Cooling rate dependence of structural order in Ni62Nb38 metallic glass
TQ Wen and Y Sun and BL Ye and L Tang and ZJ Yang and KM Ho and CZ Wang and N Wang, JOURNAL OF APPLIED PHYSICS, 123, 045108 (2018).
DOI: 10.1063/1.5019681
Molecular dynamics (MD) simulations are performed to study the structure of Ni62Nb38 bulk metallic glass at the atomistic level. Structural analysis based on the cluster alignment method is carried out and a new Ni-centered distorted-icosahedra (DISICO) motif is excavated. We show that the short-range order and medium-range order in the glass are enhanced with lower cooling rate. Almost 50% of the clusters around the Ni atoms in the well-annealed Ni62Nb38 glass sample from our MD simulations can be classified as DISICO. It is revealed that the structural distortion with respect to the perfect icosahedra is driven by chemical ordering in the distorted region of the DISICO motif. The relationship between the structure, energy, and dynamics in this glass- forming alloy during the cooling and annealing processes is also established. Published by AIP Publishing.
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