Phase-field method, as a method of simulating material microstructure evolution, has been applied to all common microstructure evolution simulation.
相场法作为材料微观组织演变的一种模拟方法已经被越来越广泛的应用到各种常见的微组织演化的模拟当中。
参考来源 - 相场方法模拟合金无序—有序相转变和晶粒长大The effectiveness of the phase-field method was proved. The results show that the phase-field model accords with the classic model of growth, and grain size distribution which can well described by Weibull function is time-dependent.
首先,应用宏观相场方法采用多序参量唯象晶粒长大相场模型,对单相多晶材料中最基本的显微组织演化过程之一晶粒长大进行二维模拟,初步验证了相场方法的有效性,结果表明模型符合经典长大规律,晶粒尺寸分布是时间相关的,并可以由Weibull函数很好的描述。
参考来源 - 相场方法模拟合金无序—有序相转变和晶粒长大·2,447,543篇论文数据,部分数据来源于NoteExpress
The phase-field method is applied to simulate dendritic growth in the three-dimensional space.
采用相场方法模拟纯物质三维枝晶生长。
The affecting law of structure fluctuation and energy fluctuation on dendrite growth in pure undercooled melt was studied by simulation of a phase-field method.
采用捕获液态界面改进的相场方法,系统地研究了结构起伏、能量起伏对过冷纯金属熔体中树枝晶生长的影响规律。
Dendrite growth has been simulated with the phase field method and finite difference schemes on a two dimensional rectangular domain with a uniform square mesh.
采用相场模型和有限差分方法,模拟了过冷纯金属熔体的枝晶生长,计算区域为二维正方形均匀网格。
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