| 1. | Structure variation law of explosion wave in gas explosion
瓦斯爆炸过程中爆炸波的结构变化规律 |
| 2. | Influence of barriers on flame transmission and explosion wave in gas explosion
障碍物对瓦斯爆炸过程中火焰和爆炸波的影响 |
| 3. | From the numerical result , the pulse of the positive pressure and the negative pressure were clearly observed
从而得到了爆炸波流场的数值全息干涉图。 |
| 4. | Numerical analysis of plane explosive wave propagation with its attenuation behavior in semi - infinite medium
平面爆炸波在半无限混凝土介质中传播与衰减特性的数值分析 |
| 5. | First , a blast wave generator was numerically simulated to obtain the basic idea of the blast wave
基于爆炸波形成条件,利用能量相当的原则给出了爆炸波运行的初始条件。 |
| 6. | The aerodynamic pressure expression at jet location and in the area of jet interaction is established by blast wave principium
采用爆炸波原理建立了喷流区和喷流干扰区的气动压力计算模型。 |
| 7. | Based on the two - fluid model , the attenuation process of blast waves in sprays is simulated by using the eulerian - lagrangian method
基于双流体模型,利用euler - lagrange组合方法,对爆炸波在液雾中的衰减过程进行了数值模拟。 |
| 8. | An experimental study of blast waves propagating in liquid sprays is described . it is conducted in a vertical tube with 5 . 4m long , 0 . 2m inner diameters
在长5 . 4米,内径0 . 2米的立式激波管上,进行爆炸波在液雾中的传播规律的实验研究。 |
| 9. | In numerical simulation , the elastic zone is only considered and the effect of blasting waves on the rock medium , after attenuating through crushing zone and ruptured zone , becomes an input load
数值模拟仅考虑弹性区域,爆炸波对岩石介质的作用经粉碎区、破裂区衰减后成为输入荷载。 |
| 10. | The results of experiments revealed explosion suppression of water sprays . the effects of spray concentration , average diameter of particle and shock velocity on explosion suppression have been discussed
系统研究了液雾对爆炸波的抑制作用,并讨论了液雾的浓度、雾粒直径、激波强度对抑爆效果的影响。 |
