THE EXPERIMENTAL APPARATUS OF THE COUPLING OF FORCE, TEMPERATURE AND MAGNETIC FIELD

Acta Metall Sin

2008, Vol. 44

Issue (1): 69-73 DOI:

Research Articles

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THE EXPERIMENTAL APPARATUS OF THE COUPLING OF FORCE, TEMPERATURE AND MAGNETIC FIELD

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吉林大学超塑性与塑性研究所

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. THE EXPERIMENTAL APPARATUS OF THE COUPLING OF FORCE, TEMPERATURE AND MAGNETIC FIELD. Acta Metall Sin, 2008, 44(1): 69-73 .

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Abstract The research on the coupling effect of force, temperature and magnetic field on material is one of front branches of material science. The paper introduces the principle and structure of the experimental apparatus of the coupling of force, temperature and magnetic field. The principle and structure of heating outside the furnace and dynamically sealing are advanced. According to this, the inert gases sealed in the furnace may effectively prevent the oxygenation of the specimen and the friction between the furnace mouse and pull bar. While applying the coupling effect of temperature and magnetic field, it is solved that the heated circular resistance wires interfere in the magnetic field of exciting coil. And so a new experiment means is provided for the research on the plasticity and superplasticity.

Key words: force temperature magnetic field coupling

Received: 12 July 2007

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https://www.ams.org.cn/EN/ OR https://www.ams.org.cn/EN/Y2008/V44/I1/69

[1]Li S C.Chin J Mater Res,1998;12:314 (李世春．材料研究学报，1998；12：314)
[2]Li Y,Dong X H.Chin J Nonferrous Met,1996;6(3):151 (李尧，董晓华．中国有包金属学报，1996；6(3)：151)
[3]Conrad H,Cao W D,Lu X P.Scr Metall,1989;23:697
[4]Conrad H,Cao W D,Lu X P.Mater Sci Eng,1991;A138: 247
[5]Cao W D,Lu X P,Sprecher A F.Mater Sci Eng,1990; A129:157
[6]Li S C,Conrad H.Scr Mater,1998;39:847
[7]Li M Q,Wn S D.Acta Metall Sin,1995;31:A272 (李淼泉，吴诗惇．金属学报，1995；31：A272)
[8]Li M Q,Liu Y L,Wu S C,Wu X W.J Mater Process Technol,1994;40:385
[9]Li M Q,Wu S C.J Mater Process Technol,1996;61:298
[10]Li M Q,Chen Y Y,Chen D J.J Mater Process Technol, 1998;73:264
[11]Liu B R,Zhang C B,Lai Z H.Chin J Mater Res,1999; 13:385 (刘渤然，张彩碚，赖祖涵．材料研究学报，1999；13：385)
[12]Liu B R,Zhang C B,Lai Z H.Chin J Mater Res,2000; 14:218 (刘渤然，张彩碚，赖祖涵．材料研究学报，2000；14：218)
[13]Li Y,Yang X Y,Chen H.J Hubei Univ Technol,1995; 10(1):1 (李尧，杨贤镛，陈洪．湖北工学院学报，1995；10(1)：1)
[14]Li Y,Song Z K.Shanghai Nonferrous Met,1996;17(3): 103 (李尧，宋子凯．上海有色金属，1996；17(3)：103)
[15]Li G,Zhu X C.J Chongqing Polytechnic College,2005; 15(2):30 (李钢，朱新才．重庆工业高等专科学校校报，2005；15(2)：30)
[16]Song Y Q,Song J W,Guan X F.Chin Pat,ZL 200610017268.1,2006 (宋玉泉，朱家旺，管晓芳．中国发明号利，ZL 200610017268．1，2006)
[17]Song Y Q,Cheng Y C.Chin Pat,ZL 00117802.4,2000 (宋玉泉，程永春．中国发明专利，ZL 00117802．4，2000)?

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