Up-Hill Diffusion of Phase-Separated FeCu Melt by Molecular Dynamics Simulation

Molecular dynamics simulation is performed to characterize the concentration fluctuation of FeCu melts during the liquid-liquid phase separation process, which undergoes the following stages: the formation of interconnected structure and its coarsening, migration and coagulation of droplets driven b...

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Bibliographic Details
Published in:Chinese physics letters 2017-02, Vol.34 (2), p.71-75
Main Author: 崔文超 彭传校 程昀 宋凯凯 李雪莲 张振庭 袁胜忠 王丽
Format: Article
Language:English
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Summary:Molecular dynamics simulation is performed to characterize the concentration fluctuation of FeCu melts during the liquid-liquid phase separation process, which undergoes the following stages: the formation of interconnected structure and its coarsening, migration and coagulation of droplets driven by the decreasing of potential energy. The up-hill diffusion happens at the early relaxation period in which Cu atoms in Fe-rich region are forced to move toward Cu-rich region by spinodal decomposition with 90~ Cu content in Cu-rich region and 95~o Fe content in Fe-rich region at temperature of 1500K. The higher diffusion rate of homogeneous atom can be observed at lower temperature, which is attributed to the larger potential energy difference between Cu-rich region and Fe-rich region. It also exhibits energy heterogeneity in the separated liquid. The domain size decreases sharply during the aggregation and coarsening of droplets, after that it keeps unchanged until the coagulation of droplets begins. The studies characterize concentration and energy heterogeneity of phase-separated liquid on the atomic scale.
ISSN:0256-307X
1741-3540
DOI:10.1088/0256-307X/34/2/026401