会议论文详细信息
18th APS-SCCM; 24th AIRAPT
The Embedded Atom Model and large-scale MD simulation of tin under shock loading
Sapozhnikov, F.A.^1 ; Ionov, G.V.^1 ; Dremov, V.V.^1 ; Soulard, L.^2 ; Durand, O.^2
VNIITF, Snezhinsk, Russia^1
CEA, DAM, DIF, Arpajon
F-91297, France^2
关键词: Ambient conditions;    Elevated pressure;    Embedded atom models;    Interatomic potential;    Isothermal compressions;    Melting and solidification;    Principal Hugoniot;    Transition pressure;   
Others  :  https://iopscience.iop.org/article/10.1088/1742-6596/500/3/032017/pdf
DOI  :  10.1088/1742-6596/500/3/032017
来源: IOP
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【 摘 要 】

The goal of the work was to develop an interatomic potential, that can be used in large-scale classical MD simulations to predict tin properties near the melting curve, the melting curve itself, and the kinetics of melting and solidification when shock and ramp loading. According to phase diagram, shocked tin melts from bcc phase, and since the main objective was to investigate melting, the EAM was parameterized for bcc phase. The EAM was optimized using isothermal compression data (experimental at T=300 K and ab-initio at T=0 K for bcc, fcc, bct structures), experimental and QMD data on the Hugoniot and on the melting at elevated pressures. The Hugoniostat calculations centred at β-tin at ambient conditions showed that the calculated Hugoniot is in good agreement with experimental and QMD data above p-bct transition pressure. Calculations of overcooled liquid in pressure range corresponding to bcc phase showed crystallization into bcc phase. Since the principal Hugoniot of tin originates from the β-tin that is not described by this EAM the special initial state of bcc samples was constructed to perform large-scale MD simulations of shock loading.

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