Atomic simulations for surface-initiated melting of Nb(111)
(College of Physics and Electronics, Hunan University of Arts and Science, Changde 415000, China)
Abstract: A modified analytic embedded-atom model(MAEAM) was applied to investigate surface premelting and melting behaviors of Nb(111) plane by molecular dynamics(MD) simulations. First the relaxation of surface interface space at 300 K was studied. Then a number N of the disordered atoms per unit area was determined at the given temperatures to investigate the surface premelting and melting evolution. The obtained results indicated that the premelting phenomena occurred at about 1 100 K and a liquid-like layer emerged on (111) plane simultaneously. As temperature increased up to 2 200 K, the number N grew logarithmically for short-range metallic interactions. Upon 2 350 K surface melting generated originally and the number N increased exponentially with the incremental temperature.
Key words: melting; premelting; Nb(111) plane; modified analytic embedded-atom model(MAEAM); molecular dynamics(MD)