爆炸裂纹的动态扩展问题是爆炸力学研究的热点。
The research of dynamic propagation of crack is prevalent in explosion mechanics.
本文综述了爆炸力学实验和测试技术的最新进展。
Recent developments of experimental and measuring technique on explosive mechanics are summarized in this paper.
超微金刚石(UFD)是爆炸力学与材料科学相结合的产物。
Ultrafine diamond (UFD) is a hybrid product of explosion mechanics and material science.
利用爆炸力学理论,得到空气垫层装药爆破的孔壁压力及其爆炸应力场。
Based upon blasting mechanics theory, pressure on the wall of borehole and blast stress field are gained in the course of detonation with air cushion charging construction.
根据爆炸力学、爆炸动力学和热力学理论,建立了瓦斯爆炸流场三维动态数学模型。
A 3-d dynamic mathematical model of gas explosion flow field was built based on explosion mechanics, explosion dynamic mechanics and thermodynamics.
数值分析计算结果表明,理论计算的应力波时程特征与经典爆炸力学给出的时程特性基本一致。
The radium of blasting cavity, stress peak value and action time of stress waves are validated by the theory of classical explosion me…
借助经典的爆炸力学理论和回归拟合曲线方法,验证了爆炸空腔大小、应力波的应力峰值、应力波的作用时间。
The radium of blasting cavity, stress peak value and action time of stress waves are validated by the theory of classical explosion mechanics and the way of curve regression.
建立了电火花放电加工的热力学传导模型,通过有限元仿真方法得出具有放电爆炸力的单次脉冲能够明显提高难加工材料蚀除量的结论。
The heat transfer model of the discharge has been established, and the removal rate could be significant promoted because of the explosion with the method of thermodynamic finite element analysis.
建立了电火花放电加工的热力学传导模型,通过有限元仿真方法得出具有放电爆炸力的单次脉冲能够明显提高难加工材料蚀除量的结论。
The heat transfer model of the discharge has been established, and the removal rate could be significant promoted because of the explosion with the method of thermodynamic finite element analysis.
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