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| 金属合金等温相变的体激活能及相变机制 I. 钢的中温(贝氏体)等温相变 |
| 康沫狂1;张明星2;刘峰1;朱明1 |
1 西北工业大学材料学院;西安 710072
2 Division of Materials; School of Engineering; University of Queensland; Brisbane; QLD 4072; Australia |
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| OVERALL ACTIVATION ENERGY OF ISOTHERMAL TRANSFORMATION IN METAL ALLOY AND ITS MECHANISM I. Medium Temperature (Bainite) Isothermal Transformation in Steels |
| KANG Mokuang1; ZHANG Mingxing2; LIU Feng1; ZHU Ming1 |
1 School of Materials; Northwestern Polytechnical University; Xi'an 710072
2 Division of Materials; School of Engineering; University of Queensland; Brisbane; QLD 4072; Australia |
引用本文:
康沫狂 张明星 刘峰 朱明. 金属合金等温相变的体激活能及相变机制 I. 钢的中温(贝氏体)等温相变[J]. 金属学报, 2009, 45(1): 25-31.
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OVERALL ACTIVATION ENERGY OF ISOTHERMAL TRANSFORMATION IN METAL ALLOY AND ITS MECHANISM I. Medium Temperature (Bainite) Isothermal Transformation in Steels[J]. Acta Metall Sin, 2009, 45(1): 25-31.
| [1] Davenport E S, Bain E C. Trans AIME, 1930; 90: 117
[2] Ko T (柯俊), Cottrel S A. J Iron Steel Inst, 1952; 172: 307
[3] Hillert M. Acta Metall, 1959; 7: 653
[4] Vasudevan P, Graham L W, Axon H J. J Iron Steel Inst,1958; 190: 386
[5] Radcliffe S V, Rollason E C. J Iron Steel Inst, 1959; 191: 56
[6] Yu D G, Shi D K. In: Heat Treatment Institution of CMES, ed., Proc First Conf Heat Treatment Institution of CMES. Beijing: China Machine Press, 1996: 105
(俞德刚, 石德珂. 见: 中国机械工程学会热处理学会主编, 中国机械工程学会热处理学会第1届年会论文集, 北京: 机械工业出版社, 1966: 105))
[7] Barford J. J Iron Steel Inst, 1966; 204: 609
[8] Kang M K, Chen D M, Yang S P, Hu G L. Metall Trans, 1992; 23A: 785
[9] Borgenstam A, Hillert M. Acta Mater, 1997; 45: 651
[10] Gupta C, Dey G K, Chakravatty J K, Srivatav D, Banerjee S. Scr Mater, 2005; 53: 559
[11] Venkatraman M, Mohanty O N, Ghosh R N. Scand J Metall, 2001; 30: 8
[12] Kang M K, Zhu M. Acta Metall Sin, 2005; 41: 673
(康沫狂, 朱明. 金属学报, 2005; 41: 673)
[13] Xu N K, Guan D H, Kang M K. Phys Test Chem Anal (Phys Test), 1983; 19(4): 2
(许念坎, 管敦惠, 康沫狂. 理化检验(物理分册), 1983; 19(4): 2)
[14] Kang M K, Sun J L, Yang Q M. Metall Trans, 1990; 21A: 853
[15] Kang M K, Zhu M, Zhang M X. J Mater Sci Technol, 2005; 21: 437
[16] Wmanski R S, Fikelxichian B N, Blanger M E, Kixiskin S T, Fastov N S, Golerik S S. Physical Metallography. Moscow: Metallurgist, 1955: 376
(Уманский Я С, Финкельштейн Б Н, Блантер М Е, Кишкин С Т, Фастов Н С, Горелик С С. Физическое Металловедение. Москва: Металлургиздата, 1955: 376)
[17] Porter D A, Easterling K E. Phase Transformation in Metals and Alloys. New York: Van Nostrand Reinhold Company, 1981: 172, 349
[18] Hillert M; translated by Lai H Y, Liu G X. Diffusion and Thermodynamics in Alloys. Teaching Materials in Beijing Science and Technology University, Beijing: Metallurgical Industry Press, 1984: 122
(Hillet M著; 赖和怡, 刘国勋译. 合金扩散和热力学. 在北京科技大学讲学稿, 北京: 冶金工业出版社, 1984: 122)[19] Bhadeshia H K D H, Edmonds D V. Metall Trans, 1979; 10A: 895
[20] Hou Z S, Zhao X G, Hou W Y, Liang W. Trans Mater Heat Treat, 2005; 26(3): 6
(侯增寿, 赵兴国, 侯文义, 梁 \ \ 伟. 材料热处理学报, 2005; 26(3): 6)
[21] Wits J J, Kop T A, van Leeuwen Y, Seitsma J, van der Zwaag S. Mater Sci Eng, 2000; A283: 234
[22] Entin РИ; translated by Li P L. Austenite Transformation in Steels. Beijing: China Industry Press, 1965: 167
(Ентин R I著; 李培良译. 钢中奥氏体转变. 北京: 中国工业出版社, 1965: 167 ) |
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