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OALib Journal期刊
ISSN: 2333-9721
费用:99美元
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Fe-C合金凝固过程流动、传热、传质的耦合数值模拟
, PP. 941-946
Keywords: 铁碳合金,凝固,流动,传热,传质,数值模拟
Abstract:
通过耦合求解凝固过程质量、动量、能量和溶质守恒方程,对Fe-C二元合金凝固过程中的流动、传热、传质现象进行了数值模拟.基于控制容积的有限差分法(CV-FDM)建立了微分方程的隐式离散格式,采用SIMPLE方法求解代数方程的求解采用交替方向隐式(ADI)和三对角矩阵算法(TDMA)相结合的方法.对一个上下边界绝热、左右边界对流换热的二维矩形区域的模拟计算表明,凝固初期排出的溶质主要被凝固前沿的液相流动带入液相区.在固液两相区中,由于枝晶骨架造成的流动阻力很大,在不考虑凝固收缩的条件下,两相区中的液相流动速度一般较纯液相区的流速小2-3个数量级.
| [1] | Thevik H J, Mo A, Rusten T. Metall Mater Trans, 1999;30B: 135
|
| [2] | Flemings M C, Nereo G E. Trans AIME, 1967; 239: 1449
|
| [3] | Flemings M C, Mehrabian R, Nereo G E. Trans AIME,1968; 242: 41
|
| [4] | Flemings M C, Nereo G E. Trans AIME, 1968; 242: 50
|
| [5] | Bennon W D, Incropera F P. Int J Heat Mass Transfer,1987; 30: 2161
|
| [6] | Bennon W D, Incropera F P. Int J Heat Mass Transfer,1987; 30: 2171
|
| [7] | Beckermann C, Viskanta R. Phys Chem Hydrodynamics,1988; 10: 195
|
| [8] | Ni J, Beckermann C. Metall Trans, 1991; 22B: 349
|
| [9] | Schneider M C, Beckermann C. Metall Mater Trans, 1995;26A: 2373
|
| [10] | Wang C Y, Beckermann C. Metall Mater Trans, 1996;27A: 2754
|
| [11] | Wang C Y, Beckermann C. Metall Mater Trans, 1996;27A: 2765
|
| [12] | Beckermann C, Wang C Y. Metall Mater Trans, 1996;27A: 2784
|
| [13] | Xu Daming, Li Qingchun. Numer Heat Transfer, 1991;20: 181
|
| [14] | Gu J P, Liu Z, Chen X C. Ada Metall Sin, 1997; 33: 461 (顾江平,刘 庄,陈晓慈.金属学报,1997;33:461)
|
| [15] | Felicelli S D, Poirier D R, Heinrich J C. Metall MaterTrans, 1998; 29B: 847
|
| [16] | Patankar S V. Numerical Heat Transfer and Fluid Flow.New York: Hemisphere, 1980: 79
|
| [17] | Du Q, Li D Z, Li Y Y. Acta Metall Sin, 2000; 36: 1197 (杜 强,李殿中,李依依.金属学报,2000;36:1197)
|
| [18] | Neilson D G, Incropera F P. Int J Heat Mass Transfer, 1991; 34: 1717T
|
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