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无碳化物贝氏体-马氏体复相高强度钢的组织与性能 |
杨福宝; 白秉哲;刘东雨;常开地;韦东远;方鸿生 |
清华大学材料科学与工程系 |
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Microstructure and Properties of A Carbide--Free Bainite-Martensite Ultra--High Strength Steel |
YANG Fubao; BAI Bingzhe; LIU Dongyu; CHANG Kaidi; WEI Dongyuan; |
Department of Materials Science and Engineering; Tsinghua University |
引用本文:
杨福宝; 白秉哲; 刘东雨; 常开地; 韦东远; 方鸿生 . 无碳化物贝氏体-马氏体复相高强度钢的组织与性能[J]. 金属学报, 2004, 40(3): 296-300 .
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Microstructure and Properties of A Carbide--Free Bainite-Martensite Ultra--High Strength Steel[J]. Acta Metall Sin, 2004, 40(3): 296-300 .
[1] Wan D R, Xu C G. High Strength and Ultra-high Strength Steel. Beiiing: China Machine Press. 1988:98(万如,许昌淦.高强度及超高强度钢.北京:机械工业出版社,1988:98) [2] Tomita Y, Okabayashi K. Metall Trans, 1983; 14A:485 [3] Tomita Y, Okawa T. Mater Sci Technol, 1995; 11:245 [4] Tomita Y. Mater Sci Technol, 1995; 11:259 [5] Huang J F, Fang H S, Xu P G, Zheng Y K. Heat Treat Met, 2001; 25(6) : 1(黄进峰,方鸿生,徐平光,郑燕康.金属热处理,2001;25(6) :1) [6] Chen Y T, Fang H S, Bai B Z, Yan Z G, Li Q, Hou C Q, Gao F. Heat Treat Met, 2001; 26(8) : 5(陈颜堂,方鸿生,白秉哲,杨志剐,李琪,侯传基,高凡.金属热处理,2001;26(8) :5) [7] Chu W Y. Hydrogen Induced Failure and Delayed Failure. Beijing: Metallurgy Industry Press, 1988:214(褚武扬.氢损伤和滞后断裂.北京:冶金工业出版社,1988:214) [8] Fuchs H O. Stephens R I. Metal Fatigue in Engineering. New York: John Wiley & Sons. 1980:56 [9] ANSI. MIL-HDBK-5C (Military Material Handbook of America) Change Notice 2. Washington DC: ASTM. 1979 [10] Ritchie R O, Castrocedeno M H, Zackay V F, Parker E R. Met Trans A Phy Met Mater Sci, 1978; 9(1) : 35 [11] Berns H, Wener L. Theor Appl Frac Mech, 1986; (6) : 11 [12] Miihkinen V T T, Edmonds D V. Mater Sci Technol, 1987; 6:441 |
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