Numerical simulation of the Liquid-liquid phase separation and microstructure evolution of Al-In immiscible alloys during cooling

Numerical simulation of the Liquid-liquid phase separation and microstructure evolution of Al-In immiscible alloys during cooling

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摘要 A numerical model has been developed to describe the microstructural evolution of Al In immiscible alloys through the miscibility gap. The model considers the common action of nucleation, diffusible growth, Brownian collision and motion collision between the second phase droplets. The simulation results are dynamically visualized and show that the volume fraction, distribution and size of the second phase droplets satisfactorily agree with the experimental results. So the model can be used to predict the microstructural evolution of Al In immiscible alloys during the cooling process. A numerical model has been developed to describe the microstructural evolution of Al In immiscible alloys through the miscibility gap. The model considers the common action of nucleation, diffusible growth, Brownian collision and motion collision between the second phase droplets. The simulation results are dynamically visualized and show that the volume fraction, distribution and size of the second phase droplets satisfactorily agree with the experimental results. So the model can be used to predict the microstructural evolution of Al In immiscible alloys during the cooling process.

作者苏彦庆崔红保郭景杰刘源贾均傅恒志

出处《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2002年第2期149-154,共6页 哈尔滨工业大学学报（英文版）

关键词 Al-In IMMISCIBLE alloy NUMERICAL simulation microstructure LIQUID-LIQUID phase separation process VISUALIZATION Al In immiscible alloy numerical simulation microstructure liquid liquid phase separation process visualization

分类号 TF131.2 [冶金工程—冶金物理化学]

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2002年第2期

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Numerical simulation of the Liquid-liquid phase separation and microstructure evolution of Al-In immiscible alloys during cooling

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