研究了(Al,Mn)3Ti-2V和TiAl在900℃的(Na,K)2SO4以硬850℃的Na2SO4+NaCl熔盐中的热腐蚀行为.结果表明,(Al,Mn)3Ti-2V在(Na,K)2SO4中的耐蚀性很好,腐蚀产物膜很薄,外层是保护性的A12O3,内层是Al2O3+TiO2+TiS的混合膜.当熔盐中存在NaCl时,(Al,Mn)3Ti-2V的耐蚀性极差,腐蚀产物的厚度比在(Na,K)2SO4中大100多倍,且具有分层结构,最外层富MnO(含少量Al2O3和TiO2),第二层为Al2O3+少量TiS,第三层为TiO2+TiS,由于不能形成保护性的Al2O3层,腐蚀产物极易剥落.
参考文献
| [1] | Raman A, Schubert K. Z Metallkd, 1965; 56:40 |
| [2] | Chen X F, Wu X H, Chen S P, Hu G X. Scr Metall Mater,1992; 26:1775 |
| [3] | Hashimoto K. National Research Institute for Metals Research Activities, Japan, 2000:30 |
| [4] | Jin G X, Kimura T, Gao K W, Hashimoto K, Qiao L J.Mater Trans JIM, 2002; 43:2600 |
| [5] | Trethewey K R, Chamberlain J. Corrosion. Essex, England: Longman Group UK Limited, 1988:352 |
| [6] | Yao Z, Marck M. Mater Sci Eng, 1995: A192/193:994 |
| [7] | Nicholls J R, Legget T, Andrews P. Mater Corrs, 1997:48:56 |
| [8] | Tang Z L, Wang F H, Wu W T. Oxid Met, 1999; 51:314 |
| [9] | Hara M, Hieda D, Hinata Y. J Jpn Inst Met, 1999; 63:1238(原基,稗田大辅,日向幸昌.日本金属学会志,1999;63:1238) |
| [10] | Gocbel J A, Pettit F S, Goward G W. Metall Trans, 1973;4:265 |
| [11] | Jose P D, Gupta D K, Rapp A. J Electrochem Soc, 1985; 132:735 |
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