Molecular dynamics simulation of the coalescence and melting process of Au and Cu nano-clusters
C Gang and WC Jie and Z Peng, INTERNATIONAL JOURNAL OF MODERN PHYSICS B, 32, 1850061 (2018).
DOI: 10.1142/S0217979218500613
Molecular dynamic (MD) method is used to study the coalescence and fusing process of Au and Cu nanoclusters. The results show that shear deformation, surface and interface diffusion play important role in different stages of all simulation procedure. In most cases, shear deformation produces the twin boundary or/and stacking fault in particles by particle rotation and slide. The angle between the 111 of Au and Cu particles decrease with increasing temperature, which promotes the formation of the stable interface. Furthermore, the coalescence point and melting temperature increase as cluster diameter increases. For the other cases, there are no particle rotation and slide phenomenon in the elevating temperature process because the stable interface can be formed by forming twin boundaries once two particles contact.
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