Liquid-phase Separation in Rapid Solidification of Undercooled Fe-Co-Cu Melts

Ning Liu; Feng Liu; Zheng Chen; Gencang Yang; Changlin Yang; Yaohe Zhou

doi:10.1016/S1005-0302(12)60107-8

Liquid-phase Separation in Rapid Solidification of Undercooled Fe-Co-Cu Melts

Ning Liu, Feng Liu, Zheng Chen, Gencang Yang, Changlin Yang, Yaohe Zhou

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

26 引用（Scopus）

摘要

The homogeneous liquid was separated into two phases, (Fe, Co)-rich L1 and Cu-rich L2, once the melt was undercooled below a liquid-phase separation temperature T _sep. If the duration from T _sep to T _s1 (solidification temperature of L1 phase), termed the liquid-phase separation interval Δt, exceeded a critical value, an eggtype structure was observed. By utilizing differential thermal analyses (DTA), the solidification process of the undercooled Fe-Co-Cu alloys was studied. Additionally, an immiscible boundary was obtained, which was a convex parabola with a symmetrical axis of x _Cu=0.52. Depending on the relative amounts of L1 and L2, the minor phase was nucleated firstly to form liquid droplets and separated from the original liquids at the beginning of liquid-phase separation.

源语言	英语
页（从-至）	622-625
页数	4
期刊	Journal of Materials Science and Technology
卷	28
期	7
DOI	https://doi.org/10.1016/S1005-0302(12)60107-8
出版状态	已出版 - 7月 2012

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title = "Liquid-phase Separation in Rapid Solidification of Undercooled Fe-Co-Cu Melts",

abstract = "The homogeneous liquid was separated into two phases, (Fe, Co)-rich L1 and Cu-rich L2, once the melt was undercooled below a liquid-phase separation temperature T sep. If the duration from T sep to T s1 (solidification temperature of L1 phase), termed the liquid-phase separation interval Δt, exceeded a critical value, an eggtype structure was observed. By utilizing differential thermal analyses (DTA), the solidification process of the undercooled Fe-Co-Cu alloys was studied. Additionally, an immiscible boundary was obtained, which was a convex parabola with a symmetrical axis of x Cu=0.52. Depending on the relative amounts of L1 and L2, the minor phase was nucleated firstly to form liquid droplets and separated from the original liquids at the beginning of liquid-phase separation.",

keywords = "Egg-type structure, Liquid-phase separation, Undercooled Fe-Co-Cu alloys",

author = "Ning Liu and Feng Liu and Zheng Chen and Gencang Yang and Changlin Yang and Yaohe Zhou",

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AU - Liu, Ning

AU - Liu, Feng

AU - Chen, Zheng

AU - Yang, Gencang

AU - Yang, Changlin

AU - Zhou, Yaohe

PY - 2012/7

Y1 - 2012/7

N2 - The homogeneous liquid was separated into two phases, (Fe, Co)-rich L1 and Cu-rich L2, once the melt was undercooled below a liquid-phase separation temperature T sep. If the duration from T sep to T s1 (solidification temperature of L1 phase), termed the liquid-phase separation interval Δt, exceeded a critical value, an eggtype structure was observed. By utilizing differential thermal analyses (DTA), the solidification process of the undercooled Fe-Co-Cu alloys was studied. Additionally, an immiscible boundary was obtained, which was a convex parabola with a symmetrical axis of x Cu=0.52. Depending on the relative amounts of L1 and L2, the minor phase was nucleated firstly to form liquid droplets and separated from the original liquids at the beginning of liquid-phase separation.

AB - The homogeneous liquid was separated into two phases, (Fe, Co)-rich L1 and Cu-rich L2, once the melt was undercooled below a liquid-phase separation temperature T sep. If the duration from T sep to T s1 (solidification temperature of L1 phase), termed the liquid-phase separation interval Δt, exceeded a critical value, an eggtype structure was observed. By utilizing differential thermal analyses (DTA), the solidification process of the undercooled Fe-Co-Cu alloys was studied. Additionally, an immiscible boundary was obtained, which was a convex parabola with a symmetrical axis of x Cu=0.52. Depending on the relative amounts of L1 and L2, the minor phase was nucleated firstly to form liquid droplets and separated from the original liquids at the beginning of liquid-phase separation.

KW - Egg-type structure

KW - Liquid-phase separation

KW - Undercooled Fe-Co-Cu alloys

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Liquid-phase Separation in Rapid Solidification of Undercooled Fe-Co-Cu Melts

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