钴熔解曲线的分子动力学模拟

Aabiskar Bhusal, K. Adhikari
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引用次数: 0

摘要

采用分子动力学模拟方法,利用嵌入原子模型(EAM)电势,通过热至融、空穴、迟滞和界面等方法估计钴的熔点。例如,用这些方法估算出的熔融温度分别为2102 K、1944.15 K、1731 K和1725±25 K。然后,计算了不同压力下的熔点。绘制了熔点随压力变化的曲线图,并与现有的模拟和实验结果进行了比较。在低压范围内的熔点与之前的金刚石砧细胞实验相似。此外,利用Simon方程计算了在0 GPa压力下,单相36 K/GPa和两相40 K/GPa的熔化斜率。
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Melting Curve of Cobalt using Molecular Dynamics Simulation
Molecular dynamics simulation is used to estimate the melting point of cobalt using the embedded atomic model (EAM) potential by heat until melting, void, hysteresis and interface methods. For instance, the estimated melting temperature are 2102 K, 1944.15 K, 1731 K and 1725±25 K using these methods, respectively. Then, the melting points at different pressures are calculated. A graph depicting the variation of melting point with pressure is drawn and compared with the available simulation and experimental results. The melting point at a low-pressure range is similar to the previous diamond anvil cell experiments. Besides, using the Simon equation, we calculated the melting slope at 0 GPa pressure of 36 K/GPa for one phase and 40 K/GPa for two-phase methods.
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