A mathematical model was developed to simulate melting processes of ferrosilicon in liquid iron under natural convection.
建立了描述自然对流条件下Si-Fe在铁液中熔化过程的数学模型,固相、液相和糊状区中的动量、热量和溶质传输用统一方程描述,用控制容积差分法耦合求解质量、动量、能量和溶质守恒方程,计算结果与实验结果基本一致。
A mathematical model for melting process of solid particles sub merged in metal bath has been developed,which includes the cases the melting point of solid particles is above, equal to,and below that of the metal.
建立了金属熔池中固体颗粒熔化过程的数学模型。
Experimental and numerical results agree; they indicate that discrete flush mounted heat sources have important influence on the melting process.
利用焓法求解了矩形空腔内有3个分散平齐热源的熔化问题,考虑并分析了加热功率和过冷度对熔化界面形状和热源表面温度的影响,并把计算结果与前人的实验结果进行了比较,它们符合得比较好。
Conformations and melting characteristics of Ni_(500) cluster, free and imprisoned between double graphite layers;
石墨层间Ni_(500)团簇形态与熔化特性的分子动力学研究
Research into fine powders of Al-Si eutectic alloy melting;
Al-Si共晶合金微粉熔化的研究
Molecular Dynamics Simulations on the Melting Process of Copper Nanowires;
铜纳米线熔化过程的分子动力学模拟