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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 941-944Technological Development of 6.5wt%Si Electrical...

Technological Development of 6.5wt%Si Electrical Steel Production

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Abstract:

6.5wt%Si electrical steel has a wide application in electrical and electronic devices based on its excellent soft magnetic properties. However, it is very hard to prepare thin sheets of this material by conventional rolling methods, because of its obvious brittleness at room temperature. In order to avoid brittleness at high silicon content, different technological development of preparations of 6.5wt%Si electrical steel are illustrated in this work.

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Materials and Processes Technologies V

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Periodical:

Advanced Materials Research (Volumes 941-944)

Pages:

653-657

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.941-944.653

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Online since:

June 2014

Authors:

Shuai Ji, Jing Tao Han*, Jing Liu, Teng Wu

Keywords:

6.5wt%Si Composite Plate, Development, Magnetic Property, Preparation Technology

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] Ye Feng, Chen Guoliang. Frontier Science, 2007, 2: 13-26.

[2] He Zhongzhi. Governance edited Special Steel Series-electrical steel [M] Beijing Metallurgical Industry Press, (1996).

[3] Yamaji T, Kasai K. ISIJ International, 1996, 36 (6): 706 -713.

[4] Abe M, Takada Y. J Magn Magn Mater, 1994, 133: 187 -189.

[5] Ros-Yanez T, Marc De W, Houbaert Y. J Magn Magn Mater, 2004, 272-276: 521-522.

[6] Barros J, Ros-Yanez T, Fischer O. J Magn Magn Mater, 2006, 304: 614-61.

[7] Xia Xianping , Wu Run , Chen Dakai. Wuhan University of Science and Technology, 1996, 9 (4): 429 -431.

[8] Liang Jinglong, Li Hui. Chinese Journal of Nonferrous Metals, 2009, 19 (4): 714-719.

[9] Bi Xiao Fang , Lu Feng. China CN1807687, 2006-2008 -01-26.

[10] Xu Zewei. Metal Functional Materials, 2001, 8 (5) 1-7.

[11] Yamashita. Chinese patent :. CN1273611A, 2000 -02-28.

[12] Li Ran. Master Thesis Wuhan, Wuhan University of Technology, (2004).

[13] Zhang Lianmeng, Zhang Tao , Shen Qiang. Chinese patent CN1528921A, 2004-2006 -09-15.

[14] Wang Lin. Master Thesis Beijing, Beijing University of Technology , 2011.

[15] Tsuya N, Arai K I. J Appl Phys, 1979, 50 (3): 1658-1663.

[16] Bolfarini C. J Magn Magn Mater, 2008, 320 (20): 653.

[17] Li Sunyue , He Xiaodong. Functional Materials, 2007, 38 (10): 1603-1609.

[18] Han Jingtao, Liu Jing. Chinese patent CN101985679A, 2010 -11-11.

[19] Shuai Ji, Jingtao Han, Jing Liu. Advanced Materials Research, 2014, 902: 7-11.

[20] Feng Dajun, Zheng Zelin. Chinese patent CN102816972A, 2012 -12-12.