稀土在耐热钢中得到了广泛的应用,其活性元素效应获得了普遍的认可,而对稀土在耐热钢中作用的认识仍不够完善.综述了耐热钢的氧化规律,分析和总结了稀土在氧化层形成、氧化层生长以及氧化层与基体的粘附性中的作用机制,探讨了将来需要进行的研究工作.
参考文献
| [1] | Pfeil L B .Improvements in heat resistant alloys[P].UK Patent,459848,1937-01-11. |
| [2] | 李美栓.金属的高温腐蚀[M].北京:冶金工业出版社,2001 |
| [3] | 李铁藩.金属高温氧化和热腐蚀[M].北京:化学工业出版社,2003 |
| [4] | Neil Birks;Gerald H Meier;Frederick S Pettit.Introduction to the High-Temperature Oxidation of Metals[M].London:cambridge University Press,2006 |
| [5] | 黄希祜.钢铁冶金原理[M].北京:化学工业出版社,2002 |
| [6] | Whittle D P;Stringer J .Improvements in high temperature oxidation resistance by additions of reactive elements or oxide dispersions[J].Philosophical Transactions of the Royal Society of London Series A Mathematical and Physical Sciences,1980,295:309-329. |
| [7] | 永井宏 .希土颊元素の利用耐熟合金への微量添加[J].铁と钢(日本),1984,70(11):1523-1529. |
| [8] | 李碚.稀土金属在耐热钢和耐热合金中的应用[J].稀土,1987(05):45. |
| [9] | 沈保罗 .稀土在改善钢的抗氧化、硫化、高温腐蚀以及抗渗碳性能的应用[J].四川冶金,1995,17(02):45-49. |
| [10] | 斎藤安俊 .耐熟合金の高温酸化における希土類元素の役割[J].铁と钢(日本),1979,65(07):747-771. |
| [11] | 李美栓,张亚明.活性元素对合金高温氧化的作用机制[J].腐蚀科学与防护技术,2001(06):333-337. |
| [12] | Pint B A.Progress in Understanding the Reactive Element Effect since the Whittle and Stringer Literature Review[A].Indianapolis,2001:1-10. |
| [13] | 李碚;王嘉敏;胥继华.稀土元素对耐热金属材料高温腐蚀行为的改善作用[A].北京:冶金工业出版社,1987 |
| [14] | Wagner C .Passivity during the oxidation of silicon at elevated temperatures[J].Journal of Applied Physics,1985,29(09):1295-1297. |
| [15] | 韩桂春;靳达申;孙才荣 等.RE对3Cr24Ni7N合金高温抗氧化性能的影响[J].钢铁,1984,19(12):19-24. |
| [16] | 胥继华;韩桂春;鲁国荣 等.稀土对耐热钢高温性能的影响[J].特殊钢,1993,14(04):11-17. |
| [17] | Yurek G J;Przybylski K;Garratt-Reed A J .Segregation of Y to grain boundaries in the Al2O3 scale formed on an ODS alloy[J].Journal of the Electrochemical Society,1987,134(12):3207-3208. |
| [18] | Pint B A;Hobbs L W .The formation of α-Al2O3scales at 1500℃[J].Oxidation of Metals,1994,41(3-4):203-233. |
| [19] | 俞方华;杨国华;韩荣典 等.活性元素Y和Ce对Fe-25Cr-40Ni合金高温氧化的影响[J].金属学报,28(04):145-153. |
| [20] | 永井宏;村井照幸;三谷裕康 .Fe-20Cr合金の高温耐酸化性に及ほす希土類元素おとび数種の活性元素添加の影響[J].日本金属学会(),1978,42(12):1138-1144. |
| [21] | Versaci R A;Clemens D;Quadakkers W J.Distribution and transport of yttrium in alumina scales on ironbase ODS alloys[J].Solid State Ionics,1993(59):235-242. |
| [22] | Pint BA.;Hobbs LW.;Garratt-Reed AJ. .Possible role of the oxygen potential gradient in enhancing diffusion of foreign ions on alpha-Al2O3 grain boundaries[J].Journal of the American Ceramic Society,1998(2):305-314. |
| [23] | Lustman B.The Intermittent oxidation of some nickel-chromium base alloys[J].Transactions AIME,1950(08):995-996. |
| [24] | Tien J K;Pettit F S.Mechanism of oxide adherence on Fe-25Cr-4Al(Y or Sc)alloys[J].Metallurgical and Materials Transactions,1972(03):1587-1599. |
| [25] | Smialek J L;Jayne D T;Schaeffer J C et al.Effects of hydrogen annealing,sulfur segregation and diffusion on the cyclic oxidation resistance of super alloys:a review[J].Thin Solid Films,1994,253(01):285-292. |
| [26] | Grabke H J;Kurbatov G;Sehmutzler H J .Segregation beneath oxide scales[J].Oxidation of Metals,1995,43(01):97-114. |
| [27] | 余式昌,吴申庆,宫友军,宫元生,练明生,叶刚,成义军.稀土微合金化5Cr21Mn9Ni4N钢高温氧化行为[J].中国稀土学报,2006(03):333-337. |
| [28] | Strawbridge A;Evans H E;Ponton C B .Spoliation of oxide scales from NiCrAlY overlay coatings[J].Materials Science Forum,1997,251(04):365-372. |
| [29] | Wilber J P;Bennett M J;Nicholls J R .Lifetime extension of alumina forming FeCrAl-RE Alloys:influence of alloy thickness[J].Materials at High Temperatures,2000,17(01):125-132. |
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