Xiaoyan Song and Guoquan Liu, Three-Dimensional and Cross-sectional Characteristics of Normal Grain Growth Based on Monte Carlo Simulation, J. Univ. Sci. Technol. Beijing, 5(1998), No. 3, pp. 129-133,139.
Cite this article as:
Xiaoyan Song and Guoquan Liu, Three-Dimensional and Cross-sectional Characteristics of Normal Grain Growth Based on Monte Carlo Simulation, J. Univ. Sci. Technol. Beijing, 5(1998), No. 3, pp. 129-133,139.
Xiaoyan Song and Guoquan Liu, Three-Dimensional and Cross-sectional Characteristics of Normal Grain Growth Based on Monte Carlo Simulation, J. Univ. Sci. Technol. Beijing, 5(1998), No. 3, pp. 129-133,139.
Citation:
Xiaoyan Song and Guoquan Liu, Three-Dimensional and Cross-sectional Characteristics of Normal Grain Growth Based on Monte Carlo Simulation, J. Univ. Sci. Technol. Beijing, 5(1998), No. 3, pp. 129-133,139.
Material Science and Engineering School, University of Science and Technology Beijing, Beijing 100083, China
Department of Materials Science and Engineering, Hebei University of Technology, Tianjin 300130, China
中文摘要
An appropriate Monte Carlo method was developed to simulate the three-dimensional normal grain growth more completely. Comparative investigation on the three-dimensional and the cross-sectional characteristics of normal grain growth was done. It was found that the time exponent of grain growth determined from cross-section exhibits the same rule of increasing slowly with time and approaching the theoretical value n = 0.5 of steadygrain growth as the three-dimensional (3-D) system. From change of the number of grains per unit area with timemeasured in cross-section, the state of 3-D normal grain growth may be predicted. The gtain size distribution incross-section is different from that in 3-D system and can not express the evolution characteristic of the 3-D distribution. Furthermore, there exists statistical connection between the topological parameters in cross-section and thosein three-dimensions.
An appropriate Monte Carlo method was developed to simulate the three-dimensional normal grain growth more completely. Comparative investigation on the three-dimensional and the cross-sectional characteristics of normal grain growth was done. It was found that the time exponent of grain growth determined from cross-section exhibits the same rule of increasing slowly with time and approaching the theoretical value n = 0.5 of steadygrain growth as the three-dimensional (3-D) system. From change of the number of grains per unit area with timemeasured in cross-section, the state of 3-D normal grain growth may be predicted. The gtain size distribution incross-section is different from that in 3-D system and can not express the evolution characteristic of the 3-D distribution. Furthermore, there exists statistical connection between the topological parameters in cross-section and thosein three-dimensions.