摘要
Based on transient nucleation theory, a numerical model has been constructed to describe the nucleation process of a new phase in front of the liquid-solid interface of a prior steady-growth phase in peritectic alloy with the combination of the concentration field calculated by a self-consistent numerical model for cellular/dendritic growth. The results show that the nucleation incubation time of a new phase varies with the solidification rate during unidirectional solidification. During unidirectional solidification of the Zn-4.0 wt.% Cu alloy, the incubation time changes very slightly when the solidification rate increases from 50 to 500 μm/s, but it increases significantly when the solidification rate exceeds 500 μm/s. The calculated results show a reasonable agreement with the experimental ones. This model reveals that nucleation of a new phase is time-dependent and reasonably explains the effect of the solidification velocity on the behaviors of nucleation and growth of ε dendrites in the matrix of the η phase in unidirectional solidification of Zn rich Zn-Cu alloys.
源语言 | 英语 |
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页(从-至) | 5360-5368 |
页数 | 9 |
期刊 | Journal of Materials Science |
卷 | 42 |
期 | 14 |
DOI | |
出版状态 | 已出版 - 7月 2007 |