The detonation mechanism of FAE fuel investigated.
探索了FAE燃料爆轰机理。
To interpret FAE results and reports to customers.
向客户诠释fae的结果和报告。
The fuel is the basis of the single-event FAE or the thermobaric weapons.
燃料是一次引爆型FAE或温压武器的基础。
Explosion field of FAE are divided into three zones: cloud zone, boundary zone and shock wave zone.
FAE爆炸场划分为云雾爆轰区、边缘区和冲击波作用区。
Extensive FAE support can be difficult to obtain due to the large Numbers of accounts they generally support.
由于他们通常支持的客户数量众多,获得广泛的FAE支持可能很困难。
The study can provide helpful references for designing and optimization of the single ignition FAE batch formula and warhead.
这一研究可为一次引爆FAE配方及战斗部设计与优化提供有益参考。
The process of the explosion dispersion FAE charge and of aluminum powder is investigated through high speed video-photography.
利用高速摄像技术,研究了小药量无约束空间纯铝粉、FAE固体燃料的一次引爆爆炸分散实验过程。
From the analysis of experimental results, it shows that FAE explosion produces much higher peak particle strength of the seismic effect.
分析表明,FAE爆炸所产生的地震效应具有更高的峰值强度。
The best second initiation time for gun-launched FAE was determined through the static explosive experiment and the change of pressure in exploding field.
通过设计战斗部静爆实验,依据爆炸场的压力变化确定了某型炮射云爆弹最佳二次起爆时间。
The relationship between the solid fuel particle size characteristic and the proportion between the fuel components in FAE and its microcosmic structure is set up.
建立了组分比例、固体燃料颗粒尺度的特性与固液混合燃料细观结构的相关性。
By building up a mechanic model, the qualitative and quantitative analysis of FAE warhead shell are introduced in the paper, and a new design method is put forward.
通过建立力学模型,对FAE战斗部壳体进行了定量分析,提出了FAE战斗部壳体设计的新方法。
Evaluating the strength of FAE weapons is supposed to include two aspects namely, the evaluation of the power content of FAE weapons and that of their damage effects.
fae武器的威力评价方法应包括自身威力评价和毁伤效应评价两个方面。
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.
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。
The results show that the structure design is reasonable and meet the requirements of FAE. The research provides a reliable basis for the design of high power FAE warhead.
试验结果表明FAE装药结构可行,满足设计要求,为高威力FAE战斗部设计提供了依据。
In this paper, the characteristics of FAE parameters in explosion fields and effect factors on the damage are analyzed, and an evaluation method of FAE power is also developed.
本文分析了FAE爆炸场参数特点与影响毁伤的因素,提出了评价FAE爆炸威力的方法。
This paper compares physical and chemical properties of different hydrocarbons and selects hydrocarbons which can be used in FAE fuel, considering at the same time other additional factors.
该文根据对FAE燃料的要求,通过比较不同碳氢燃料的物理化学性能,并考虑其它附加因素,选择了可用作FAE燃料的碳氢燃料。
The effect of explosive characteristic on the amplitude of explosion seismic wave is studied by means of comparing experiments on ground motion caused by FAE and TNT located near the ground.
通过近地表同药量的燃料空气炸药(FAE)和TNT爆炸地震对比试验,研究了炸药性能对爆炸地震波幅值的影响。
In a certain distance from explosive center, the action time of FAE positive pressure is longer than conventional explosives and its specific impulse is greater than conventional explosives.
在距离爆心一定的距离内,FAE爆轰时比常规炸药的正压作用时间长,比冲量大。
The dynamic sensitivity calibration technique of a worksite measurement system has been employed to measure the peak overpressure of the FAE and TNT blast field with equiprecision measurement.
利用现场测试系统动态灵敏度标定技术,分别等精度测试了FAE和TNT爆炸场峰值超压。
If consider the maximum radius of the dispersed cloud only, the solid FAE bomb isn't superior to liquid FAE bomb in the same mass, but the increasing action volume of the solid FAE bomb is bigger.
若仅考察弹体云雾最大半径,固相fae弹体并不比等质量的液相fae弹体优越太多,但固相fae弹体的爆炸作用体积增大较多。
Based on the analysis of characteristics of explosive field formed by FAE, characteristic equation is fitted with trial data. Then the range of casualty ranking of FAE is deduced (the power range).
利用FAE静爆试验爆炸场的实测数据拟合出爆炸场特征方程,进而预估出FAE对人员毁伤的伤亡等级范围(威力圈)。
Based on the analysis of characteristics of explosive field formed by FAE, characteristic equation is fitted with trial data. Then the range of casualty ranking of FAE is deduced (the power range).
利用FAE静爆试验爆炸场的实测数据拟合出爆炸场特征方程,进而预估出FAE对人员毁伤的伤亡等级范围(威力圈)。
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