Modeling of grain growth kinetics with Read–Shockley grain boundary energy by a modified Monte Carlo algorithm
Q Yu, SK Esche - Materials Letters, 2002 - Elsevier
Q Yu, SK Esche
Materials Letters, 2002•ElsevierGrain growth of a single-phase material with Read–Shockley anisotropic grain boundary
energy was simulated using a modified Monte Carlo (MC) algorithm in which the local
system energy is minimized in every step. The microstructure evolution in the presence of
anisotropy is reproduced correctly. Providing that the initial grain orientations are distributed
randomly, the parabolic growth law is not affected by the degree of anisotropy, which in turn
affects the grain growth rate only. These findings are supported by three arguments rooted in …
energy was simulated using a modified Monte Carlo (MC) algorithm in which the local
system energy is minimized in every step. The microstructure evolution in the presence of
anisotropy is reproduced correctly. Providing that the initial grain orientations are distributed
randomly, the parabolic growth law is not affected by the degree of anisotropy, which in turn
affects the grain growth rate only. These findings are supported by three arguments rooted in …
Grain growth of a single-phase material with Read–Shockley anisotropic grain boundary energy was simulated using a modified Monte Carlo (MC) algorithm in which the local system energy is minimized in every step. The microstructure evolution in the presence of anisotropy is reproduced correctly. Providing that the initial grain orientations are distributed randomly, the parabolic growth law is not affected by the degree of anisotropy, which in turn affects the grain growth rate only. These findings are supported by three arguments rooted in previous theoretical and simulation results.
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