| 1. | Analyses of shock structure based on the kinetic theory of gases have been completed .
根据气体动力学理论分析激波结构的工作已经完成了。 |
| 2. | Hot firings show that the frequency of the oscillating shock is close to the acoustic frequency .
热试结果表明,振荡激波的频率与声频相近。 |
| 3. | The final part of this section deals with the effects of shock waves on the breakup of liquid jets and drops .
本节最后一部分涉及的是激波对液体射流和液滴破裂的影响。 |
| 4. | The fixed expansion points of the general shroud allow a better definition of local shock locations than on ogive type shrouds .
一般外壳的固定膨胀点能比蛋形外壳更好地限定局部激波的位置。 |
| 5. | Viscous shock wave of viscous conservation law systems
粘性守恒律方程的粘性激波 |
| 6. | Deformation and breakup of droplets behind shock wave
激波诱导的液滴变形和破碎 |
| 7. | A special class of shock wave of the conservation law
保守场的一类特殊激波解 |
| 8. | Shock - wave pulse recognition based on adaptive eih model
模型的激波脉冲识别 |
| 9. | 24th international symposium on shock waves issw
第24届国际激波学术会议简介 |
| 10. | Numerical simulation of shocked flow within cascade
叶栅激波流场的数值模拟 |
