利用传统的元胞自动机方法摸拟了基于溶质扩散控制界面生长机制的枝晶演变和显微偏析。
The dendrite evolution and micro-segregation based on mechanism of solute diffusion controlling interfacial growth is simulated by cellular automaton.
以琥珀腈为研究对象,用设计的定向凝固实验体系,研究了不同温度梯度和界面生长速度对固液界面形貌的影响。
The effects of temperature gradient and interfacial growth velocity on solid-liquid interface morphology were studied with succinonitrile under the unidirectional solidification system.
观察和研究的结果表明:关于光滑界面生长动力学的BCF模型、关于杂质对台阶生长阻碍作用的C V模型等已受到冲击与挑战;
The BCF model about smooth interface growth kinetics and the C V model about impurity stopping step have been collided with the AFM study results.
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