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Article Dans Une Revue Intermetallics Année : 2016

Molecular dynamics simulation of Al–Co–Cr–Cu–Fe–Ni high entropy alloy thin film growth

Résumé

Molecular dynamics (MD) simulations are used to study AlCoCrCuFeNi high entropy alloy (HEA) thin film growth on a silicon (100) substrate. Effect of the atomic composition is studied on morphology and atomic scale structure. Input data are chosen to fit with experimental operating conditions of magnetron sputtering deposition process. It is observed that the different structures are determined by the chemical composition and atomic size mismatch. The simulated results are in good agreement with the solid-solution formation rules proposed by Zhang et al [1] for multi-principal component HEAs which based on the two parameters \omega and \delta , respectively describing describe the comprehensive effect of the atomic-size difference in the n-element alloy and the effects of enthalpy and entropy of mixing on formation of multi-component solid-solutions. When \omega>= 1.1 and \delta≤ 6.6%, the multi-component solid solution phase could form. In contrast, the multi-component alloys forming intermetallic compounds and bulk metallic glasses (BMG) have larger value of \delta and smaller value of \omega. The value of \omega for BMG is smaller than that of intermetallic compounds.
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Dates et versions

hal-01212386 , version 1 (06-10-2015)

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Lu Xie, Pascal Brault, Anne-Lise Thomann, Xiao Yang, Yong Zhang, et al.. Molecular dynamics simulation of Al–Co–Cr–Cu–Fe–Ni high entropy alloy thin film growth. Intermetallics, 2016, 68, pp.78-86. ⟨10.1016/j.intermet.2015.09.008⟩. ⟨hal-01212386⟩
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