3D phase field modeling of multi-dendrites evolution in solidification and validation by synchrotron x-ray tomography

Shuo Wang; Zhipeng Guo; Jinwu Kang; Meishuai Zou; Xiaodong Li; Ang Zhang; Wenjia Du; Wei Zhang; Tung Lik Lee; Shoumei Xiong; Jiawei Mi

doi:10.3390/ma14030520

3D phase field modeling of multi-dendrites evolution in solidification and validation by synchrotron x-ray tomography

Shuo Wang, Zhipeng Guo^*, Jinwu Kang, Meishuai Zou, Xiaodong Li, Ang Zhang, Wenjia Du, Wei Zhang, Tung Lik Lee, Shoumei Xiong, Jiawei Mi^*

^*此作品的通讯作者

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

In this paper, the dynamics of multi-dendrite concurrent growth and coarsening of an Al-15 wt.% Cu alloy was studied using a highly computationally efficient 3D phase field model and real-time synchrotron X-ray micro-tomography. High fidelity multi-dendrite simulations were achieved and the results were compared directly with the time-evolved tomography datasets to quantify the relative importance of multi-dendritic growth and coarsening. Coarsening mechanisms under different solidification conditions were further elucidated. The dominant coarsening mechanisms change from small arm melting and interdendritic groove advancement to coalescence when the solid volume fraction approaches ~0.70. Both tomography experiments and phase field simulations indicated that multi-dendrite coarsening obeys the classical Lifshitz–Slyozov–Wagner theory Rⁿ − Rⁿ0^=kc(t − t₀), but with a higher constant of n = 4.3.

源语言	英语
文章编号	520
页（从-至）	1-19
页数	19
期刊	Materials
卷	14
期	3
DOI	https://doi.org/10.3390/ma14030520
出版状态	已出版 - 1 2月 2021

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title = "3D phase field modeling of multi-dendrites evolution in solidification and validation by synchrotron x-ray tomography",

abstract = "In this paper, the dynamics of multi-dendrite concurrent growth and coarsening of an Al-15 wt.% Cu alloy was studied using a highly computationally efficient 3D phase field model and real-time synchrotron X-ray micro-tomography. High fidelity multi-dendrite simulations were achieved and the results were compared directly with the time-evolved tomography datasets to quantify the relative importance of multi-dendritic growth and coarsening. Coarsening mechanisms under different solidification conditions were further elucidated. The dominant coarsening mechanisms change from small arm melting and interdendritic groove advancement to coalescence when the solid volume fraction approaches ~0.70. Both tomography experiments and phase field simulations indicated that multi-dendrite coarsening obeys the classical Lifshitz–Slyozov–Wagner theory Rn − Rn0=kc(t − t0), but with a higher constant of n = 4.3.",

keywords = "Dendrite evolution, Phase field modeling, Solidification, Synchrotron X-ray tomography",

author = "Shuo Wang and Zhipeng Guo and Jinwu Kang and Meishuai Zou and Xiaodong Li and Ang Zhang and Wenjia Du and Wei Zhang and Lee, {Tung Lik} and Shoumei Xiong and Jiawei Mi",

note = "Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

month = feb,

day = "1",

doi = "10.3390/ma14030520",

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T1 - 3D phase field modeling of multi-dendrites evolution in solidification and validation by synchrotron x-ray tomography

AU - Wang, Shuo

AU - Guo, Zhipeng

AU - Kang, Jinwu

AU - Zou, Meishuai

AU - Li, Xiaodong

AU - Zhang, Ang

AU - Du, Wenjia

AU - Zhang, Wei

AU - Lee, Tung Lik

AU - Xiong, Shoumei

AU - Mi, Jiawei

PY - 2021/2/1

Y1 - 2021/2/1

N2 - In this paper, the dynamics of multi-dendrite concurrent growth and coarsening of an Al-15 wt.% Cu alloy was studied using a highly computationally efficient 3D phase field model and real-time synchrotron X-ray micro-tomography. High fidelity multi-dendrite simulations were achieved and the results were compared directly with the time-evolved tomography datasets to quantify the relative importance of multi-dendritic growth and coarsening. Coarsening mechanisms under different solidification conditions were further elucidated. The dominant coarsening mechanisms change from small arm melting and interdendritic groove advancement to coalescence when the solid volume fraction approaches ~0.70. Both tomography experiments and phase field simulations indicated that multi-dendrite coarsening obeys the classical Lifshitz–Slyozov–Wagner theory Rn − Rn0=kc(t − t0), but with a higher constant of n = 4.3.

AB - In this paper, the dynamics of multi-dendrite concurrent growth and coarsening of an Al-15 wt.% Cu alloy was studied using a highly computationally efficient 3D phase field model and real-time synchrotron X-ray micro-tomography. High fidelity multi-dendrite simulations were achieved and the results were compared directly with the time-evolved tomography datasets to quantify the relative importance of multi-dendritic growth and coarsening. Coarsening mechanisms under different solidification conditions were further elucidated. The dominant coarsening mechanisms change from small arm melting and interdendritic groove advancement to coalescence when the solid volume fraction approaches ~0.70. Both tomography experiments and phase field simulations indicated that multi-dendrite coarsening obeys the classical Lifshitz–Slyozov–Wagner theory Rn − Rn0=kc(t − t0), but with a higher constant of n = 4.3.

KW - Dendrite evolution

KW - Phase field modeling

KW - Solidification

KW - Synchrotron X-ray tomography

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U2 - 10.3390/ma14030520

DO - 10.3390/ma14030520

M3 - Article

AN - SCOPUS:85099769687

SN - 1996-1944

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SP - 1

EP - 19

JO - Materials

JF - Materials

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M1 - 520

ER -

3D phase field modeling of multi-dendrites evolution in solidification and validation by synchrotron x-ray tomography

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