Molecular dynamics simulation of melting, solidification and remelting processes of aluminum [electronic resource]

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Solhjoo, S ; Sharif University of Technology

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Type of Document: Article
Abstract:
A molecular dynamics simulation study has been performed to investigate the solidification and remelting of aluminum using Sutton - Chen many body potential. Different numbers of atoms from 108 to 2048 atoms were considered to find an adequate size for the system. Three different cooling and heating rates, i.e. 1 0 12 K/s, 10 13 K/s and 10 14 K/s, were used. The structure of the system was examined using radial distribution function. The melting and crystallization temperatures of aluminum were evaluated by calculating the variation of heat capacity during the phase t ransformation. Additionally, Wendt – Abraham parameters were calculated to determine the glass transition temperature. It is shown that the melting temperature o f aluminum increases as the heating rate increases. During solidification, a crystalline or amorp hous - like structure is formed depending on the cooling rate. Remelting of the amorphous solidified material is accompanied by crystallization before melting at heating rates <10 14 K/s. The melting temperature also depends on the degree of structural crysta llinity before remelting
Keywords:
Molecular dynamics ; rapid solidification ; remelting ; metallic glasses ; aluminum
Source: Iranian Journal of Science and Technology ( IJST): Transactions of Mechanical Engineering ; 2012, Vol.36, No. M1, P.13-23
URL: http://www.sid.ir/en/VEWSSID/J_pdf/8542012M102.pdf