扫描振动电极技术在腐蚀领域的应用进展
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摘要
概述了扫描振动电极技术的基本原理,并重点对该技术在材料局部腐蚀、缓蚀剂和涂层性能评价等方面的应用进展进行了阐述,最后对其目前应用的局限性进行了总结。
In this paper, the basic principle of scanning vibrating electrode technique is simply interpreted. Especially, the research progress of scanning vibrating electrode technique in the field related with localized corrosion of materials, inhibitor and evaluation of coating performance is illustrated. In the end, the relevant limitations are summarized for the application of the technique.
In this paper, the basic principle of scanning vibrating electrode technique is simply interpreted. Especially, the research progress of scanning vibrating electrode technique in the field related with localized corrosion of materials, inhibitor and evaluation of coating performance is illustrated. In the end, the relevant limitations are summarized for the application of the technique.
引文
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[5]Müller W D,Nascimento M L,Zeddies M,et al.Magnesium and its alloys as degradable biomaterials.Corrosion studies using potentiodynamic and EIS electrochemical techniques[J].Mater.Res.,2007,10:5
[6]Liu X W,Xiong J P,Lv Y W,et al.Study on corrosion electrochemical behavior of several different coating systems by EIS[J].Prog.Org.Coat.,2009,64:497
[7]Fan L,Ding K K,Guo W M,et al.Effect of hydrostatic pressure and pre-stress on corrosion behavior of a new type Ni-Cr-Mo-V high strength steel[J].Acta Metall.Sin.,2016,52:679(范林,丁康康,郭为民等.静水压力和预应力对新型Ni-Cr-Mo-V高强钢腐蚀行为的影响[J].金属学报,2016,52:679)
[8]Bastos A C,Sim?es A M,Ferreiraa M G.Corrosion of electrogalvanized steel in 0.1 M Na Cl studied by SVET[J].Port.Electrochim.Acta,2003,21:371
[9]Oltra R,Maurice V,Akid R,et al.Local Probe Techniques for Corrosion Research[M].Cambridge:Woodhead Publishing Limited,2007
[10]Deshpande K B.Experimental investigation of galvanic corrosion:comparison between SVET and immersion techniques[J].Corros.Sci.,2010,52:2819
[11]Sim?es A M,Bastos A C,Ferreira M G,et al.Use of SVET and SECM to study the galvanic corrosion of an iron-zinc cell[J].Corros.Sci.,2007,49:726
[12]Souto R M,González-García Y,Bastos A C,et al.Investigating corrosion processes in the micrometric range:A SVET study of the galvanic corrosion of zinc coupled with iron[J].Corros.Sci.,2007,49:4568
[13]Battocchi D,He J,Bierwagen G P,et al.Emulation and study of the corrosion behavior of Al alloy 2024-T3 using a wire beam electrode(WBE)in conjunction with scanning vibrating electrode technique(SVET)[J].Corros.Sci.,2005,47:1165
[14]Donatus U,Thompson G E,Liu H,et al.Understanding the galvanic interactions between AA2024T3 and mild steel using the scanning vibrating electrode technique[J].Mater.Chem.Phys.,2015,161:228
[15]Deshpande K B.Effect of aluminium spacer on galvanic corrosion between magnesium and mild steel using numerical model and SVET experiments[J].Corros.Sci.,2012,62:184
[16]Vuillemin B,Philippe X,Oltra R,et al.SVET,AFM and AES study of pitting corrosion initiated on Mn S inclusions by microinjection[J].Corros.Sci.,2003,45:1143
[17]Krawiec H,Vignal V,Oltra R.Use of the electrochemical microcell technique and the SVET for monitoring pitting corrosion at Mn S inclusions[J].Electrochem.Commun.,2004,6:655
[18]Manhabosco S M,Pritzel dos Santosá,Marcolin M L,et al.Localized corrosion of laser marked M340 martensitic stainless steel for biomedical applications studied by the scanning vibrating electrode technique under polarization[J].Electrochim.Acta,2016,200:189
[19]Wang L W,Du C W,Liu Z Y,et al.SVET characterization of localized corrosion of welded X70 pipeline steel in acid solution[J].Corros.Prot.,2012,33:935(王力伟,杜翠薇,刘智勇等.X70钢焊接接头在酸性溶液中的局部腐蚀SVET研究[J].腐蚀与防护,2012,33:935)
[20]Wang S Y,Ding J,Ming H L,et al.Characterization of low alloy ferritic steel-Ni base alloy dissimilar metal weld interface by SPM techniques,SEM/EDS,TEM/EDS and SVET[J].Mater.Charact.,2015,100:50
[21]Wang L W,Liu Z Y,Cui Z Y,et al.In situ corrosion characterization of simulated weld heat affected zone on API X80 pipeline steel[J].Corros.Sci.,2014,85:401
[22]Wang L W,Li X G,Du C W,et al.In-situ corrosion characterization of API X80 steel and its corresponding HAZ microstructures in an acidic environment[J].J.Iron Steel Res.Int.,2015,22:135
[23]Luo S J,Wang R.Identification of the selective corrosion existing at the seam weld of electric resistance-welded pipes[J].Corros.Sci.,2014,87:517
[24]Manhabosco S M,Batista R J C,Silva S N D,et al.Determination of current maps by SVET of hot-dip galvanized steel under simultaneous straining[J].Electrochim.Acta,2015,168:89
[25]Zhang G A,Cheng Y F.Micro-electrochemical characterization and Mott-Schottky analysis of corrosion of welded X70 pipeline steel in carbonate/bicarbonate solution[J].Electrochim.Acta,2009,55:316
[26]Zhang G A,Cheng Y F.Micro-electrochemical characterization of corrosion of welded X70 pipeline steel in near-neutral p H solution[J].Corros.Sci.,2009,51:1714
[27]Xu L Y,Cheng Y F.Corrosion of X100 pipeline steel under plastic strain in a neutral p H bicarbonate solution[J].Corros.Sci.,2012,64:145
[28]Sun M,Xiao K,Dong C F,et al.Effect of stress on electrochemical characteristics of pre-cracked ultrahigh strength stainless steel in acid sodium sulphate solution[J].Corros.Sci.,2014,89:137
[29]Mouanga M,Andreatta F,Druart M E,et al.A localized approach to study the effect of cerium salts as cathodic inhibitor on iron/aluminum galvanic coupling[J].Corros.Sci.,2015,90:491
[30]Coelho L B,Mouanga M,Druart M E,et al.A SVET study of the inhibitive effects of benzotriazole and cerium chloride solely and combined on an aluminium/copper galvanic coupling model[J].Corros.Sci.,2016,110:143
[31]Sim?es A M,Fernandes J C S.Studying phosphate corrosion inhibition at the cut edge of coil coated galvanized steel using the SVET and EIS[J].Prog.Org.Coat.,2010,69:219
[32]Bastos A C,Ferreira M G,Sim?es A M.Corrosion inhibition by chromate and phosphate extracts for iron substrates studied by EIS and SVET[J].Corros.Sci.,2006,48:1500
[33]Marques A G,Sim?es A M.EIS and SVET assessment of corrosion resistance of thin Zn-55%Al-rich primers:Effect of immersion and of controlled deformation[J].Electrochim.Acta,2014,148:153
[34]Yan M C,Gelling V J,Hinderliter B R,et al.SVET method for characterizing anti-corrosion performance of metal-rich coatings[J].Corros.Sci.,2010,52:2636
[35]Gustavsson J M,Innis P C,He J,et al.Processable polyanilineHCSA/poly(vinyl acetate-co-butyl acrylate)corrosion protection coatings for aluminium alloy 2024-T3:A SVET and Raman study[J].Electrochim.Acta,2009,54:1483
[36]Sim?es A,Battocchi D,Tallman D,et al.Assessment of the corrosion protection of aluminium substrates by a Mg-rich primer:EIS,SVET and SECM study[J].Prog.Org.Coat.,2008,63:260
[37]Tedim J,Bastos A C,Kallip S,et al.Corrosion protection of AA2024-T3 by LDH conversion films.Analysis of SVET results[J].Electrochim.Acta,2016,210:215
[38]Gnedenkov A S,Sinebryukhov S L,Mashtalyar D V,et al.Localized corrosion of the Mg alloys with inhibitor-containing coatings:SVET and SIET studies[J].Corros.Sci.,2016,102:269
[39]Bastos A C,Zheludkevich M L,Ferreira M G S.A SVET investigation on the modification of zinc dust reactivity[J].Prog.Org.Coat.,2008,63:282
[40]de Vooys A,van der Weijde H.Investigating cracks and crazes on coated steel with simultaneous SVET and EIS[J].Prog.Org.Coat.,2011,71:250
[41]Tian Z H,Shi H W,Liu F C,et al.Inhibiting effect of 8-hydroxyquinoline on the corrosion of silane-based sol-gel coatings on AA2024-T3[J].Prog.Org.Coat.,2015,82:81
[2]Peng X,Wang J,Shan C,et al.Corrosion behavior of long-time immersed rusted carbon steel in flowing seawater[J].Acta Metall.Sin.,2012,48:1260(彭欣,王佳,山川等.带锈碳钢在流动海水中的长期腐蚀行为[J].金属学报,2012,48:1260)
[3]Zou Y,Zheng Y Y,Wang Y H,et al.Cathodic electrochemical behaviors of mild steel in seawater[J].Acta Metall.Sin.,2010,46:123(邹妍,郑莹莹,王燕华等.低碳钢在海水中的阴极电化学行为[J].金属学报,2010,46:123)
[4]Liao X N,Cao F H,Zheng L Y,et al.Corrosion behaviour of copper under chloride-containing thin electrolyte layer[J].Corros.Sci.,2011,53:3289
[5]Müller W D,Nascimento M L,Zeddies M,et al.Magnesium and its alloys as degradable biomaterials.Corrosion studies using potentiodynamic and EIS electrochemical techniques[J].Mater.Res.,2007,10:5
[6]Liu X W,Xiong J P,Lv Y W,et al.Study on corrosion electrochemical behavior of several different coating systems by EIS[J].Prog.Org.Coat.,2009,64:497
[7]Fan L,Ding K K,Guo W M,et al.Effect of hydrostatic pressure and pre-stress on corrosion behavior of a new type Ni-Cr-Mo-V high strength steel[J].Acta Metall.Sin.,2016,52:679(范林,丁康康,郭为民等.静水压力和预应力对新型Ni-Cr-Mo-V高强钢腐蚀行为的影响[J].金属学报,2016,52:679)
[8]Bastos A C,Sim?es A M,Ferreiraa M G.Corrosion of electrogalvanized steel in 0.1 M Na Cl studied by SVET[J].Port.Electrochim.Acta,2003,21:371
[9]Oltra R,Maurice V,Akid R,et al.Local Probe Techniques for Corrosion Research[M].Cambridge:Woodhead Publishing Limited,2007
[10]Deshpande K B.Experimental investigation of galvanic corrosion:comparison between SVET and immersion techniques[J].Corros.Sci.,2010,52:2819
[11]Sim?es A M,Bastos A C,Ferreira M G,et al.Use of SVET and SECM to study the galvanic corrosion of an iron-zinc cell[J].Corros.Sci.,2007,49:726
[12]Souto R M,González-García Y,Bastos A C,et al.Investigating corrosion processes in the micrometric range:A SVET study of the galvanic corrosion of zinc coupled with iron[J].Corros.Sci.,2007,49:4568
[13]Battocchi D,He J,Bierwagen G P,et al.Emulation and study of the corrosion behavior of Al alloy 2024-T3 using a wire beam electrode(WBE)in conjunction with scanning vibrating electrode technique(SVET)[J].Corros.Sci.,2005,47:1165
[14]Donatus U,Thompson G E,Liu H,et al.Understanding the galvanic interactions between AA2024T3 and mild steel using the scanning vibrating electrode technique[J].Mater.Chem.Phys.,2015,161:228
[15]Deshpande K B.Effect of aluminium spacer on galvanic corrosion between magnesium and mild steel using numerical model and SVET experiments[J].Corros.Sci.,2012,62:184
[16]Vuillemin B,Philippe X,Oltra R,et al.SVET,AFM and AES study of pitting corrosion initiated on Mn S inclusions by microinjection[J].Corros.Sci.,2003,45:1143
[17]Krawiec H,Vignal V,Oltra R.Use of the electrochemical microcell technique and the SVET for monitoring pitting corrosion at Mn S inclusions[J].Electrochem.Commun.,2004,6:655
[18]Manhabosco S M,Pritzel dos Santosá,Marcolin M L,et al.Localized corrosion of laser marked M340 martensitic stainless steel for biomedical applications studied by the scanning vibrating electrode technique under polarization[J].Electrochim.Acta,2016,200:189
[19]Wang L W,Du C W,Liu Z Y,et al.SVET characterization of localized corrosion of welded X70 pipeline steel in acid solution[J].Corros.Prot.,2012,33:935(王力伟,杜翠薇,刘智勇等.X70钢焊接接头在酸性溶液中的局部腐蚀SVET研究[J].腐蚀与防护,2012,33:935)
[20]Wang S Y,Ding J,Ming H L,et al.Characterization of low alloy ferritic steel-Ni base alloy dissimilar metal weld interface by SPM techniques,SEM/EDS,TEM/EDS and SVET[J].Mater.Charact.,2015,100:50
[21]Wang L W,Liu Z Y,Cui Z Y,et al.In situ corrosion characterization of simulated weld heat affected zone on API X80 pipeline steel[J].Corros.Sci.,2014,85:401
[22]Wang L W,Li X G,Du C W,et al.In-situ corrosion characterization of API X80 steel and its corresponding HAZ microstructures in an acidic environment[J].J.Iron Steel Res.Int.,2015,22:135
[23]Luo S J,Wang R.Identification of the selective corrosion existing at the seam weld of electric resistance-welded pipes[J].Corros.Sci.,2014,87:517
[24]Manhabosco S M,Batista R J C,Silva S N D,et al.Determination of current maps by SVET of hot-dip galvanized steel under simultaneous straining[J].Electrochim.Acta,2015,168:89
[25]Zhang G A,Cheng Y F.Micro-electrochemical characterization and Mott-Schottky analysis of corrosion of welded X70 pipeline steel in carbonate/bicarbonate solution[J].Electrochim.Acta,2009,55:316
[26]Zhang G A,Cheng Y F.Micro-electrochemical characterization of corrosion of welded X70 pipeline steel in near-neutral p H solution[J].Corros.Sci.,2009,51:1714
[27]Xu L Y,Cheng Y F.Corrosion of X100 pipeline steel under plastic strain in a neutral p H bicarbonate solution[J].Corros.Sci.,2012,64:145
[28]Sun M,Xiao K,Dong C F,et al.Effect of stress on electrochemical characteristics of pre-cracked ultrahigh strength stainless steel in acid sodium sulphate solution[J].Corros.Sci.,2014,89:137
[29]Mouanga M,Andreatta F,Druart M E,et al.A localized approach to study the effect of cerium salts as cathodic inhibitor on iron/aluminum galvanic coupling[J].Corros.Sci.,2015,90:491
[30]Coelho L B,Mouanga M,Druart M E,et al.A SVET study of the inhibitive effects of benzotriazole and cerium chloride solely and combined on an aluminium/copper galvanic coupling model[J].Corros.Sci.,2016,110:143
[31]Sim?es A M,Fernandes J C S.Studying phosphate corrosion inhibition at the cut edge of coil coated galvanized steel using the SVET and EIS[J].Prog.Org.Coat.,2010,69:219
[32]Bastos A C,Ferreira M G,Sim?es A M.Corrosion inhibition by chromate and phosphate extracts for iron substrates studied by EIS and SVET[J].Corros.Sci.,2006,48:1500
[33]Marques A G,Sim?es A M.EIS and SVET assessment of corrosion resistance of thin Zn-55%Al-rich primers:Effect of immersion and of controlled deformation[J].Electrochim.Acta,2014,148:153
[34]Yan M C,Gelling V J,Hinderliter B R,et al.SVET method for characterizing anti-corrosion performance of metal-rich coatings[J].Corros.Sci.,2010,52:2636
[35]Gustavsson J M,Innis P C,He J,et al.Processable polyanilineHCSA/poly(vinyl acetate-co-butyl acrylate)corrosion protection coatings for aluminium alloy 2024-T3:A SVET and Raman study[J].Electrochim.Acta,2009,54:1483
[36]Sim?es A,Battocchi D,Tallman D,et al.Assessment of the corrosion protection of aluminium substrates by a Mg-rich primer:EIS,SVET and SECM study[J].Prog.Org.Coat.,2008,63:260
[37]Tedim J,Bastos A C,Kallip S,et al.Corrosion protection of AA2024-T3 by LDH conversion films.Analysis of SVET results[J].Electrochim.Acta,2016,210:215
[38]Gnedenkov A S,Sinebryukhov S L,Mashtalyar D V,et al.Localized corrosion of the Mg alloys with inhibitor-containing coatings:SVET and SIET studies[J].Corros.Sci.,2016,102:269
[39]Bastos A C,Zheludkevich M L,Ferreira M G S.A SVET investigation on the modification of zinc dust reactivity[J].Prog.Org.Coat.,2008,63:282
[40]de Vooys A,van der Weijde H.Investigating cracks and crazes on coated steel with simultaneous SVET and EIS[J].Prog.Org.Coat.,2011,71:250
[41]Tian Z H,Shi H W,Liu F C,et al.Inhibiting effect of 8-hydroxyquinoline on the corrosion of silane-based sol-gel coatings on AA2024-T3[J].Prog.Org.Coat.,2015,82:81