Author(s)

Kepeng Ouyang¹, Youdi Kuang^1,2*

¹School of Mechanics and Construction Engineering, MOE Key Laboratory of Disaster Forecast and Control in Engineering, Jinan Uni-versity, Guangzhou, China.
²School of Civil Engineering and Architecture, Wuyi University, Jiangmen, China.

Metal additive manufacturing (AM) is a disruptive manufacturing technology that takes into account the needs of complex structural forming and high-performance component forming. At present, the understanding of metal additive manufacturing simulation methods is not thorough enough, which restricts the development of metal additive manufacturing. Present work discusses the evolution of KMC method simulation results for simulating metal additive manufacturing at different length ratios and different scanning speeds. The results reveal that as the scanning speed increases, the main grains in the simulation results are transformed from coarse columnar grains to crescent-shaped grains, which are in good agreement with the existing experimental results. Besides, as the ratio of unit physical length to unit simulation length increases, the ratio of unit physical time to unit simulation time gradually decreases.

Additive Manufacturing, Kinetic Monte Carlo Simulation, Grain Morphology

Ouyang, K. and Kuang, Y. (2022) Quantitative Simulation Study of Metal Additive Manufacturing by Kinetic Monte Carlo. Journal of Applied Mathematics and Physics, 10, 1587-1601. doi: 10.4236/jamp.2022.105110.