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Nb微合金化Fe14Si2高硅钢温轧板织构演变规律 |
杨琨,梁永锋,叶丰,林均品 |
北京科技大学新金属材料国家重点实验室, 北京 100083 |
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TEXTURE EVOLUTION OF Nb MICRO-ALLOYED Fe14Si2 HIGH SILICON STEEL DURING WARM ROLLING |
YANG Kun, LIANG Yongfeng, YE Feng, LIN Junpin |
State Key Laboratory for Advanced Metal and Materials, University of Science and Technology Beijing, Beijing 100083 |
引用本文:
杨琨,梁永锋,叶丰,林均品. Nb微合金化Fe14Si2高硅钢温轧板织构演变规律[J]. 金属学报, 2013, 49(11): 1411-1415.
YANG Kun,
LIANG Yongfeng,
YE Feng,
LIN Junpin.
TEXTURE EVOLUTION OF Nb MICRO-ALLOYED Fe14Si2 HIGH SILICON STEEL DURING WARM ROLLING[J]. Acta Metall Sin, 2013, 49(11): 1411-1415.
[1] Paolinelli S C, Cunha M A. J Magn Magn Mater, 2006; 304: e596
[2] Raviprasad K, Chattopadhyay K. Acta Matall Mater, 1993; 41: 609
[3] Haiji H, Okada K, Hiratani T, Abe M, Ninomiya M. J Magn Magn Mater, 1996; 160: 109
[4] Phway T P P, Moses A J. J Magn Magn Mater, 2008; 320: E611
[5] Oda Y J, Kohno M, Honda A. J Magn Magn Mater, 2008; 320: 2430
[6] Cunha M A, Paolinelli S. J Magn Magn Mater, 2008; 320: 2485
[7] Liang Y F, Lin J P, Ye F, Wang Y L, Chen G L. Met Funct Mater, 2010; 17(2): 43
(梁永锋, 林均品, 叶丰, 王艳丽, 陈国良. 金属功能材料. 2010; 17(2): 43)
[8] Pan L M, Jin J N, Lin J P, Wang J G, Wang Y L, Lin Z, Chen G L. J Funct Mater, 2004; 35: 683
(潘丽梅, 金吉男, 林均品, 王建国, 王艳丽, 林志, 陈国良. 功能材料, 2004; 35: 683)
[9] Ye F, Liang Y F, Wang Y L, Lin J P, Chen G L. Mater Sci Forum, 2010; 638-642: 1428
[10] Chang P H, Preban A G. Acta Metall, 1985; 33: 897
[11] Jiang Z H, Guan Z Z, Lian J S. Mater Sci Eng, 1995; A190: 55
[12] Son Y I, Lee Y K, Park K T, Lee C S, Shin D H. Acta Mater, 2005; 53: 3125
[13] Tsipouridis P, Werner E, Krempaszky C, Tragl E. Steel Res Int, 2006; 77: 654
[14] Delince M, Brechet Y, Embury J D, Geers M G D, Jacques P J, Pardoen T.Acta Mater, 2007; 55: 2337
[15] Mukherjee K, Hazra S S, Militzer M. Metall Mater Trans, 2009; 40A: 2145
[16] Xue C F, Wang X H, Xin Y D. Heat Treat Met, 2003; 28(5): 15
(薛春芳, 王新华, 辛义德. 金属热处理, 2003; 28(5): 15)
[17] Chen S S. Heat Treat Met Abroad, 1996; 17(1-2): 5
(陈善述. 国外金属热处理, 1996; 17(1-2): 5)
[18] Zhao J, Xu H F, Shi J, Li J, Pu J, Cao W Q. Iron Steel, 2012; 47(8): 57
(赵杰, 徐海峰, 时捷, 李箭, 蒲健, 曹文全. 钢铁, 2012; 47(8): 57)
[19] Szkliniarz A. Solid State Phenom, 2012; 191: 221
[20] Weng Y Q. Super Fine Grained Steels. Beijing: Metallurgical Industry Press, 2008: 327
(翁宇庆. 超细晶钢. 北京: 冶金工业出版社, 2008: 327)
[21] Lu J, Jin L, Zeng X Q, Ding W J. Foundry Eng, 2008; (1): 32
(路军, 靳丽, 曾小勤, 丁文江. 铸造工程, 2008; (1): 32)
[22] Belyakov A, Gao W, Miura H, Sakai T. Metall Mater Trans, 1998; 29A: 2957
[23] Zhong T B, Lin J P, Chen G L. J Funct Mater, 2000; 31: 361
(钟太彬, 林均品, 陈国良. 功能材料, 2000; 31: 361)
[24] Liu J L, Sha Y H, Zhang F, Yao Y C, Li J C, Zuo L. Funct Mater, 2011; 42: 2089
(柳金龙, 沙玉辉, 张芳, 姚勇创, 李继超, 左良. 功能材料, 2011; 42: 2089) |
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