从压力传感器测量的空气冲击波超压曲线,获得反应释放总能。
The relative energy release is analyzed from overpressure curves measured with some sensors.
阐述了用于冲击波超压测量的压阻式高频动态压力传感器的设计与开发。
This paper introduced the design and development of silicon piezoresistive high frequency dynamic pressure sensor which used in the measurement of shock wave superpressure.
利用高分辨率、高精度试压系统测定了静爆试验中不同装药量TNT的冲击波超压。
A pressure measurement system with high resolution and precision was employed to measure the shock wave overpressure(Ap) of different loading doses of TNT in field explosion tests.
讨论一次引爆FAE燃料配方,实验测定了空气冲击波超压和冲量随距离的变化曲线。
Single igniting solid fuel air explosives (FAE) is discussed in the paper. The curves of change of overpressure and specific impulse with distance are got by experiment.
根据冲击波超压-时间的毁伤原则和失去战斗力比率的伤亡准则,推导了冲击波伤亡等级方程;
With overpressure-duration damage criterion and the CI criterion of shock wave, a new casualty ranking formulae was derived.
结果表明,离散杆式破片和冲击波超压引爆带防护的柱壳装药较难,但可对目标结构进行毁伤。
The results show it is difficult to detonate the charges covered steel shell by rod fragments and shock wave, but they could damage the structure of the targets in appropriate conditions.
BLEVE事故发生后,主要危害来自于爆炸产生的火球的热辐射,爆炸产生的冲击波超压危害相对较小。
After the BLEVE accidents, the main harm comes from the radiation made by the explosion, and the harm caused by shock waves is relatively small by contrast.
冲击波的破坏伤害作用主要取决于峰值超压的大小,立方根比例定律是定量估算冲击波超压最常用的方法。
The damage of shock wave mainly depends on peak overpressure and scaled cube root distance is the most common method to estimate the shock wave overpressure.
但是,超压冲击波必然会穿透坚固的铠甲层。
But the overpressure wave inevitably passes through the rigid armor layer.
其中两个基本保护层旨在抵抗爆炸中产生的两类主要威胁:超压脉冲,或者叫冲击波;以及通常由弹片构成的碎片伤害。
These two fundamental layers are designed to defeat the two main threats in an explosion: the overpressure pulse, or shockwave; and the fragmentation, commonly known as shrapnel.
实际上,这两类伤害中超压冲击波尤甚。
The overpressure wave is actually the more dangerous of the two.
其中两个基本保护层旨在抵抗爆炸中产生的两类主要威胁:超压脉冲,或者叫冲击波;
These two fundamental layers are designed to defeat the two main threats in an explosion: the overpressure pulse, or shockwave;
分析得到:云雾区超压远远大于冲击波作用区的超压。
The overpressure in the cloud zone was much higher than that in shock wave zone.
分析得到:云雾区超压远远大于冲击波作用区的超压。
The overpressure in the cloud zone was much higher than that in shock wave zone.
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