Fe在水溶液中形成钝化膜的结构和性质

中国腐蚀与防护学报

2003, Vol. 23

Issue (3): 187-192

综述

本期目录 | 过刊浏览

Fe在水溶液中形成钝化膜的结构和性质

蔡松崎;李伟善;J L Luo

广州华南师范大学化学系

STRUCTURE AND PROPERTIES OF PASSIVE FILMSFORMED ON IRON IN AQUEOUS ENVIRONMENTS

Songqi Cai;Weishan Li;

广州华南师范大学化学系

全文: PDF(193 KB)

摘要:

从发现钝化现象至今的近两个世纪，Fe钝化膜的结构和性质一直是电化学和材料科学的研究热点.简要概括了Fe表面钝化膜研究的意义及历史，综述了Fe在不同溶液中通过不同方法形成钝化膜的结构与性质的研究过程及现状.在研究过程中已经提出过4种关于Fe在水溶液中形成钝化膜结构模型，但由于实验技术和方法的局限性，这些模型并未能真正反映Fe钝化膜的真实面貌.随着先进技术及方法的引入，对Fe钝化膜的微观结构、组成及防腐机制等的认识越来越深刻.

关键词 ： Fe, 钝化膜, 结构, 性质

Abstract：

Structures and properties of the passive films form ed on iron in aqueous environments have been the hot topic of the electrochemist ry and materials science for two centuries from discovering the passivation phen o menon.In this paper,the significance and history about the research on the passi ve film formed on iron are introduced in brief,processes and advances in researc h on the passive film formed on iron in various aqueous environments by differen t techniques are reviewed.Four different passive film models were developed in t he history of iron passivity research,but neither of them could reflect the true nature of the passive film due to the limits of the experimental techniques and methods.With the introducing of the advanced technologies and methods,the true nature of the passive film on iron and the mechanism of the corrosion prevention for iron by passivity have been understood better and better.

Key words： iron passive film structure property

收稿日期: 2001-11-08

ZTFLH:

TG178

通讯作者: 蔡松崎

Corresponding author: Songqi Cai

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	蔡松崎
	李伟善
	J.L.Luo
44.8K

引用本文:

蔡松崎; 李伟善; J.L.Luo . Fe在水溶液中形成钝化膜的结构和性质[J]. 中国腐蚀与防护学报, 2003, 23(3): 187-192 .
Songqi Cai, Weishan Li. STRUCTURE AND PROPERTIES OF PASSIVE FILMSFORMED ON IRON IN AQUEOUS ENVIRONMENTS. J Chin Soc Corr Pro, 2003, 23(3): 187-192 .

链接本文:

https://www.jcscp.org/CN/ 或 https://www.jcscp.org/CN/Y2003/V23/I3/187

[1]　UhligHH .PassivityofMetals[M ].Princeton:R .P .FrankenthalandJ.Kruger,1983
[2]　DavenportAJ,etal.Thestructureofthepassivefilmthatformsonironinaqueousenvironments[J].J.Electrochem.Soc.,2000,147:2162-2173
[3]　FaradayM .Experimentalresearchesinelectricity[M ].NewYork:Dover,1965
[4]　EvansUR .Thepassivityofmetals[J].J .Chem.Soc.,1927,127:1020-1040
[5]　WeiBaoming.TheoryandApplicationofMetal[M ].Beijing:ChemicalIndustryPress,1984,124(魏宝明.金属腐蚀理论及应用[M ].北京:化学工业出版社,1984,124)
[6]　Szklarska-SmialowskaZ .Pittingcorrosionofmetals[A].Texas77084:NationalAssociationofCorrosionEngineers[C].Hous ton,1986
[7]　MayneJEO ,PryorMJ.Themechanismofinhibitionofcorrosionofironbychromicacidandpotassiumchromate[J].J .Chem.Soc.,1949:1831-1835
[8]　CohenM .Anelectrondiffractionstudyoffilmsformedbysodiumnitritesolutiononiron[J].J.Phys.Chem.,1952,56:451-453
[9]　FoleyCL ,etal.Electrondiffractionstudiesofactive,passive,andtranspassiveoxidefilmsformedoniron[J].J.Electrochem.Soc.,1967,114:994-1001
[10]　BockrisJO’M ,etal.Themechanismofthepassivationofironinneutralsolutions:Anellipsometricandcoulometricinvestigation[J].Electrochim.Acta,1971,16:1859-1894
[11]　AkimovAG ,etal.Spectroscopicstudyofthesurfaceofanironelectrodeinaneutralsolution[J].ZashchitaMetallov,1976,12(2):167-169
[12]　RevieRW ,etal.Degradedpassivefilmoniron:applicationofA櫣ｇｅｒｅｌｅｃｔｒｏｎｓｐｅｃｔｒｏｓｃｏｐｙ[J].Surf.Sci.,1975,52(3):664-669
[13]　RevieRW ,etal.Thepassivefilmoniron:anapplicationofA櫣ｇｅｒｅｌｅｃｔｒｏｎｓｐｅｃｔｒｏｓｃｏｐｙ[J].J.Electrochem.Soc.,1975,122:1460-1466
[14]　O’GradyWE ,etal.InterpretationofM ssbauerspectraofpas sivefilmsonmetals[J].Surf.Sci.,1973,38:249-251
[15]　BloomMG ,etal.γ-Fe2O3andthepassivityofiron[J].Cor ros.Sci.,1965,5:623-630
[16]　WagnerC .Modelsforlatticedefectsinoxidelayeronpassivatedironandnickel[J].Phys.Chem.,1973,77:1090-1097
[17]　NagayamaM ,CohenM .TheanodicoxidationofironinaneutralsolutionⅠ.Thenatureandcompositionofthepassivefilm[J].J.Electrochem.Soc.,1962,109:781-790
[18]　NagayamaM ,CohenM .TheanodicoxidationofironinaneutralsolutionⅡ.EffectofferrousionandpHonthebehaviorofpas siveiron[J].J.Electrochem.Soc.,1963,110:670-680
[19]　KrugerJ ,CalvertJ .Ellipsometric-potentiostaticstudiesofironpassivityⅠ.anodicfilmgrowthinslightlybasicsolutions[J].J .Electrochem.Soc.,1967,114:43-48
[20]　VetterKJ.Ageneralthermodynamictheoryofthepotentialofpassiveelectrodesanditsinfluenceonpassivecorrosion[J].J .Electrochem.Soc.,1963,110:597-605
[21]　HoFC ,OrdJL .Theanodicoxideofiron:itscomponentlayersandtheirproperties[J].J.Electrochem.Soc.,1972,119:139-145
[22]　TsuruT ,HaruyamaS .Aresistometricstudyofthepassivefilmonanevaporatedironelectrode[J].Corros.Sci.,1976,16:623-635
[23]　SatoN .KudoK .Ellipsometryofthepassivefilmonironinneu tralsolution[J].Electrochim.Acta,1971,16:447-462
[24]　SatoN ,etal.Theanodicoxidefilmonironinneutralsolution[J].Electrochim.Acta,1971,16:1909-1921
[25]　SatoN ,etal.Anodicpassivatingfilmsonironinphosphateandboratesolutions[J].Z .Phys.Chem.NF ,1975,98:271-284
[26]　RobinsonJ ,WalshFC .Insitusynchrotronradiationx-raytechniquesforstudiesofcorrosionandprotection[J].Corros.Sci.,1993,35:791-800
[27]　GuiJ,DevineTM .Insituvibrationalspectraofthepassivefilmonironinbufferedboratesolution[J].Corros.Sci.,1991,32:1105-1124
[28]　O’GradyWE .M ssbauerstudyofthepassiveoxidefilmoniron[J].J.Electrochem.Soc.,1980,127:555-563
[29]　KerkarM ,etal.Insitustructualstudiesofthepassivefilmonironandiron/chromiumalloysusingx-rayadsorptionspec troscopy[J].FaradayDiscuss.Chem.Soc.,1990,89:31-40
[30]　KrugerJ ,etal.StructuralstudiesofpassivefilmsusingsurfaceEXAFS[A ].FranceB ,FromentM .PassivityofMetalsandSemiconductors[C].NewYork:ElsevierScience,1983.163-168
[31]　LongGG ,etal.EXAFSstudyofthepassivefilmoniron[J].J.Electrochem.Soc.,1983,130:240-242
[32]　LongGG ,etal.Structureofpassivefilmsonironusinganewsurface-EXAFStechnique[J].J .Electroanal.Chem.,1983,150:603-610
[33]　OblonskyAJ,SansoneM .HighresolutioninsituXANESinves tigationofthenatureofthepassivefilmonironinapH 8.4bo ratebuffer[J].J.Electrochem.Soc.,1995,142:725-730
[34]　SchroederV ,DevineTM .SurfaceenhancedRamanspectroscopystudyofthegalvanostaticreductionofthepassivefilmoniron[J].J .Electrochem.Soc.,1999,146:4061-4070
[35]　RubimJC ,DunwaldJ .EnhancedRamanscatteringfrompassivefilmsonsilver-coatedironelectrodes[J].J.Electroanal.Chem.,1989,258:327-344
[36]　GuiJ,DevineTM .Obtainingsurface-enhancedRamanspectrafromthepassivefilmoniron[J].J .Electrochem.Soc.,1991,138:1376-1384
[37]　OblonskyLJ ,DevineTM .AsurfaceenhancedRamanspectro scopicstudyofthepassivefilmsinboratebufferoniron,nickel,chromiumandstainlesssteel[J].Corros.Sci.,1995,37:17-41
[38]　OblonskyLJ,etal.SurfaceenhancedRamanspectroscopyofironoxidethinfilms:comparisonwiththepassivefilmoniron[J].J .Electrochem.Soc.,1997,144:1604-1609
[39]　SchmukiP ,etal.Insitux-rayabsorptionnear-edgespectro scopicstudyofthecathodicreductionofartificialironoxidepas sivefilms[J].J .Electrochem.Soc.,1996,143:574-582
[40]　KurodaK ,etal.Electrondiffractionstudyofthepassivefilmoniron[J].J.Electrochem.Soc.,1982,129:2163-2169
[41]　WellsMF .StructuralInorganicChemistry[M ].Oxford:Claren don,1984
[42]　GreavesC .APowderneutrondiffractioninvestigationofvacancyorderingandcovalence[J].J .SolidStateChem.,1983,49:325-333
[43]　ShmakovAN ,etal.Vacancyorderinginγ-Fe2O3:synchrotronx-raypowderdiffractionandhigh-resolutionelectronmi croscopystudies[J].J .Appl.Crystallogr.,1995,28:141-145
[44]　RyanMP ,etal.AnSTMstudyofthepassivefilmformedonironinboratebuffersolution[J].J.Electrochem.Soc.,1995,142:L177-L179
[45]　CastroPA ,etal.Surfaceelectrochemicaltransformationonspinelironoxideelectrodesinaqueoussolutions[J].J .Chem.Soc.FaradayTrans.,1996,92:3371-3379
[46]　TamauraY ,TabataM .Completereductionofcarbondioxidetocarbonusingcation-excessmagnetite[J].Nature,1990,346,255-256
[47]　HallEL ,BerkowitzAE .Microstructuraldefectsinparticles[J].J.Mater.Res.,1986,1:836-844
[48]　BerkowitzAE ,etal.Microstructure,relaxation,andprint-throughinγ-Fe2O3particles[J].J.Appl.Phys.,1985,57:3928-3933
[49]　MarguliesD ,etal.OriginoftheanomalousmagneticbehaviorinsinglecrystalFe3O4 films[J].Phys.Rev.Lett.,1997,79:5162-5165
[50]　FitzgeraldAG ,MayTG .Defectsinepitaxialferritefilmsgrownbychemicalvapourdeposition[J].ThinSolidFilms,1976,35:201-213

[1]	冉斗, 孟惠民, 刘星, 李全德, 巩秀芳, 倪荣, 姜英, 龚显龙, 戴君, 隆彬. pH对14Cr12Ni3WMoV不锈钢在含氯溶液中腐蚀行为的影响[J]. 中国腐蚀与防护学报, 2021, 41(1): 51-59.
[2]	史昆玉, 吴伟进, 张毅, 万毅, 于传浩. TC4表面沉积Nb涂层在模拟体液环境下的电化学性能研究[J]. 中国腐蚀与防护学报, 2021, 41(1): 71-79.
[3]	张浩, 杜楠, 周文杰, 王帅星, 赵晴. 模拟海水溶液中Fe³⁺对不锈钢点蚀的影响[J]. 中国腐蚀与防护学报, 2020, 40(6): 517-522.
[4]	于浩冉, 张文丽, 崔中雨. 4种镁合金在Cl^--NH₄⁺-NO₃^-溶液体系中的腐蚀行为差异研究[J]. 中国腐蚀与防护学报, 2020, 40(6): 553-559.
[5]	李聪玮, 杜双明, 曾志琳, 刘二勇, 王飞虎, 马付良. 电流密度对Ni-Co-B镀层微观结构及磨蚀性能的影响[J]. 中国腐蚀与防护学报, 2020, 40(5): 439-447.
[6]	闻洋, 熊林, 陈伟, 薛刚, 宋文学. 干湿循环下聚乙烯醇纤维混凝土抗Cl^-渗透性能研究[J]. 中国腐蚀与防护学报, 2020, 40(4): 381-388.
[7]	郑艳欣, 刘颖, 宋青松, 郑峰, 贾玉川, 韩培德. 含铁铜基陶瓷复合材料高温氧化行为与耐磨性研究[J]. 中国腐蚀与防护学报, 2020, 40(2): 191-198.
[8]	姜冬雪,付颖,张峻巍,张伟,辛丽,朱圣龙,王福会. 钛合金表面Al₂O₃陶瓷膜制备及性能研究[J]. 中国腐蚀与防护学报, 2019, 39(6): 469-476.
[9]	潘成成,马超,夏大海. EBSD技术研究金属材料晶体取向对大气腐蚀萌生的影响机理[J]. 中国腐蚀与防护学报, 2019, 39(6): 495-503.
[10]	张瑞,李雨,关蕾,王冠,王福雨. 热处理对激光选区熔化Ti6Al4V合金电化学腐蚀行为的影响[J]. 中国腐蚀与防护学报, 2019, 39(6): 588-594.
[11]	魏欣欣,张波,马秀良. FeCr₁₅Ni₁₅单晶600 ℃下热生长氧化膜的TEM观察[J]. 中国腐蚀与防护学报, 2019, 39(5): 417-422.
[12]	于美,魏新帝,范世洋,刘建华,李松梅,钟锦岩. 应力作用下2297铝锂合金腐蚀行为研究[J]. 中国腐蚀与防护学报, 2019, 39(5): 439-445.
[13]	史昆玉,张进中,张毅,万毅. Nb₂N涂层制备及其耐腐蚀性能研究[J]. 中国腐蚀与防护学报, 2019, 39(4): 313-318.
[14]	严少坤,郑大江,韦江,宋光铃,周廉. 钝性纯Ti在人工海水中的电化学活化行为研究[J]. 中国腐蚀与防护学报, 2019, 39(2): 123-129.
[15]	丰涵,宋志刚,吴晓涵,李惠,郑文杰,朱玉亮. 022Cr25Ni7Mo4N双相不锈钢选择性腐蚀行为与两相组织的关系研究[J]. 中国腐蚀与防护学报, 2019, 39(2): 138-144.

Viewed

Full text

Abstract

Cited

Shared

Discussed