Multi-phase field simulation of grain growth in multiple phase transformations of a binary alloy 被引量：1

Multi-phase field simulation of grain growth in multiple phase transformations of a binary alloy

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摘要 This work establishes a temperature-controlled sequence function, and a new multi-phase-field model, for liquid- solid-solid multi-phase transformation by coupling the liquid-solid phase transformation model with the solid-solid phase transformation model. Taking an Fe-C alloy as an example, the continuous evolution of a multi-phase transformation is simulated by using this new model. In addition, the growth of grains affected by the grain orientation of the parent phase （generated in liquid-solid phase transformation） in the solid-solid phase transformation is studied. The results show that the morphology of ferrite grains which nucleate at the boundaries of the austenite grains is influenced by the orientation of the parent austenite grains. The growth rate of ferrite grains which nucleate at small-angle austenite grain boundaries is faster than those that nucleate at large-angle austenite grain boundaries. The difference of the growth rate of ferrites grains in different parent phase that nucleate at large-angle austenite grain boundaries, on both sides of the boundaries, is greater than that of ferrites nucleating at small-angle austenite grain boundaries. This work establishes a temperature-controlled sequence function, and a new multi-phase-field model, for liquid- solid-solid multi-phase transformation by coupling the liquid-solid phase transformation model with the solid-solid phase transformation model. Taking an Fe-C alloy as an example, the continuous evolution of a multi-phase transformation is simulated by using this new model. In addition, the growth of grains affected by the grain orientation of the parent phase （generated in liquid-solid phase transformation） in the solid-solid phase transformation is studied. The results show that the morphology of ferrite grains which nucleate at the boundaries of the austenite grains is influenced by the orientation of the parent austenite grains. The growth rate of ferrite grains which nucleate at small-angle austenite grain boundaries is faster than those that nucleate at large-angle austenite grain boundaries. The difference of the growth rate of ferrites grains in different parent phase that nucleate at large-angle austenite grain boundaries, on both sides of the boundaries, is greater than that of ferrites nucleating at small-angle austenite grain boundaries.

作者冯力贾北北朱昶胜安国升肖荣振冯小静

机构地区 College of Materials Science and Engineering State Key Laboratory of Advanced Processing and Recycling of Non-ferrous Metals

出处《Chinese Physics B》 SCIE EI CAS CSCD 2017年第8期87-95,共9页 中国物理B（英文版）

基金 supported by the National Natural Science Foundation of China(Grant Nos.51661020,11504149,and 11364024)

关键词 multi-phase transformation MICROSTRUCTURE multi-phase-field method grain orientation multi-phase transformation, microstructure, multi-phase-field method, grain orientation

分类号 TG141 [一般工业技术—材料科学与工程]

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