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690合金原始晶粒尺寸对晶界工程处理后晶界网络的影响 |
刘廷光, 夏爽, 李慧, 周邦新, 陈文觉 |
上海大学材料研究所, 上海 200072 |
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EFFECT OF ORIGINAL GRAIN SIZE ON THE BOUNDARY NETWORK IN ALLOY 690 TREATED BY GRAIN BOUNDARY ENGINEERING |
LIU Tingguang, XIA Shuang, LI Hui, ZHOU Bangxin, CHEN Wenjue |
Institute of Materials, Shanghai University, Shanghai 200072 |
引用本文:
刘廷光 夏爽 李慧 周邦新 陈文觉. 690合金原始晶粒尺寸对晶界工程处理后晶界网络的影响[J]. 金属学报, 2011, 47(7): 859-864.
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EFFECT OF ORIGINAL GRAIN SIZE ON THE BOUNDARY NETWORK IN ALLOY 690 TREATED BY GRAIN BOUNDARY ENGINEERING[J]. Acta Metall Sin, 2011, 47(7): 859-864.
[1] Diercks D R, Shack W J, Muscar J. Nucl Eng Des, 1999; 194: 19[2] Watanable T. Res Mech, 1984; 11: 47[3] Randle V. The Role of the Coincidence Site Lattice in Grain Boundary Engineering. Cambridge: Cambridge University Press, 1996: 91[4] Lin P, Palumbo G, Erb U, Aust K T. Scr Metall Mater, 1995; 33: 1387[5] Lehockey E M, Limoges D, Palumbo G, Sklarchuk J, Tomantschger K, Vincze A. J Power Sources, 1999; 78: 79[6] Randle V. Acta Mater, 2004; 52: 4067[7] Shimada M, Kokawa H, Wang Z J, Sato Y S, Karibe I. Acta Mater, 2002; 50: 2331[8] Kumar M, Schwartz A J, King W E. Acta Mater, 2002; 50: 2599[9] Engelberg D L, Humphreys F J, Marrow T J. J Microsc, 2008; 230: 435[10] Saylor D M, El–Dasher B S, Adams B L, Rohrer D S. Metall Mater Trans, 2004; 35A: 1981[11] Gertsman V Y, Bruemmer S M. Acta Mater, 2001; 49: 1589[12] Marrow T J, Babout L, Jivkov A P, Wood P, Engelberg D, Stevens N, Withers P J, Newman R C. J Nucl Mater, 2006; 352: 62[13] Xia S, Zhou B X, Chen W J, Wang W G. Scr Mater, 2006; 54: 2019[14] Wang W G, Zhou B X, Rohrer G S, Guo H, Cai Z X. Mater Sci Eng, 2010; A527: 3695[15] King W E, Schwartz A J. Scr Mater, 1998; 38: 449[16] Xia S, Zhou B X, Chen W J, Wang W G. Acta Metall Sin, 2006; 42: 129(夏爽, 周邦新, 陈文觉, 王卫国. 金属学报, 2006; 42: 129)[17] Zhang Y B, Godfrey A, Liu W, Liu Q. Acta Metall Sin, 2009; 45: 1159(张玉彬, Godfrey A, 刘伟, 刘庆. 金属学报, 2009; 45: 1159)[18] Cai Z X, Wang W G, Fang X Y, Guo H. Acta Metall Sin, 2010; 46: 769(蔡正旭, 王卫国, 方晓英, 郭红. 金属学报, 2010; 46: 769)[19] Xia S, Zhou B X, Chen W J, Yao M Y, Li Q, Liu W Q, Wang J A, Ni J S, Chu Y L, Luo X, Li H. Chin Pat, 200710038731.5, 2007(夏爽, 周邦新, 陈文觉, 姚美意, 李 \ \ 强, 刘文庆, 王均安, 倪建森, 褚于良, 罗 鑫, 李 慧. 中国专利, 200710038731.5, 2007)[20] Xia S, Li H, Liu T G, Zhou B X. J Nucl Mater, doi: 10.1016/j.jnucmat.2011.06.017[21] Xia S, Li H, Hu C L, Liu T G, Zhou B X, Chen W J. Fontevraud 7: Int Symp Contribution of Materials Investigations to Improve the Safety and Performance of LWRs, Avignon, France: 2010: A025 T06 (CD–ROM)[22] Palumbo G, Aust K T. Acta Metall, 1990; 38: 2343[23] Xia S, Zhou B X, Chen W J. Metall Mater Trans, 2009; 40: 3016[24] Xia S, Zhou B X, Chen W J. J Mater Sci, 2008; 43: 2990[25] Xia S, Zhou B X, Chen W J, Luo X, Li H. Mater Sci Forum, 2010; 638–642: 2870[26] Hu C L, Xia S, Li H, Liu T G, Zhou B X, Chen WJ, Wang N. Corros Sci, 2011; 53: 1880[27] Humphreys F J, Bate P S, Hurley P J. J Microsc, 2001; 201: 50[28] Yang P. Electron Backscattering Diffraction Technique and its Application. Beijing: Metallurgical Industry Press, 2007: 73(杨平. 电子背散射衍射技术及其应用. 北京: 冶金工业出版社, 2007: 73)[29] Berger A, Wilbrandt P J, Ernst F, Klement U, Haasen P. Prog Mater Sci, 1988; 32: 1[30] Gertsman V Y, Henager C H. Interface Sci, 2003; 11: 403[31] Doherty R D, Hughes D A, Humphreys F J, Jona J J, Juul J D, Kassner M E, King W E, McNelley T R, McQueen H J, Rollett A D. Mater Sci Eng, 1997; A238: 219 |
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