用去离子水和3.5%NaCl模拟和缓与苛刻的腐蚀环境,进行腐蚀环境交替变换的实验研究低合金耐候钢的大气腐蚀行为.结果表明,在和缓或苛刻的单-腐蚀条件下低合金耐候钢都不易形成致密的锈层,但交替腐蚀1个周期后,形成了致密的保护性锈层.在初期腐蚀环境苛刻、后期腐蚀环境和缓的试验条件下,与相反的试验条件相比,耐候钢能更快地形成更致密的锈层.
参考文献
[1] | S.Hara,T.Kamimura,H.Miyuki,M.Yamashita,Taxonomy for protective ability of rust layer using its composition formed on weathering steel bridge,Corrosion Science,49(3),1131 (2007) |
[2] | ZHANG Quancheng,WU Jiansheng,ZHENG Wenlong,WANG Jianjun,CHEN Jiaguang,Formation mechanism of protective rust on weathering steel,Corrosion Science and Protection Technology,13(3),143(2001)(张全成,吴建生,郑文龙,王建军,陈家光,耐候钢表面稳定锈层形成机理的研究,腐蚀科学与防护技术,13(3),143(2001)) |
[3] | Y.Y.Chen,H.J.Tzeng,L.I.Wei,L.H.Wang,J.C.Oung,H.C.Shih,Corrosion resistance and mechanical properties of low alloy steels under atmospheric conditions,Corrosion Science,47(4),1001 (2005) |
[4] | C.L.Li,Y.T.Ma,Y.Li,F.H.Wang,EIS monitoring study of atmospheric corrosion under variable relative humidity,Corrosion Science,52(11),3677(2010) |
[5] | A.P.Yadav,A.Nishikata,T.Tsuru,Electrochemical impedance study on galvanized steel corrosion under cyclic wet-dry conditions-influence of time of wetness,Corrosion Science,46(1),169(2004) |
[6] | S.Hara,M.Miura,Y.Uchiumi,T.Fujiwara,M.Yamamoto,Suppression of deicing salt corrosion of weathering steel bridges by washing,Corrosion Science,47(10),2419(2005) |
[7] | GU Jialin,YAN Rui,Jun Hisamoto,Fumio Yuse,Effect of exposed mode on atmospheric corrosion for carbon steel at Qingdao area,Material Engineering,(12),37(2009)(顾家琳,闫睿,久本淳,濑文雄,碳钢在青岛不同暴露方式下的大气腐蚀,材料工程,(12),37(2009)) |
[8] | LIU Lihong,LIMing,LI Xiaogang,LU Yanping,QI Huibin,A new coating stabilizing surface rust of weathering steel,Acta Metallurgica Sinica,40(11),1195(2004)(刘丽宏,李明,李晓刚,卢燕平,齐慧滨,耐候钢表面锈层稳定化处理用新型涂层研究,金属学报,40(11),1195(2004)) |
[9] | XIA Maosen,GUAN Xiaojun,JIANG Shanyu,Summary of study on weathering steel and its surface stabilizing treatment,Shandong Metallurgy,29(2),4(2007)(夏茂森,关小军,蒋善玉,耐大气腐蚀钢及表面稳定化处理的研究综述,山东冶金,29(2),4(2007)) |
[10] | X.H.Chen,J.H.Dong,E.H.Han,W.Ke,Effect of A1 alloying on corrosion performance of steel,Corrosion Engineering,Science and Technology,42(3),224(2007) |
[11] | T.Kamimura,S.Hara,H.Miyuki,M.Yamashita,H.Uchida,Composition and protective ability of rust layer formed on weathering steel exposed to various environments,Corrosion Science,48(9),2799(2006) |
[12] | HAN Wei,WANG Jun,WANG Zhenyao,YU Guocai,LI Hongxi,Study on atmospheric corrosion of low alloy steels,Journal of Chinese Society for Corrosion and Protection,24(3),147(2004)(韩薇,汪俊,王振尧,于国才,李洪锡,碳钢与低合金耐大气腐蚀规律研究,中国腐蚀与防护学报,24(3),147(2004)) |
[13] | J.H.Wang,F.I.Wei,Y.S.Chang,H.C.Shih,The corrosion mechanisms of carbon steel and weathering steel in SO2 polluted atmospheres,Materials Chemistry and Physics,47(1),1(1997) |
[14] | K.Asami,M.Kikuchi,In-depth distribution of rusts on a plain carbon steel and weathering steels exposed to coastl-industrial atmosphere for 17 years,Corrosion Science,45(11),2671(2003) |
[15] | O.Takuya,I.Yasuyuki,M.Tadashi,T.Ichiro,K.Yoshio,T.Yasuo,S.Shigeru,K.Hiroshi,I.Minoru,U.Akira,T.Kouji,M.Kazuhiro,Mossbauer studies on particle volume distribution of α-FeOOH in rust formed on weathering steel,Japanese Journal of Applied Physics,39(6A),3382(2000) |
[16] | M.Yamashita,H.Miyuki,Y.Matsuda,H.Naganoa,T.Misawa,The long term growth of the protective rust layer formed on weathering steel by atmospheric corrosion during a quarter of a century,Corrosion Science,36(2),283(1994) |
[17] | M.Kimura,H.Kihira,N.Ohta,M.Hashimoto,T.Senuma,Control of Fe(OOH)6 nano-network structures of rust for high atmospheric-corrosion resistance,Corrosion Science,47(10),2499(2005) |
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