Free energy of steps at faceted (1 1 1) solid-liquid interfaces in the Si-Al system calculated using capillary fluctuation method
2017; Elsevier BV; Volume: 134; Linguagem: Inglês
10.1016/j.commatsci.2017.03.044
ISSN1879-0801
AutoresPeyman Saidi, Rodrigo Freitas, Timofey Frolov, Mark Asta, J.J. Hoyt,
Tópico(s)Aluminum Alloy Microstructure Properties
ResumoMolecular-dynamics simulations using interatomic potentials of the angular embedded atom method form have been performed on the Al-Si system to compute the excess free energy of steps on the (1 1 1) solid-liquid interface. The solid-liquid step free energy was obtained by monitoring equilibrium fluctuations in the step position for Si solids in contact with Al-Si liquids of compositions Al-87.4at.%Si and Al-59.4at.%Si at two step orientations, [112¯] and [1¯10]. No anisotropy in the step free energy was observed for these two alloying systems, and also, the step free energy for the high concentration and high temperature 87%Si alloy was found to be greater than that of the Al-59.4% alloy. For the low temperature case of Al-30at.%Si the capillary fluctuation method can no longer be applied to extract the step free energy due to smoothness of the steps.
Referência(s)