| 1. | Progress in convection effects on dendritic growth using phase - field method
对流影响枝晶生长的相场法模拟研究进展 |
| 2. | Phase - field simulations of dendritic growth in aluminum alloy directional solidification
铝合金定向凝固过程枝晶生长的相场法模拟 |
| 3. | Dendritic growth simulation of solidification by phase - field model i . mathematic derivation of the model
各向异性相区场模型的推导 |
| 4. | Numerical simulation of non - isothermal dendritic growth of binary alloy using phase - field method
二元合金非等温凝固枝晶生长的相场法模拟 |
| 5. | Monte carlo simulation of dendritic growth of metal electro - deposition in an invariable magnetic field
稳恒磁场下金属电沉积枝晶生长的模拟 |
| 6. | Vigorous convection during the rapid dendritic growth , to aid the dendrite breakup , transfer the newly formed grains throughout the melt , and homogenize the temperature of the melt
在晶枝的快速形成期间,剧烈的对流有助于晶枝分裂,将新形成的颗粒传递到整个熔融金属,使熔融金属的温度均匀。 |
| 7. | The current dendritic growth theory is modified so as to be applicable to ice dendritic growth under high undercooling conditions . experimental measurements are in agreement with the theoretical prediction at small undercoolings but exhibit some deviations at large undercoolings due to systemic errors
实验测定了不同过冷度下冰枝晶的生长速度,并且改进了冰枝晶的生长理论,使之更符合大过冷度时的枝晶生长情况。 |
