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9Cr2Mo冷轧辊加热过程的数值模拟

, PP. 1266-1270

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Abstract:

利用有限元数值方法模拟了９Ｃｒ２Ｍｏ冷轧辊加热过程中的瞬态温度场和奥氏体化进程,建立了加热奥氏体化过程的数学模型.通过采样轧辊内部一些特定位置的加热曲线验证了模拟结果的准确性,根据模拟结果提出了优化的冷轧辊加热工艺,该工艺明显地缩短了加热时间,具有显著节能的效果.

References

[1]	Reti T, Felde I, Horvath L. Heat Treat Met, 1996; 1: 11
[2]	Dowling W, Pattok T, Ferguson B L. Heat Treat Met, 1997;1: 1
[3]	William D. Ind Heat, 1996; 5: 51
[4]	Inoue T, Arimoto K. Ind Heat, 1995; 4: 41
[5]	Tensi H M, Stick A. Mater Set Forum, 1992; 102-104: 741
[6]	Buchmayr B, Kirkaldy J S. I Heat Treat, 1990; 8: 127
[7]	Fernandes F M B, Denis S, Simon A. Mater Sci Technol,1985; 1: 838
[8]	Liu Z, Wu Z J, Wu J Z, Zhang Y. Numerical Simulation onHeat Treatment Process. Beijing: Science Press. 1996: 119(刘庄,吴肇基.吴景之.张毅热处理过程的数值模拟北京:科学出版社,1996:119)
[9]	Wang X, Shao M. The FEM Fundamentals and NumericalMethod. Beijing: Tsinghua University Press, 1995: 382(王瑁,邵敏,有限元法基本原理与数值方法　北京:清华大学出版社,1995:383)
[10]	Melander M, Nicolov J. J Heat Treat, 1985; 4: 2
[11]	Kirkaldy J S, Sharma R C. Scr Metall, 1982; 16: 1193
[12]	Agarwal P K, Brimacombe J K. Metall Trans, 1981; 12B:121
[13]	Wang X Q, Chen Z J. In: Proceedings of the Fourth Annual Conference of Heat Treatment Society CMES, Nanjing,1987: 267(王学前,陈治娟　见:中国机械工程学会热处理学会第四届年会论文集,南京1987:267)

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