提出一种可形成尾翼爆炸成型弹丸的贴片方法。
A new foil method to produce explosively formed projectile with star-shaped tail is brought forward and verified by numerical simulation.
根据多爆炸成型弹丸智能雷攻击坦克顶甲时的运动特性,建立了智能雷扫描轨迹模型。
According to the movement characteristic of multiple explosively formed penetrator (MEFP) intelligent mine attacking to tank top armor, a scan trail model was built.
应用在药型罩表面贴附惰性隔板的方法可以研制出尾翼稳定的爆炸成型弹丸(efp)。
Attaching covers on the shaped liner, an explosively formed projectile (EFP) with stabilizing fins can be produced.
结果表明:智能雷战斗部技术宜采用多爆炸成型弹丸战斗部技术,可以提高智能雷场对集群装甲目标的毁伤效能。
As a result, for increasing kill efficiency of intelligent mine field to armored aim in group, intelligent mine is supposed to adopt multiple explosively formed penetrator warhead technology.
为了评估多爆炸成型弹丸设计参数对智能雷毁伤目标效能的影响,利用有限元软件模拟了多爆炸成型弹丸的形成过程。
Taking intelligent mine for research object, on the basis of scanning movement model and hitting damage model, the damage efficiency of MEFP intelligent mine attacking to tank was analyzed.
在此基础上以球缺型爆炸成型弹丸为计算模型,应用显式有限元程序LS-DYNA对满足模拟比的爆炸成型弹丸侵彻钢靶的过程进行了数值模拟。
With hemispherical EFP simulation model, the penetration process of EFP that satisfies the simulation ratio are calculated using explicit finite element program LS-DYNA in this paper.
文中主要针对多爆炸成型弹丸空爆战斗部,在分析区域识别和占空比识别两种不同扫描准则的基础上,应用蒙特卡洛方法计算了战斗部对目标的毁伤概率。
Based on analyzing the scan and capture of region identify and duty ratio identification, the paper calculates the killing probabilities of MEFP air blast warhead by Monte carlo simulation.
文中主要针对多爆炸成型弹丸空爆战斗部,在分析区域识别和占空比识别两种不同扫描准则的基础上,应用蒙特卡洛方法计算了战斗部对目标的毁伤概率。
Based on analyzing the scan and capture of region identify and duty ratio identification, the paper calculates the killing probabilities of MEFP air blast warhead by Monte carlo simulation.
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