Microstructural transitions of metastable phase in undercooled Fe-7.5 at% Ni alloy

Y. Z. Chen; G. C. Yang; F. Liu; H. Xie; Y. P. Su; N. Liu; C. L. Yang; Y. H. Zhou

doi:10.1016/j.jcrysgro.2005.10.128

Microstructural transitions of metastable phase in undercooled Fe-7.5 at% Ni alloy

Y. Z. Chen, G. C. Yang, F. Liu, H. Xie, Y. P. Su, N. Liu, C. L. Yang, Y. H. Zhou

材料学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

11 引用（Scopus）

摘要

Microstructure characterization and transition of undercooled Fe-7.5 at% Ni melt were investigated, adopting melt fluxing and cyclical overheating. For the samples subjected to low undercoolings, single-phase microstructure results, whereas many second-phase particles, which are deemed as the so-called dendrite core originating from the primary solidification of the metastable δ phase, were observed in the as-solidified samples after high undercoolings. Applying the classical nucleation theory, the competitive nucleation between δ and γ phases was studied, thus giving calculations consistent with the observed experiment results. In order to understand the forming mechanism of the dendrite core, a schematic diagram incorporating solidification and solid-state transformation was given. On this basis the microstructural transition of the metastable phase was declared.

源语言	英语
页（从-至）	1-5
页数	5
期刊	Journal of Crystal Growth
卷	289
期	1
DOI	https://doi.org/10.1016/j.jcrysgro.2005.10.128
出版状态	已出版 - 15 3月 2006

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title = "Microstructural transitions of metastable phase in undercooled Fe-7.5 at% Ni alloy",

abstract = "Microstructure characterization and transition of undercooled Fe-7.5 at% Ni melt were investigated, adopting melt fluxing and cyclical overheating. For the samples subjected to low undercoolings, single-phase microstructure results, whereas many second-phase particles, which are deemed as the so-called dendrite core originating from the primary solidification of the metastable δ phase, were observed in the as-solidified samples after high undercoolings. Applying the classical nucleation theory, the competitive nucleation between δ and γ phases was studied, thus giving calculations consistent with the observed experiment results. In order to understand the forming mechanism of the dendrite core, a schematic diagram incorporating solidification and solid-state transformation was given. On this basis the microstructural transition of the metastable phase was declared.",

keywords = "A1. Metastable phase, A1. Microstructure, A1. Solidification, A1. Undercooling",

author = "Chen, {Y. Z.} and Yang, {G. C.} and F. Liu and H. Xie and Su, {Y. P.} and N. Liu and Yang, {C. L.} and Zhou, {Y. H.}",

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T1 - Microstructural transitions of metastable phase in undercooled Fe-7.5 at% Ni alloy

AU - Chen, Y. Z.

AU - Yang, G. C.

AU - Liu, F.

AU - Xie, H.

AU - Su, Y. P.

AU - Liu, N.

AU - Yang, C. L.

AU - Zhou, Y. H.

PY - 2006/3/15

Y1 - 2006/3/15

N2 - Microstructure characterization and transition of undercooled Fe-7.5 at% Ni melt were investigated, adopting melt fluxing and cyclical overheating. For the samples subjected to low undercoolings, single-phase microstructure results, whereas many second-phase particles, which are deemed as the so-called dendrite core originating from the primary solidification of the metastable δ phase, were observed in the as-solidified samples after high undercoolings. Applying the classical nucleation theory, the competitive nucleation between δ and γ phases was studied, thus giving calculations consistent with the observed experiment results. In order to understand the forming mechanism of the dendrite core, a schematic diagram incorporating solidification and solid-state transformation was given. On this basis the microstructural transition of the metastable phase was declared.

AB - Microstructure characterization and transition of undercooled Fe-7.5 at% Ni melt were investigated, adopting melt fluxing and cyclical overheating. For the samples subjected to low undercoolings, single-phase microstructure results, whereas many second-phase particles, which are deemed as the so-called dendrite core originating from the primary solidification of the metastable δ phase, were observed in the as-solidified samples after high undercoolings. Applying the classical nucleation theory, the competitive nucleation between δ and γ phases was studied, thus giving calculations consistent with the observed experiment results. In order to understand the forming mechanism of the dendrite core, a schematic diagram incorporating solidification and solid-state transformation was given. On this basis the microstructural transition of the metastable phase was declared.

KW - A1. Metastable phase

KW - A1. Microstructure

KW - A1. Solidification

KW - A1. Undercooling

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U2 - 10.1016/j.jcrysgro.2005.10.128

DO - 10.1016/j.jcrysgro.2005.10.128

M3 - 文章

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SN - 0022-0248

VL - 289

SP - 1

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JO - Journal of Crystal Growth

JF - Journal of Crystal Growth

IS - 1

ER -

Microstructural transitions of metastable phase in undercooled Fe-7.5 at% Ni alloy

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