Influence of the Perturbation on Growth Pattern at the Solid/liquid Interface during Directional Solidification of Alloy

Wang Zidong; Zhou Yongli; Chang Guowei; Hu Hanqi; Li Defu

doi:10.13374/j.issn1001-053x.1997.06.009

Volume 19 Issue 6

Sep. 2021

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Article Navigation > Chinese Journal of Engineering > 1997 > 19(6): 560-565

Wang Zidong, Zhou Yongli, Chang Guowei, Hu Hanqi, Li Defu. Influence of the Perturbation on Growth Pattern at the Solid/liquid Interface during Directional Solidification of Alloy[J]. Chinese Journal of Engineering, 1997, 19(6): 560-565. doi: 10.13374/j.issn1001-053x.1997.06.009

Citation:

Wang Zidong, Zhou Yongli, Chang Guowei, Hu Hanqi, Li Defu. Influence of the Perturbation on Growth Pattern at the Solid/liquid Interface during Directional Solidification of Alloy[J]. Chinese Journal of Engineering, 1997, 19(6): 560-565. doi: 10.13374/j.issn1001-053x.1997.06.009

Citation:

Wang Zidong, Zhou Yongli, Chang Guowei, Hu Hanqi, Li Defu. Influence of the Perturbation on Growth Pattern at the Solid/liquid Interface during Directional Solidification of Alloy[J]. Chinese Journal of Engineering, 1997, 19(6): 560-565. doi: 10.13374/j.issn1001-053x.1997.06.009

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Influence of the Perturbation on Growth Pattern at the Solid/liquid Interface during Directional Solidification of Alloy

doi: 10.13374/j.issn1001-053x.1997.06.009

1. Material Science and Engineering School, UST Beijing, Beijing 100083, China;
2. Material Science and Engineering School, UST Beijing, Beijing 100083, China

Received Date: 1997-09-22
Available Online: 2021-09-10

Abstract

Abstract

The influence of the perturbation on crystal growth patterns of plane and cell at the solid/ liquid interface during unidirectional solidification has been studied. The critical condition of the transition from plane to cell of alloys and the condition of the steady state growth of cell are given. It has been demonstrated by linear steady theory of nonlinear theory for the first time that the bifurcation mechanism of the transition from plane to cell and the interface of cell of alloy at the solid/liquid interface during unidirectional solidification is subcritical bifurcation. This bifurcation mechanism is proved by BrC₄ alloy.
- solidification,
- nonequilibrium,
- nonlinearity,
- subcritical bifurcation