从动力学和传热学角度对Fe-66.7%Si(原子分数)合金液滴在充入不同种类和压力保护气体的落管中下落的运动过程和温度变化情况进行了计算分析.从重力水平和熔体冷却速率等方面对该合金液滴落管凝固实验的保护气体种类和压力选择进行了讨论.
参考文献
[1] | Tani J, Kido H. J Appl Phys, 1999; 86:464 |
[2] | Leong D, Harry M, Reeson K J, Homewood K P. Nature,1997; 387:686 |
[3] | Kubaschewski O. Iron-Binary Phase Diagram. Berlin:Springer, 1982:138 |
[4] | Yamauchi I, Ueyama S, Ohnaka I. Mater Sci Eng, 1996;A208:108 |
[5] | Yamauchi I, Nagase T, Ohnaka I. J Alloy Compd, 1999;292:181 |
[6] | Yamauchi I, Okamoto T, Ohata H, Ohnaka I. J Alloy Compd, 1997; 260:162 |
[7] | McCoy J K, Markworth A J, Brodkey R S, Collings E W.Mater Res Soc Syrmp Proc, 1987; 87:163 |
[8] | Evans N D, Hofmeister W H, Bayuzick R J, Robinson M B. Metall Trans, 1986; 17A: 973 |
[9] | Lacy L L, Robinson M B, Evans N D, Bayuzick R J, Rathz T J. Mater Res Soc Symp Proc, 1982; 9:87 |
[10] | Pan M X, Chen X C. Physics, 1988; 17:475(潘明祥,陈熙琛.物理,1988;17:475) |
[11] | CliffR, Grace J R, Weber M E. Bubbles, Drops and Particles. New York: Academic Press, 1978:111 |
[12] | Brazhkin V V, Larchev V I, Popova S V, Skrotskaya G G.Phys Scr, 1989; 39:338 |
[13] | White F M. Viscous Fluid Flow. New York: McGraw-Hill, 1974:35 |
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