The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy

Z. Chen; F. Liu; X. Q. Yang; N. Liu; C. J. Shen

doi:10.1016/j.jcrysgro.2012.05.011

The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy

Z. Chen, F. Liu, X. Q. Yang, N. Liu, C. J. Shen

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy was studied. Three kinds of solidified paths were adopted following recalescence, i.e., quenching at recalescence moment, quenching after recalescence plateau and natural cooling. In comparison of the three paths, it was evidenced that the metastable dendrite core resulted in the incomplete transition of the primary δ dendrite to γ phase. In combination with the JMA solid-state transition kinetic theory, the formation of dendrite core was dominated by volume diffusion controlled-δ/γ transition. Two typical morphologies, i.e., small granules and dendrite trucks in dendrite cores, have been detected. It may be attributed to the volume fraction of δ/γ transition.

源语言	英语
页（从-至）	174-180
页数	7
期刊	Journal of Crystal Growth
卷	354
期	1
DOI	https://doi.org/10.1016/j.jcrysgro.2012.05.011
出版状态	已出版 - 1 9月 2012

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10.1016/j.jcrysgro.2012.05.011

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title = "The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy",

abstract = "The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy was studied. Three kinds of solidified paths were adopted following recalescence, i.e., quenching at recalescence moment, quenching after recalescence plateau and natural cooling. In comparison of the three paths, it was evidenced that the metastable dendrite core resulted in the incomplete transition of the primary δ dendrite to γ phase. In combination with the JMA solid-state transition kinetic theory, the formation of dendrite core was dominated by volume diffusion controlled-δ/γ transition. Two typical morphologies, i.e., small granules and dendrite trucks in dendrite cores, have been detected. It may be attributed to the volume fraction of δ/γ transition.",

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author = "Z. Chen and F. Liu and Yang, {X. Q.} and N. Liu and Shen, {C. J.}",

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T1 - The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy

AU - Chen, Z.

AU - Liu, F.

AU - Yang, X. Q.

AU - Liu, N.

AU - Shen, C. J.

PY - 2012/9/1

Y1 - 2012/9/1

N2 - The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy was studied. Three kinds of solidified paths were adopted following recalescence, i.e., quenching at recalescence moment, quenching after recalescence plateau and natural cooling. In comparison of the three paths, it was evidenced that the metastable dendrite core resulted in the incomplete transition of the primary δ dendrite to γ phase. In combination with the JMA solid-state transition kinetic theory, the formation of dendrite core was dominated by volume diffusion controlled-δ/γ transition. Two typical morphologies, i.e., small granules and dendrite trucks in dendrite cores, have been detected. It may be attributed to the volume fraction of δ/γ transition.

AB - The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy was studied. Three kinds of solidified paths were adopted following recalescence, i.e., quenching at recalescence moment, quenching after recalescence plateau and natural cooling. In comparison of the three paths, it was evidenced that the metastable dendrite core resulted in the incomplete transition of the primary δ dendrite to γ phase. In combination with the JMA solid-state transition kinetic theory, the formation of dendrite core was dominated by volume diffusion controlled-δ/γ transition. Two typical morphologies, i.e., small granules and dendrite trucks in dendrite cores, have been detected. It may be attributed to the volume fraction of δ/γ transition.

KW - A1. Crystal structure

KW - A1. Solidification

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The effect of non-equilibrium δ/γ transition on the formation of metastable dendrite core in undercooled Fe-Cu alloy

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