利用室内模拟实验研究了交流电密度、电解质组分以及交流电频率对Q235钢腐蚀电位的影响规律.研究结果表明,交流电会使Q235钢腐蚀电位发生正向或负向偏移,偏移方向与Q235钢在不同电解质中阴、阳极极化速率有一定的相关性;偏移量随交流电密度增大而增大,随交流电频率增大而减小.结合金属界面双电层模型和腐蚀产物分析,对交流电引起Q235钢腐蚀电位偏移的机理进行了探讨.
参考文献
| [1] | Wakelin R G,Gummow R A,Segall S M.Corrosion-1998,Houston:NACE,1998:565 |
| [2] | Gummow R A,Wakelin R G,Segall S M.Corrosion-1998,Houston:NACE,1998:566 |
| [3] | Linhardt P,Ball G.Corrosion-2006,Houston: NACE,2006:160 |
| [4] | Wakelin R G.Corrosion-2004,Houston: NACE,2004:205 |
| [5] | Kim D K,Muralidharan S,Ha T H,Bae J H,Ha Y C,Lee H G,Scatlebury J D.Electrochim Acta,2006; 51:5259 |
| [6] | Muralidharan S,Kim D K,Ha T H,Bae J H,Ha Y C,Lee H G,Scantlebury J D.Desalination,2007; 216:103 |
| [7] | Ormellese M,Lazzari L,Brenna A.Corrosion-2010,Houston:NACE,2010:109 |
| [8] | Ormellese M, Lazzari L, Brenna A, Trombetta A.Corrosion-2010,Houston:NACE,2010:032 |
| [9] | Panossian Z,Filho S E A,de Almeida N L,Pereira Filho M L,Silva D D L,Laurino E W,Oliver J H D L,Pimenta G D S,Albertini J A D C.Corrosion-2009,Houston:NACE,2009:541 |
| [10] | Goidanich S,Lazzari L,Ormellese M.Corros Sci,2010;52:916 |
| [11] | Goidanich S,Lazzari L,Ormellese,M.Corros Sci,2010;52:491 |
| [12] | Bosch R W,Bogaerts W F.Corros Sci,1998; 40:323 |
| [13] | Lalvani S B,Lin X.Corros Sci,1996; 38:1709 |
| [14] | Bertocci U.Corrosion,1979; 35:211 |
| [15] | Fu A Q,Cheng Y F.Corros Sci,2010; 52:612 |
| [16] | Li Z L,Ding Q M,Zhang Y F,Li J J,Li S L.Corros Prot,2010; 31:436(李自力,丁清苗,张迎芳,李静静,李胜利.腐蚀与防护,2010;31:436) |
| [17] | Ying K H,Tang M H,Xiong X J.J Chin Soc Corros Prot,1982; 2:33(尹可华,唐明华,熊祥键.中国腐蚀与防护学报,1982;2:33) |
| [18] | Kulman F E.Corrosion,1961; 17(3):34 |
| [19] | Goidanich S, Lazzari L, Ormellese M, Pedeferri M.Corrosion-2005,Houston:NACE,2005:189 |
| [20] | Jones D A.Corrosion,1978; 34:428 |
| [21] | Cao C N.Principles of Electrochemistry of Corrosion.Beijing:Chemical Industry Press.2008:53(曹楚楠.腐蚀电化学原理.北京:化学工业出版社,2008:53) |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%