Modeling of growth and motion of equiaxed dendrites in a convecting melt

机译：对流熔体中等轴枝晶生长和运动的建模

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A numerical micro-scale model is developed to study the behavior of dendrite growth in presence of melt convection. In this method, an explicit, coupled enthalpy model is used to simulate the growth of an equiaxed dendrite, while a Volume of Fluid (VOF) method is used to track the movement of the dendrite in the convecting melt in a two-dimensional Eulerian framework. Numerical results demonstrate the effectiveness of the enthalpy model in simulating the dendritic growth involving complex shape, and the accuracy of VOF method in conserving mass and preserving the complex dendritic shape during motion. Simulations are performed in presence of uniform melt flow for both fixed and moving dendrites, and the difference in dendrite morphology is shown.

机译：建立了一个数值微尺度模型来研究在熔体对流情况下枝晶生长的行为。在这种方法中，显式的耦合焓模型用于模拟等轴枝晶的生长，而流体体积（VOF）方法用于跟踪二维欧拉框架中对流熔体中枝晶的运动。。数值结果证明了焓模型在模拟复杂形状的树枝状晶体生长中的有效性，以及VOF方法在运动过程中保持质量和保留复杂树枝状形状的准确性。在固定的和移动的枝晶均存在均匀熔体流动的情况下进行模拟，并显示了枝晶形态的差异。

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《Proceedings of the 2010 3rd International Conference on Thermal Issues in Emerging Technologies Theory and Applications》|2010年|p.201|共1页
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Karagadde Shyamprasad; Bhattacharya Anirban; Tomar Gaurav; Dutta Pradip;
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Modeling of growth and motion of equiaxed dendrites in a convecting melt

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