Overcoming time and complexity limitations in molecular dynamics investigations of equilibrium melting

J Copley and S Hamel, MODELLING AND SIMULATION IN MATERIALS SCIENCE AND ENGINEERING, 33, 045011 (2025).

DOI: 10.1088/1361-651X/add282

A hybrid Monte-Carlo molecular-dynamics method for determining solidus and liquidus compositions in multicomponent systems is presented that overcomes both the time limitations in conventional molecular dynamics that prevent the evolution of distinct solid and liquid compositions via diffusion and the complexity challenge that prevents use of thermodynamic assessment in systems of many components. This hybrid method is validated in the Cu-Ni system against an independent assessment of solidus and liquidus compositions based on the regular solution model. Strategies for efficient mapping of different phase diagrams, based on the thermodynamic parameter T0, the temperature at which two phases of the composition X0 have equal free energies, are presented and then demonstrated for the copper-nickel fully miscible system and the gold-silicon eutectic system. A calculation of the solidus and liquidus sampled during the equilibrium melting of equiatomic CrMnFeCoNi is performed, indicating that this method has potential to be extended to the study of many component alloys.

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