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| P92钢中δ铁素体对700和750℃时效析出相成分和体积分数的影响 |
| 彭志方1), 蔡黎胜1), 彭芳芳2), 党莹樱1), 陈方玉3) |
1) 武汉大学动力与机械学院, 武汉 430072
2) 东方锅炉(集团)股份有限公司材料研究所, 自贡 643001
3) 武汉钢铁(集团)公司研究院检测所, 武汉 430080 |
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| EFFECT OF δ-FERRITE ON THE COMPOSITION AND VOLUME FRACTION OF PRECIPITATES IN P92 STEEL AGED AT 700 AND 750℃ |
| PENG Zhifang1), CAI Lisheng1), PENG Fangfang2), DANG Yingying1), CHEN Fangyu3) |
1) School of Power and Mechanical Engineering, Wuhan University, Wuhan 430072
2) Materials Research Department, Dong Fang Boiler Group Corp. Ltd., Zigong 643001
3) Research Institute of Wuhan Iron and Steel Company Ltd., Wuhan 430080 |
引用本文:
彭志方 蔡黎胜 彭芳芳 党莹樱 陈方玉. P92钢中δ铁素体对700和750℃时效析出相成分和体积分数的影响[J]. 金属学报, 2012, 48(11): 1315-1320.
PENG Zhifang CAI Lisheng Fangfang DANG Yingying CHEN Fangyu.
EFFECT OF δ-FERRITE ON THE COMPOSITION AND VOLUME FRACTION OF PRECIPITATES IN P92 STEEL AGED AT 700 AND 750℃[J]. Acta Metall Sin, 2012, 48(11): 1315-1320.
| [1] Abe F. Sci Technol Adv Mater, 2008; 9: 1
[2] Maruyama F. ISIJ Int, 2001; 6: 612
[3] Yang F. In: Chinese Society for Electrical Engineering, ed., Symposium on Localization of A New Steel For 600 MW/1000 MW Ultra–Supercritical Units, Zibo: EPTCINA.CN, 2009: 1
(杨 富. 见: 中国电机工程学会主编, 600 MW/1000 MW超超临界机组新型钢
国产化研讨会报告文集, 淄博: 中国电力科技网, 2009: 1)
[4] Ryu S H, Yu J. Metall Mater Trans, 1998; 29A: 1573
[5] Faulkner R G, Williams J A, Sanchez E G, Marshall A W. Mater Sci Technol, 2003; 19: 347
[6] Yoshizawa M, Igarashi M. Int J Pres Ves Pip, 2007; 84: 37
[7] Kimura K, Yamaoka S. Mater Sci Eng, 2004; A387–389: 628
[8] Cai G J, Andren H O, Svensson L E. Metall Mater Trans, 1997; 28A: 1417
[9] Maruyama K, Sawada K, Koike J. ISIJ Int, 2001; 41: 641
[10] Tchizhik A A, Tchizhik T A, Tchizhik A A. J Metall Process Technol, 1998; 77: 226
[11] Kishore R, Singh R N, Sinha T K, Kashyap B P. J Nucl Mater, 1992; 195: 198
[12] Mayr P, Palmer T A, Elmer J W, Specht E D, Allen S M. Metall Mater Trans, 2010; 41A: 2010
[13] Anderko K, Schafer L, Materna–Morris E. J Nucl Mater, 1991; 179–181: 492
[14] Onoro J. J Mater Process Technol, 2006; 180: 137
[15] Sawada K, Kushima H, Kimura K. ISIJ Int, 2006; 46: 769
[16] Vijayalakshmi M, Saroja S, Thomas Paul V, Mythili R, Raghunathan V S. Metall Mater Trans, 1999; 30A: 162
[17] Baek J W, Nam S W, Kong B O. Key Eng Mater, 2005; 297–300: 463
[18] Peng Z F, Cai L S, Dang Y Y, Zhao L, Peng F F, Yang Z G, Yan G Z, Chen S G, Zhou J, Zhou Y G. Mater Sci Forum, 2012; 706–709: 2450
[19] Peng Z F, Dang Y Y, Peng F F. Acta Metall Sin, 2012; 48: 450
(彭志方, 党莹樱, 彭芳芳. 金属学报, 2012; 48: 450)
[20] Peng Z F, Cai L S, Peng F F, Hu Y P, Chen F Y. Acta Metall Sin, 2010; 46: 429
(彭志方, 蔡黎胜, 彭芳芳, 胡永平, 陈方玉. 金属学报, 2010; 46: 429)
[21] Peng Z F, Peng F F, Chen F Y. Electr Power Constr, 2009; 30(12): 1
(彭志方, 彭芳芳, 陈方玉. 电力建设, 2009; 30(12): 1)
[22] Peng F F, Peng Z F, Chen F Y. In: Chinese Society for Electrical Engineering ed., Symposium on Localization of A New Steel For 600 MW/1000 MW Ultra–Supercritical Units, Zibo: EPTCINA.CN, 2009: 178
(彭芳芳, 彭志方, 陈方玉. 见: 中国电机工程学会主编, 600 MW/1000 MW超超临界机组新型钢国产化研讨会报告文集, 淄博: 中国电力科技网, 2009: 178) |
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