使用锌-碳钢异材质丝柬电极技术,模拟并研究了锌/钢电偶腐蚀不同阶段的电位和电流密度的空间分布.结果表明,在锌丝与钢丝面积比为10:1的情况下,锌丝能给钢丝提供足够的阴极保护,且锌丝之间存在明显的电位、电流分布不均现象;钢丝之间也存在电化学参数分布不均现象,而且在受到保护的同时钢丝表面有氢析出.
参考文献
| [1] | H.E.Townsend,A.R.Borzillo,Thirty-year atmospheric corrosion performance of 55 aluminum-zinc alloy coated sheet steel,Materials Performance,35(4),30(1996) |
| [2] | E.Dubuisson,P.Lavie,F.Dalard,Corrosion of galvanised steel under an electrolytic drop,Corrosion Science,49(2),910(2007) |
| [3] | Y.LI,Corrosion behaviour of hot dip zinc and zincaluminium coatings on steel in seawater,Bulletin of Materials Sciences,24(4),355(2001) |
| [4] | ZHANG Jie,YU Zhenhua,LI Yan,Corrosion behavior of hot-dipped Zn-55%Al-Si coated steel wires in seawater,Chinese Journal of Materials Research,22(4),347(2008) (张杰,于振花,李焰,Zn-55%Al-Si合金镀层钢丝在海水中的耐蚀性能,材料研究学报,22(4),347(2008)) |
| [5] | K.R.Baldwin,M.J.Robinson,C.J.E.Smith,The Corrosion-resistance of electrodeposited zinc nickelalloy coatings,Corrosion science,35(5-8),1267(1993) |
| [6] | G.A.El-Mahdy,A.Nishikata,T.Tsuru,Electrochemical corrosion monitoring of galvanized steel under cyclic wetdry conditions,Corrosion Science,42(1),183(2000) |
| [7] | J.M.Lee,Numerical analysis of galvanic corrosion of Zn/Fe interface beneath a thin electrolyte,Electrochimica Acta,51(16),3256(2006) |
| [8] | E.Palma,J.M.Puente,M.Murcillo,The atmospheric corrosion mechanism of 55% Al-Zn coating on steel,Corrosion Science,40(1),61(1998) |
| [9] | Y.J.Tan,Wire beam electrode:A new tool for studying Io calised corrosion and other heterogeneous electrochemical processes,Corrosion Science,41(2),229(1999) |
| [10] | Q.D.Zhong,Electrochemical technique for investigating temporarily protective oil coatings,Progress in Organic Coatings,30(4),213(1997) |
| [11] | Q.Le Thu,G.Bonnet,C.Compere,Modified wire beam electrode:a useful tool to evaluate compatibility between organic coatings and cathodic protection,Progress in Organic Coatings,52(2),118(2005) |
| [12] | X.Zhang,W.Wang,J.Wang,A novel device for the wire beam electrode method and its application in the ennoblement study,Corrosion Science,51(6),1475(2009) |
| [13] | A.Tahaxa,T.Kodama,Potential distribution measurement in galvanic corrosion of Zn/Fe couple by means of Kelvin probe,Corrosion science,42(4),655(2000) |
| [14] | A.P.Yadav,H.Katayama,K.Noda,H.Masuda,A.Nishikata,T.Tsuru,Surface potential distribution over a zinc/steel galvanic couple corroding under thin layer of electrolyte,Electrochimica Acta,52(9),3121(2007) |
| [15] | R.Adzic,in Electrocatalysis,J.Lipkowski,P.N.Boss,Eds.(New York,Wiley-VCH,1998),p.197 |
| [16] | M.B.Vukmirovic,N.Vasiljevic,N.Dimitrov,K.Sieradzki,Diffusion-limited current density of oxygen reduction on copper,Journal of the electrochemical society,150(1),B10(2003) |
| [17] | LI Yan,LIU Meng,ZHANG Yuzhi,ZHANG Dalei,Hydrogen permeation and embrittlcment of hot-dip galvanized steel exposed to seawater,The Chinese Journal of Nonferrous Metals,Accepted.(李焰,刘猛,张玉志,张大磊,热镀锌钢材在海水中的氢渗透行为和脆性研究,中国有色金属学报,已录用) |
| [18] | G.Salvago,G.Bollini,Localized corrosion probability in stainless steels after cathodic proteetion in seawater,Corrosion,55(4),397(1999) |
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