| 1. | Detonation structure of rdx dust in suspension
粉尘的爆轰波结构 |
| 2. | Analysis of the extreme values of leading shock velocity variation in gaseous detonation
气体爆轰波前驱激波变化极限分析 |
| 3. | Experimental investigation of acoustic absorption of detonation by absorbing materials lining wall
爆轰波在阻尼管道中声吸收的实验研究 |
| 4. | Numerical investigation of detonation direct initiation induced by toroidal shock wave focusing
用环形激波聚焦实现爆轰波直接起爆的数值模拟 |
| 5. | Experimental study on effects of initial conditions for propagation characteristics of unsteady gaseous detonation in channels with a bend
初始条件影响气体非稳定爆轰波在弯管中传播特性的实验研究 |
| 6. | An experimental investigation is presented concerning the re - intension process of a detonation wave occurring downstream of the acoustic absorbing walled section in this paper
摘要实验研究了爆轰波在声学吸收段下游发生的再恢复过程。 |
| 7. | Consequently , the theoretical model for the accelerating flame in the re - intension process is developed , called shock - flame complex
实验利用烟迹技术捕捉了爆轰波从发生衰减到再次加强的全过程,获得了爆轰波再加强距离随初压变化的实验规律。 |
| 8. | The three - dimensional ( 3d ) euler equations are applied to the study of numerical simulation of chemical non - equilibrium oblique detonation wave standing on an accelerating projectile with attack angle
摘要采用三维非定常化学反应控制方程组对驻定在带攻角高速飞行弹丸上的斜爆轰波流场进行了数值模拟。 |
| 9. | The control - equations were solved with upwind tvd algorithm and elemental chemical reaction model , with the point - implicit used to overcome the numerical stiffness of chemical reaction source term
数值结果显示,当爆轰波平掠过惰性气体界面时,形成了爆轰波、界面、透射激波以及稀疏波相互作用的现象。 |
| 10. | The desensitized explosive petn film was prepared by physical vapour deposition ( pvd ) technology , and sem was used to analyze the microstructure and grain size of petn film
摘要采用物理气相沉积( pvd )技术研制了钝化太安炸药薄膜,对薄膜的微观结构和颗粒粒度进行了分析,对颗粒粒度与薄膜爆轰波稳定传播临界尺寸的关系进行了探索。 |
