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Research and Development of High Temperature Electrothermal Materials
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 339Research and Development of High Temperature...

Research and Development of High Temperature Electrothermal Materials

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Abstract:

By summarizing the research and development status of electro-thermal materials, this thesis puts its focus on the types, preparation methods and applications of non-metallic high-temperature electrothermal materials, and the comparative analysis of the advantages and disadvantages of such electric heating elements as SiC, ZrO₂, LaCrO₃ and MoSi₂. At last, the gap and the main problems existing between researches made on high temperature electrothermic materials at home and abroad are pointed out, as well as their prospected development trend.

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Advanced Manufacturing Systems, ICMPMT 2011

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Periodical:

Advanced Materials Research (Volume 339)

Pages:

17-22

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.339.17

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Online since:

September 2011

Authors:

Ying Yi Zhang, Yun Gang Li, Kuai Zhang, Ying Tian

Keywords:

Development Status, Development Trend, Electrothermal Materials, MoSi₂, Preparation

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© 2011 Trans Tech Publications Ltd. All Rights Reserved

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[1] Dong Xu, Jiahai Bai . Shandong Ceramics,2007,30(3):28-32.

[2] Vasudevan AK, Petrovic J J. Mater Sci & Eng, 1992,A155 :1-l7.

[3] Weiqing Chen. Metallurgical engineering experimental technology [M].Beijing; Metallurgical Industry Press,2004,22.

[4] Sunyi Zuo. electro-thermal use [M].Beijing,Water Power Press,1989,07.

[5] Xiangrong Liu, Shuzeng Zhang, Jincheng Jiang. 2009,38 (20) : 38 and 40.

[6] Fang Liu, Wenjie Fan,et al. Refractories,Hot working technology,2003,(5): 38-41.

[7] Mingcheng Shao.Unglazed silicon carbide technology [M]. Beijing: Mechanical Industry Press, 1987.

[8] Jincheng Yang. Journal of Xian University of Science and Technology, 2006,26 (4):502-505.

[9] Lide Gu. Special Refractories [M].Beijing: Metallurgical Industry Press, 2006.

[10] Zimin Pan, Xiaogang Wang. Journal of Xian University of Science and Technology,2005,25 (2):190-193.

[11] Zhenlin Liu, Shao Hua Pan, Zhizhong Shen. Silicon carbide heating elements and production process: China, CN 1371235A [P].2002.9.25.

[12] Chun Chang,Chuanzhong Chen, Wencheng Sun.Journal of Shandong University,2002,32(6):581--585.

[13] Xinghong Zhu,BaoChang Wei, Xiuyun Bai. Light Alloy Fabrication Technology,1997,25(4):18-19.

[14] Wenwu Jia. rare earths, 1991, (3): 61-65.

[15] Liangcheng Sun, Dehui LI.Industrial heating, 2000,(2):17-19.

[16] Sakai N, Kawada T,Yokokawa H, et al. 1995,76(3):609-616.

[17] Yakabe H, Hishinuma M, Yasuda I.Journal of Electro-chemical Society, 2000, 147(11):4071-4077.

[18] Xiangdong Lou, ShengjunTian, Juhui Jiang. Journal of Zhengzhou institute of light,2000,15:84-86.

[19] Azegami K, Yoshinaka M, Hirota K, et al.Materials Research Bulletin,1998,33 (2):341-348

[20] Boroomsnd F, Wessel E, Bausinger H, et al.Solid State lonics,2000,129:251-258.

[21] Shentai Song, Huiying Pan,et al. Journal of Iron and Steel Research,1996,8(6):53-57.

[22] Jinwu Chen, Qiang Li, Yuye Zhang, et al. Hot working technology, 2008,37 (1):67-69.

[23] Peizhong Feng, Xiaohong Wang.Industrial heating, 2007,36(3):62-64.

[24] Zhihong Liu,Guocheng He, Liming Liu, et al.Ceramic Society,1996,(1):68.

[25] Pengchao Kang.SiC/MoSi2 Composites and Microstructure and Properties of [D].Harbin Institute of Technology,2004.

[26] Junjie Xu.Materials Review,2009,23(12):97-100.

[27] Hongming Zhou, Danqing Yi.Materials Review, 2006,11(20):404-408.

[28] Sharif AA, Misra A, Petrovic JJ, et al.Intermetallics, 2001, 9:869-873.

[29] Vansudevan AK, Petrovic J J. Mater Sci & Eng,1992,A155:1-17.

[30] Ding Chen, Renzheng Tang. Mining and Metallurgical Engineering, 2000,20 (4):72-74.

[31] Qin Ma, Heping Li, et al. Industrial furnace,2004,26(3):4-7.

[32] Zhihao Jin, Shibin Li, et al. Journal of Xi'an Jiaotong University,2001,35 (2):199-202.

[33] Yunlong Ai,Qin Ma, et al. Metal Heat Treatment, 2000,21(4):18-22.

[34] Hebsur M G1.Mater Sci & Eng,1999,A26:2437.