Phase-field modeling of microelastically controlled eutectic lamellar growth in a Ti-Fe system

Z. Ebrahimi; J.L. Rezende; J. Kundin

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Phase-field modeling of microelastically controlled eutectic lamellar growth in a Ti-Fe system

机译：Ti-Fe系统中微弹性控制的共晶层状生长的相场建模

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We have developed a microelastical phase-field model to incorporate elastic energy and misfit stresses in eutectic growth. We apply the model to assess the formation of eutectic structures in Ti-Fe alloy, which exhibit high lattice mismatch owing to difference between lattice parameters of β-Ti and FeTi phases. Numerical simulations of both directional and free eutectic growth are performed by applying cubic anisotropy to the Ti-Fe system. The resulted microstructures are presented and the corresponding stress distributions are evaluated.

机译：我们已经开发了一种微弹性相场模型，在共晶生长中纳入了弹性能和失配应力。我们应用该模型评估在Ti-Fe合金中的共晶结构的形成，由于β-Ti和FeTi相的晶格参数不同，它们表现出很高的晶格失配。通过将立方各向异性应用于Ti-Fe系统，进行了定向和自由共晶生长的数值模拟。介绍了所得的微结构并评估了相应的应力分布。

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来源
《Journal of Crystal Growth》 |2012年第1期|36-42|共7页
作者
Z. Ebrahimi; J.L. Rezende; J. Kundin;
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作者单位

Department of Mechanical Engineering, Payame Noor University, PO BOX 19395-3697 Tehran, Iran;

Institute of Minerals Engineering (GHI), RWTH Aachen University D-52056, Germany;

Institute of Minerals Engineering (GHI), RWTH Aachen University D-52056, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
A1. Eutectic growth; A1. Misfit stresses; A1. Phase-field model; A1. Solidification; B1. Ti-Fe alloy;

机译：A1。共晶生长;A1。不合适的压力;A1。相场模型;A1。凝固;B1。钛铁合金;

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2. Phase-field modeling of eutectic Ti-Fe alloy solidification [J] . J. Kundin, R. Kumar, A. Schlieter, Computational Materials Science . 2012,第Null期

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Phase-field modeling of microelastically controlled eutectic lamellar growth in a Ti-Fe system

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