Kelvin探头参比电极技术在大气腐蚀中的应用

中国腐蚀与防护学报

2004, Vol. 24

Issue (1): 59-64

综述

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Kelvin探头参比电极技术在大气腐蚀中的应用

王燕华;张涛;王佳;王福会

青岛中国科学院海洋研究所

Applications of Kelvin Probe Technique in the Studies of Atmospheric Corrosion

Wang Yanhua;Zhang Tao;Wang jia;Wang Fuhui

全文: PDF(306 KB)

摘要: Kelvin探头参比电极技术是近年来大气腐蚀领域中最为活跃的研究方向之一。它能够不接触、无破坏的检测薄液膜甚至涂层下金属表面的腐蚀电位分布。文中介绍了该技术的发展历史、技术要点，着重讨论了该技术在研究金属表面有机涂层的剥离和薄液层下金属的腐蚀两方面的应用。

关键词 ： Kelvin探头参比电极技术, 大气腐蚀

Abstract：Since the Kelvin probe technique has been introduced into the studies of atmospheric corrosion, it has been paid increasing attention by corrosion scientists in the past decade due to its ability to measure the metal surface covered by very thin electrolyte layer, the corrosion potential and its distribution yet without touching the metal and electrolyte. In this paper, the history and properties of this technique were reviewed, also the applications on delamination of organic coatings and corrosion of metals under thin electrolyte were discussed.

Key words： Kelvin probe technique atmospheric corrosion

收稿日期: 2003-01-26

ZTFLH:

TG172.3

通讯作者: 王燕华

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引用本文:

王燕华; 张涛; 王佳; 王福会 . Kelvin探头参比电极技术在大气腐蚀中的应用[J]. 中国腐蚀与防护学报, 2004, 24(1): 59-64 .
Wang Yanhua, Zhang Tao, Wang jia, Wang Fuhui. Applications of Kelvin Probe Technique in the Studies of Atmospheric Corrosion. J Chin Soc Corr Pro, 2004, 24(1): 59-64 .

链接本文:

https://www.jcscp.org/CN/ 或 https://www.jcscp.org/CN/Y2004/V24/I1/59

[1]BartonK .ProtectionAgainstAtmosphericCorrosion[M].London:Wi ley,1976
[2]VernonWHJ .Effectofsulphurdioxideontheatmosphericcorrosionofcopper[J].Trans.FaradaySoc.,1933,27:35
[3]EvansUR .TheCorrosionandOxidationofMetals[M].London:EdwardArnold,1960
[4]RozenfeldIL .Atmosphericcorrosionofmetals[A].NationalAssociationofCorrosionEngineers[C].Houston,1972
[5]BartonK .ProtectionAgainstAtmosphericCorrosion[M].London:Wi ley,1976
[6]BlottBH ,LeeTJ .Atwofrequencyvibratingcapacitormethodforcon tactpotentialdifferencemeasurements[J].J.Sci.Instrum.,1969,46(2):785
[7]CraigPP ,RadekaV .Stressdependenceofcontactpotential:theacKelvinmethod[J].Rev.Sci.Instrum.,1970,41(2):258
[8]BesockeK ,BergerS .PiezoelectricdrivenKelvinprobeforcontactpoten tialdifferencestudies[J].Rev.Sci.Instrum.,1976,47(7):840
[9]StratmannM .Theinvestigationofthecorrosionpropertiesofmetals,cov eredwithadsorbedelectrolytelayers-anewexperimentaltechnique[J].Corros.Sci.,1987,27(8):869
[10]StratmannM ,StreckelH .Ontheatmosphericcorrosionofmetalswhicharecoveredwiththinelectrolytelayers-1.Verificationoftheexperi mentaltechnique[J].Corros.Sci.,1990,30(6/7):681
[11]ZouF ,HanW ,LongK ,etal.DeterminationofKelvinpotentialbylinearregression[J].Corros.Sci.Prot.Technol.,1995,7(1):17(邹峰,韩薇,龙康等.线性回归法进行Kelvin电位测试[J].腐蚀科学与防护技术,1995,7(1):17)
[12]ZouF ,HanW .ElectrochemicalstudyofmetalsunderthinelectrolytelayerwithKelvinprobemethod[J].Corros.Sci.Prot.Technol.,1995,7(3):192(邹峰,韩薇.利用Kelvin探针进行金属薄液层下电化学测量[J].腐蚀科学与防护技术,1995,7(3):192)
[13]WangJ .ElectrochemicalmeasurementsformarineatmosphericcorrosionstudiesusingKelvinprobereferenceelectrode[J].Chin.J.Oceanol.Limnol.,1996,14(3):266
[14]WangJ .Electrochemicalstudiesonthecathodicreactionofmarineat mosphericcorrosion[J].Chin.J .Oceanol.Limnol.,1996,14(4):291
[15]YeeS ,OrianiRA ,StratmannM .ApplicationofaKelvinmicroprobetothecorrosionofmetalsinhumidatmospheres[J].J.Electrochem.Soc.,1991,138(1):55
[16]AtanasoskiRT ,HuangSM ,AlbaniO ,etal.Adryredoxcoupleem ployedasthereferencematerialinworkfunctionandcorrosionpotentialmeasurementsbytheKelvintechnique[J].Corros.Sci.,1994,36(9):1513
[17]YasutakeM ,AokiD ,FujihiraM .SurfacepotentialmeasurementsusingtheKelvinprobeforcemicroscope[J].ThinSolidFilms,1996,273(1/2):279
[18]StratmannM ,StreckelH .Monitoringofblisteringoforganiccoatingsbyacontact-freemeasurement[J].WerkstoffeundKorrosion,1992,43:316
[19]StratmannM ,WolpersM ,StreckelH ,etal.Useofascanning-Kelvinprobeintheinvestigationofelectrochemicalreactionsatthemetal/poly merinterface[J].Ber.BunsengesPhys.Chem.,1991,95:1365
[20]F櫣ｒｂｅｔｈＷ,StratmannM .InvestigationofthedelaminationofpolymerfilmsfromgalvanizedsteelwiththescanningKelvinprobe[J].Frese niusJanalChem.,1995,353:337
[21]F櫣ｒｂｅｔｈＷ,StratmannM .Thedelaminationofpolymericcoatingsfromelectrogalvanisedsteel-amechanisticapproach.part1:delaminationfromadefectwithintactzinclayer[J].Corros.Sci.,2001,43:207
[22]F櫣ｒｂｅｔｈＷ,StratmannM .Thedelaminationofpolymericcoatingsfromelectrogalvanisedsteel-amechanisticapproach.part2:delaminationfromadefectdowntosteel[J].Corros.Sci.,2001,43:229
[23]F櫣ｒｂｅｔｈＷ,StratmannM .Thedelaminationofpolymericcoatingsfromelectrogalvanisedsteel-amechanisticapproach.part3:delaminationkineticsandinfluenceofCO2[J].Corros.Sci.,2001,43:243
[24]LengA ,StreckelH ,StratmannM .Thedelaminationofpolymericcoat ingsfromsteel.part1:calibrationoftheKelvinprobeandbasicdelami nationmechanism[J].Corros.Sci.,1999,41:547
[25]LengA ,StreckelH ,StratmannM .Thedelaminationofpolymericcoat ingsfromsteel.part2:firststageofdelamination,effectoftypeandcon centrationofcationsondelamination,chemicalanalysisoftheinterface[J].Corros.Sci.,1999,41:579
[26]LengA ,StreckelH ,StratmannM .Thedelaminationofpolymericcoat ingsfromsteel.part3:effectoftheoxygenpartialpressureonthede laminationreactionandcurrentdistributionatthemetal/polymerinter face[J].Corros.Sci.,1999,41:599
[27]WolpersM ,StratmannM ,ViefhausH ,etal.ThestructureandstabilityofmetalsurfacesmodifiedbysilaneLangmuir-Blodgettfilms[J].ThinSolidFilms,1992,210/211:592
[28]SchmidtW ,StratmannM .ScanningKelvinprobeinvestigationsoffili formcorrosiononaluminumalloy2024-T3[J].Corros.Sci.,1998,40(8):1441
[29]LobnigRE ,SiconolfiDJ,Psota-KeltyL ,etal.Atmosphericcorrosionofzincinthepresenceofammoniumsulfateparticles[J].J .Elec trochem.Soc.,1994,141(1):2935
[30]LobnigRE ,SiconolfiDJ,Psota-KeltyL ,etal.Atmosphericcorrosionofaluminuminthepresenceofammoniumsulfateparticles[J].J .Elec trochem.Soc.,1996,143(4):1176
[31]LobnigRE ,SiconolfiDJ ,Psota-KeltyL ,etal.Mechanismofatmo sphericcorrosionofcopperinthepresenceofsubmicronammoniumsul fateparticlesat300and373K[J].J.Electrochem.Soc.,1996,143(5):1539
[32]StratmannM ,BohnenkampK ,RamchandranT .Theinfluenceofcopperupontheatmosphericcorrosionofiron[J].Corros.Sci.,1987,27(9):905
[33]StratmannM ,StreckelH .Ontheatmosphericcorrosionofmetalswhicharecoveredwiththinelectrolytelayers-2.experimentalresults[J].Corros.Sci.,1990,30(6/7):697
[34]KamimuraT ,StratmannM .Theinfluenceofchromiumontheatmo sphericcorrosionofsteel[J].Corros.Sci.,2001,43:429
[35]WangJ ,TsuruT .Aninvestigationonoxygenreductionunderthinelec trolytelayerusingKelvinprobereferenceelectrode[J].J .Chin.Soc.Corros.Prot.,1995,15(3):179(王佳,水流彻.使用Kelvin探头参比电极技术研究液层厚度对氧还原速度的影响[J].中国腐蚀与防护学报,1995,15(3):179)
[36]YamashitaM ,NaganoH ,OrianiRA .Dependenceofcorrosionpotentialandcorrosionrateofalow-alloysteelupondepthofaqueoussolution[J].Corros.Sci.,1998,40(9):1447
[37]MasudaH .Effectofmagnesiumchlorideliquidthicknessonatmosphericcorrosionofpureiron[J].Corrosion,2001,57(2):99
[38]HanLT ,MansfeldF .ScanningKelvinprobeanalysisofweldedstainlesssteel[J].Corros.Sci.,1997,39(1):199
[39]NazarovA ,ThierryD .Analysisofsurfacecarboncontaminationonphos phatedzincsurfacesbyscanningKelvinprobemeasurements[J].J.Electrochem.Soc.,1998,145(3):L39
[40]LengA ,StratmannM .Theinhibitionoftheatmosphericcorrosionofironbyvapour-phase-inhibitors[J].Corros.Sci.,1993,34(10):1657
[41]GrundmeierG ,StratmannM .Influenceofoxygenandargonplasmatreatmentsonthechemicalstructureandredoxstateofoxidecoverediron[J].Appl.Surf.Sci.,1999,141:43-56

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