Grain growth simulation of \111\ and \110\ oriented CVD–SiC film by Potts Monte Carlo. Liu, C., Yang, Y., Zhang, R., & Luo, X. Computational Materials Science, 44(4):1281–1285, February, 2009.
Grain growth simulation of \111\ and \110\ oriented CVD–SiC film by Potts Monte Carlo [link]Paper  doi  abstract   bibtex   
In analyzing microstructure evolution of material, study for the process of grain growth is both theoretically and practically significant. On (111) and (110) facets, the process of CVD–SiC film in two-dimension is simulated with Potts Monte Carlo method. The relationship between the microstructure morphology and growth rate, nucleating density is analyzed. The simulation result is given as the following. Both competitive growth and coarsening effect have been found in the growth process. The increase of nucleation density results in thinning of the grain size in SiC film. The grain size distribution is found to be self-similar, not differed with the corresponding growth parameter. The fitted result of Weibull and Louat function is better than that of lognormal function obviously. The result is in agreement with the corresponding theory and experiment conclusion well.
@article{liu_grain_2009,
	title = {Grain growth simulation of \{111\} and \{110\} oriented {CVD}–{SiC} film by {Potts} {Monte} {Carlo}},
	volume = {44},
	issn = {0927-0256},
	url = {https://www.sciencedirect.com/science/article/pii/S0927025608004011},
	doi = {10.1016/j.commatsci.2008.08.026},
	abstract = {In analyzing microstructure evolution of material, study for the process of grain growth is both theoretically and practically significant. On (111) and (110) facets, the process of CVD–SiC film in two-dimension is simulated with Potts Monte Carlo method. The relationship between the microstructure morphology and growth rate, nucleating density is analyzed. The simulation result is given as the following. Both competitive growth and coarsening effect have been found in the growth process. The increase of nucleation density results in thinning of the grain size in SiC film. The grain size distribution is found to be self-similar, not differed with the corresponding growth parameter. The fitted result of Weibull and Louat function is better than that of lognormal function obviously. The result is in agreement with the corresponding theory and experiment conclusion well.},
	number = {4},
	urldate = {2023-10-30},
	journal = {Computational Materials Science},
	author = {Liu, Cui-Xia and Yang, Yan-Qing and Zhang, Rong-Jun and Luo, Xian},
	month = feb,
	year = {2009},
	keywords = {Chemical vapor deposition, Grain growth, Monte Carlo, SiC Film},
	pages = {1281--1285},
}

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