Rapid Dendrite Growth in Solidification of Highly Undercooled Alloys
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2021年第2期
论文作者:安红恩 YANG Shaopei
摘 要:Nonequilibrium thermodynamics and transportation kinetics near the propagating solid-liquid interface dominates the rapid solidification process,which is far from a thermodynamically stable state.Rapid solidification process can be described more precisely using quantitative thermodynamic calculation of phase diagram with nonlinear liquidus and solidus and evaluating the nonequilibrium effect in diffusion kinetics.Based on these basic principles,we used a current nonequilibrium dendrite growth model to describe rapid solidification process of deeply undercooled alloys.Evolution of the key fundamental solidification parameters was also evaluated.
安红恩1,2,YANG Shaopei1,2
1. College of Mechanical and Electronic Engineering, Huanghe Jiaotong University2. Henan Engineering Technology Research Center on Intelligent Manufacturing Technology and Equipment
摘 要:Nonequilibrium thermodynamics and transportation kinetics near the propagating solid-liquid interface dominates the rapid solidification process,which is far from a thermodynamically stable state.Rapid solidification process can be described more precisely using quantitative thermodynamic calculation of phase diagram with nonlinear liquidus and solidus and evaluating the nonequilibrium effect in diffusion kinetics.Based on these basic principles,we used a current nonequilibrium dendrite growth model to describe rapid solidification process of deeply undercooled alloys.Evolution of the key fundamental solidification parameters was also evaluated.
关键词:
