中文摘要：

应用三维弹塑性流体力学Lagrangian-Remapping两步欧拉计算方法对铝材料微喷射现象进行了数值模拟研究。计算了Asay实验中表面刻有相同深度、不同夹角沟槽的金属铝微喷射模型,计算得到的微喷物总质量、最大射流速度和实验结果均符合较好。进一步展开了对相同深度、更大夹角范围沟槽微喷射的数值模拟。分析认为喷射最大速度随沟槽角度的增大呈线性下降趋势。同时给出了喷射系数随沟槽角度的变化的拟合关系曲线,看到由于材料强度及沟槽角度变化后造成的波系关系变化的影响,随着沟槽角度增加,喷射系数曲线呈明显非线性发展。

英文摘要：

The 3D elastic-plastic hydrodynamic Lagrangian-Remapping two-step Euler method was used for the micro ejection simulation of aluminum. The micro ejection calculation models have grooves on the aluminum interface with the same depth and different angles, and the numerical results of the micro-jet mass and maximum velocity thus accorded with Asay＇s experiment results. And then, the micro ejection calculation models with the same groove depth but much larger angle range were calculated. By the analysis of the numerical results, it is showed that the maximum velocity of the micro-jet decreases linearly with the increase of the groove angle, and the curving contour of the ejected factor versus groove angle is given. Because of the influence of metal strength and groove angle on the wave relations, the micro-jet coefficient curve is obviously nonlinear with the groove angle.