1.
The rule of overpressure changing with distance in three different directions was also studied when the bomb was inclined.
研究了云爆装置倾斜放置时爆炸波超压沿不同方向的传播规律。
2.
Propagation Law and Overpressure Load of Blast Wave in Urban Complex Environment;
城市复杂环境中爆炸波的传播规律与超压荷载
3.
A transient air pressure, such as the shock wave from an explosion, that is greater than the surrounding atmospheric pressure.
超压力高于周围的大气压的瞬时气压,如爆炸产生的冲击波
4.
Study on the Pressure Field of Underwater Explosion with Two-Component Explosive Charge
双组分炸药装药水下爆炸的冲击波峰压场研究
5.
A violent explosion, as of dynamite or a bomb.
爆炸爆炸,如炸药或炸弹的爆炸气浪或冲击波
6.
The Test and Analysis on Overpressure Generated by Thermo-baric Grenade Explosion in Limited Space
温压弹在有限空间内爆炸的超压测试和分析
7.
The design of discharging for safety in over-pressure of multi-element chemical explosion;
多元气体化学爆炸的超压安全泄放设计
8.
Overpressure Prediction of Mine Gas Explosions
关于矿井瓦斯爆炸超压规律的预测和分析
9.
Effect of the concentration of Al(OH)_3 ultrafine powder on the pressure of methane explosion
超细Al(OH)_3粉体浓度对甲烷爆炸压力的影响
10.
Distribution Law of Explosion Overpressure on Walls of Long Square-Section Tunnel
正方形截面长隧道内壁爆炸超压分布规律
11.
Numerical Simulation and Experimental Research of Blast Wave Propagation for Thermo-baric Warhead;
温压弹爆炸冲击波传播的数值模拟与实验研究
12.
Effect of Aluminium Content on the Detonation Pressure and Shock Wave Parameters of TNT/Al Explosives
铝粉含量对梯铝炸药爆压和冲击波参数的影响
13.
The interaction between an oblique blast wave and supersonic blunt conewas discussed.
本文讨论了斜爆炸波与超音速钝锥激波层的相互作用问题.
14.
"Mechanical explosives, which depend on a physical reaction (e.g., overloading a container with compressed air until it Bursts); Nuclear explosives (see nuclear weapon) use either nuclear fission or nuclear fusion."
机械爆炸物是由物理作用产生的(如容器超载压缩空气);核爆炸物是由核裂变或核聚变产生的。
15.
shock-wave induced by contact explosion
接触爆炸产生冲击波
16.
effect of nuclear explosion on radio wave propagation
核爆炸电波传播效应
17.
explosive flux compression technique
爆炸磁通量压缩技术
18.
An actual contact surface burst leads to the highest possible overpressures near ground zero.
对于实际接触表面爆炸情况,在地面零点附近可形成最大的超压力。