrengthof50MPaandflexuralstrengthof6MPa.KEVERN[8]presentedthattheadditionofpolymer(styrenebutadienerubber)inperviousconcreteimproveditsworkability,strength,permeabilityandfreeze-thawresistance,resultinginhigherstrengthatrelativelylowercementcontentsandhigherporosity.
Fundamentalinformation,includingtheeffectsofporosity,water-to-cementratio,cementpastecharacteristic,volumefractionofcoarseaggregates,sizeofcoarseaggregatesonperviousconcretestrength,hadbeenstudied[3,9−12].However,forthereasonthattheporosityplayedakeyroleinthefunctionalandstructuralperformancesofperviousconcretes[13−14],therewasstillaneedtounderstandmoreaboutthemechanicalresponsesofperviousconcretesproportionedfordesiredlevelsofporosities.
Althoughitwaspossibletohavewidelydifferentporestructurefeaturesforagivenporosity,orsimilarporestructurefeaturesforvariedporositiesinperviousconcrete,itwasimperativetofocusonthemechanicalresponsesofperviousconcreteatdifferentdesignedporosities.However,comparedwiththerelatedresearchonconventionalconcrete,verylimitedstudyhadbeenconductedonthefractureandfatiguebehaviorsofperviousconcrete,whichwereespeciallyimportantforpavementconcretesubjectedtoheavytrafficandtosevereseasonaltemperaturechange.
Thepresentedworkoutlinedtherawmaterialsandmixingproportionstoproducehigh-strengthsupplementarycementitiousmaterial(SCM)modifiedperviousconcrete(SPC)andpolymer-intensifiedperviousconcrete(PPC)atdifferentporositieswithintherangeof15%−25%.Then,themechanicalpropertiesofperviousconcrete,includingthecompressiveandflexuralstrengths,fractureenergy,aswellasfatigueproperty,wereinvestigatedindetails.
2Experimentprogram
2.1Rawmaterialsandmixingproportions
TypeIOrdinaryPortlandCement(OPC,withthedetailsinTable1)andgraniteaggregateswereusedforallperviousconcretemixtures.Thecombinedaggregates,4.75mmand9.5mmparticleswerechosentopreparethemixtures.TocastSPC,flyash(typeC,FA),SFandSPwereused;whileSJ-601,themixtureofvinylacetateethylenecopolymer(VAE)andacrylicemulsion,wasaddedtoproducePPC.Table2liststhemainpropertiesofSJ-601.
TwoseriesoftestingspecimenswerecastinaccordancewiththedesignatedmixingproportionspresentedinTable3,inwhichψindicatesthemassratioofaggregatein1m3concretetotheloosedensityafterbeingdenselyvibrated.ThepercentagesofFAandSFwerethereplacementsofthesamemassofOPC;whilethoseofSPandSJ-601weretheadditionaldosages.Itshouldbeclarifiedthattoomuchpolymerblockedthevalidporesandbadlyinfluencedthepermeabilityofperviousconcrete.SJ-601dosagemorethan12%wasnotrecommended[1,6].
2.2Testmethods
ThestrengthtestswerecarriedoutaccordingtoGT/B50081—2002(StandardforTestMethodofMechanicalPropertiesinOrdinaryConcrete).
Straingaugeswerestickatthemid-pointonthebottomsurfaceofbeamspecimen(150mm×150mm×550mm),whichsustainedtwo-thirdssymmetricalloadingF.ThecorrespondingstrainξwasmeasuredbyX−Ydigitalrecorder.ξwasthentranslatedinto,whichmeantthemid-spandeflectionofbeamspecimeninaccordancewithEq.
(1).So,theenvelopedareabyF−▽curveandX-axiswasdefinedasW,fractureenergyofconcrete,whichcouldbecalculatedbyEq.
(2)[15−16]:
(1)
(2)
Where▽isthedynamicdeflectionofthemid-spanbeam;LandHarethespanandheightofbeamspecimen,respectively.ξisthestrainvaluemeasuredatthemidpointofbeambottom,whileareferstothehorizontaldistancefromtheloadingpointtothesupportabutments.
MTS-810TESTSTAR,anelectro-hydraulicservo-typematerialtestingmachine,wasservedtomeasuretheflexuralfatiguelifeofperviousconcrete.Threestresslevelsofsinewaveloading(0.90,0.80and0.70)with0.1ofcyclingeigenvalue,10Hzoffrequencyandzerotimegap,wereadopted.Thenumberofthecyclicloadthatthetestedspecimensweresubjecteduntilfailurewasrecorded.
Table1PropertiesofOPC
Chemicalcompositions/%
Strengthat3d/MPa
Strengthat28d/MPa
SiO2Al2O3CaOMgOFe2O3SO3K2O
CompressiveFlexural
CompressiveFlexural
22.15.162.51.54.22.90.4
27.75.4
53.78.1
Table2PropertiesofSJ-601
Solidcontent/Viscosity/pHDensity/
RatioofstrengthwithtowithoutSJ-601
%(Pa·s)(g·mL-1)
CompressionBendingTensionCohesion
47±30.03﹣0.0451.08±0.03
>0.91.21.21.5
Table3Mixingproportionsofperviousconcrete
ΨPorosity/
SPC
PPC
%
Water-to-binderratioFA/%SF/%SP/%
Water-to-cementratioSJ-601/%
0.90﹣0.9815﹣25
0.28﹣0.3412﹣186﹣100.3﹣0.8
0.30﹣0.348﹣12
3Resultsanddiscussion
3.1Strength
Thecompressivestrengthsofallmixesareexpressedasapercentageoftheir28dstrengthandshowninFig.1.NoevidenteffectofporosityonthestrengthdevelopmentforbothSPCandPPCisobserved,thatis,perviousconcretesatdifferentporositiesfollowthesamestrengthgrowthprocess.ThestrengthdevelopmentofSPCisobviouslyrapidatearlyageswithmorethan50%at3dand80%at7d;whilethefurtherincrementsareonly5.6%at56dand8.9%at90donaverage,respectively(Fig.1(a)).Immediatelyaftercementpasteishardened,whichisacceleratedbySFandSP,aggregatesarewrappedandcementedtogethertoformtheskeleton-porestructure,obtainingquitestrongabilitytoresistdestructiveload.However,duetomuchlargerquantityofaggregatesinperviousconcretecomparedtothatinconventionalconcrete,itisreasonablethatthereisnoremarkablestrengthincreasingatlaterages.
Figure1(b)showsthatthecompressivestrengthofPPCisshortof50%at7dandreachesonlyabout70%at14d,whichquitelagsbehindthestrengthdevelopmentofSPC.Cementhydrationandpolymerfilm-formingprocesstakeplaceatthesametime.Itistimeconsumingforcementhydrationproductsandorganicfilmstointertwine,tointerpenetrateandtobuildupthenetworkstructureofpaste,firmlywrappingandbindingaggregateparticlestogether.Therefore,PPCobtainsacceleratedstrengthimprovingatlaterages,i.e.upto117%at90donaverage.ItisworthnotingthatbecausethereisacontradictionbetweencementhydrationandSJ-601polymerization,itisbeneficialforPPCtobewetcuredatleast3dtoensurecontinuoushydrationofcement,andthentobestoredatadryenvironmentwithrelativehumiditylessthan70%forbetterformingofPolymer.
SeenfromTable4,PPChashigher28dflexuralstrengthsandremarkablyhigherflexural-to-compressivestrengthratiosthanSPCatthesameporositylevel.SJ-601intensifiesperviousconcretebyformingstronglycohesivefilmattheinterfacialtransitionzone(ITZ)betweenaggregatesandhardenedpaste,andbyfillingthemicroporeswithinconcrete.Itmakespreviousconcretelessbrittleandhavestrongerresistancetoflex
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