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OALib Journal期刊
ISSN: 2333-9721
费用:99美元
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氯离子侵蚀下钢筋在混凝土中腐蚀行为的EIS研究
, PP. 189-195
Keywords: 钢筋,混凝土,阻抗,氯离子
Abstract:
应用电化学阻抗谱(EIS)研究环境介质中氯离子对混凝土中钢筋腐蚀行为的影响.结果表明,在测量的频率范围内,钢筋混凝土体系的阻抗谱图包含两个时间常数,分别对应于界面的双电层和钢筋表面的混凝土保护层.其低频段的半圆有些压扁,表明界面双电层的充放电行为偏离理想电容器,可归因于钢筋表面的不均一性.在浸泡后期,低频段出现拖尾,同时电荷转移电阻Rct减小了近两个数量级,这是由于钢筋表面的钝化膜已经破裂,发生活性腐蚀,况且氯离子浓度的增大加速了腐蚀发展过程.讨论了混凝土中在钢筋腐蚀发生,发展的过程中,其腐蚀电位Ecorr以及等效电路中的Rct和Warburg阻抗等元件的变化特征.
| [1] | DhouibiL,TrikiA,RaharinaivoA.Theapplicationofelectrochemicalimpedancespectroscopytodeterminethelong_termeffectivenessofcorrosioninhibitorsforsteelinconcrete[J].Cement&ConcreteComposistes,2002,24:35.
|
| [2] | JohnDG,SearsonPC,DawsonJL.Useofthea.c.impedancetechniqueinstudiesonsteelinconcreteinimmersedconditions[J].Br.Corros.J.,1981,16:102.
|
| [3] | ShiML,LiuJY,WuKR.ACimpedancemethodtostudythecorrosionmechanismofrebarinconcrete[J].ArchitectureMaterialData,1998,1:206.
|
| [4] | SongGL.EquivalentcircuitmodelforACelectrochemicalimpedancespectroscopyofconcrete[J].CementandConcreteResearch,2000,30:1723.
|
| [5] | SaguesAA,KrancSC,MorenoEI.Thetime_domainresponseofacorrodingsystemwithconstantphaseangleinterfacialcomponent:applicationtosteelinconcrete[J].CorrosionScience,1995,37:1097.
|
| [6] | FeliuV,GonzalezJA,AndradeC,etal.Equivalentcircuitformodelingthesteel_concreteinterface.I.experimintalevidenceandtheoreticalpredictions[J].CorrosionScience,1998,40:975.
|
| [7] | Pech_CanulMA,CastroP.Corrosionmeasurementsofsteelreinforcementinconcreteexposedtoatropicalmarineatmosphere[J].CementandConcreteResearch,2002,32:491.
|
| [8] | HongDH.CorrosionandProtectionofReinforcingSteelinConcrete[M].Beijing:ChineseRailwayPress,1998.
|
| [9] | HorTP.Theproductionandbreakdownofthepassivityofmetals[J].CorrosionScience,1967,7:341.
|
| [10] | ChaoCY.ApointdefectmodelforanodicpassivefilmI.filmgrowthkinetics[J].J.ElectrochemSoc.,1981,128:1187.
|
| [11] | AlvarezMG,GalveleJR.ThemechanishofpittingofhighpurityironinNaClsolutions[J].CorrosionScience,1984,24:27.
|
| [12] | ThangavelK,RengaswamyNS.Relationshipbetweenchloride/hydroxideratioandcorrosionrateofsteelinconcrete[J].CementandConcreteComposites,1998,20:283.
|
| [13] | LiuXM,ShiZM,XuG,etal.EISCharacteraticsofcorrosionbehaviorofrebarinconcrete[J].CorrosionScienceandProtectionTechnique,1999,11:161.
|
| [14] | MonticelliC,FrignaniA,TrabanelliG.Astudyoncorrosioninhibitorsforconcreteapplication[J].CementandConcreteResearch,2000,30:635.
|
| [15] | FlisJ,PickeringHW,Osseo_AsareK.Interpretationofimpedancedataforreinforcingsteelinalkalinesolutioncontainingchloridesandacetates[J].ElectrochimicaActa,1998,43:1921.
|
| [16] | CaoCN.CorrosionElectrochemistry[M].Beijing:ChemicalIndustryPress,1994,102(inChinese).
|
| [17] | GlassGK,ReddyB,BuefeldNR.Theparticipationofboundchlorideinpassivefilmbreakdownonsteelinconcrete[J].CorrosionScience,2000,42:2013.
|
| [18] | GlassGK,HassaneinAM,BuenfeldNR.Obtainingimpedanceinformationonthesteel_concreteinterface[J].Corrosion,1998,54:887.
|
| [19] | SaguesAA,KrancSC,MorenoEI.Evaluationofelectrochemicalimpedancewithconstantphaseanglecomponentfromthegalvanostaticstepresponseofsteelinconcrete[J].ElectrochimicaActa,1996,41:1239.
|
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