摘要
爆炸力学程序ObjectMMIC是首次应用面向对象的方法对爆炸力学计算模型进行分析。该程序提出和建立了面向对象的爆炸力学Euler型多物质方法的框架。本文利用此程序分析了燃料空气炸药(FAE)战斗部发射过载加速度为104g时,固液组分比为3∶2、6·5∶3·5和5∶53种情况下的应力和应力率变化规律。分析结果表明,在发射过程中,固液组分比例对燃料所受的应力和应力加载率有着较大的影响。其中,燃料所受的应力大小决定于固体组分的含量;而所受的应力加载率大小决定于固体和液体组分的含量。这些研究为优化FAE燃料配方,提高其物理稳定性和发射安全性提供了依据,试验与数值仿真结果的比较表明数值仿真方法是可用的。
The explosion mechanics programming ObjectMMIC is a Eulerian multi-material numerical method based on object-oriented. The stress and stress rate distributions of FAE fuel vs. time, when launching overloading acceleration is 10^4g, have been simulated by executing the programming object MMIC, whose solid-liquid ingredient ratios are 3:2, 6.5:3.5 and 5:5, respectively. The analysis shows that the ratio of solid-liquid ingredients has a great influence on stress and stress rate. The stress depends only on the solid ingredient content of the fuel, while the stress rate depends on the solid and liquid ingredient contents. Studies in this domain have the potential for gaining information on optimizing FAE fuel, leading to the improvement of stability and launching safety. The comparison between experimental and simulative results shows that the numerical simulation method is feasible.
出处
《兵工学报》
EI
CAS
CSCD
北大核心
2005年第5期609-614,共6页
Acta Armamentarii
关键词
爆炸力学
燃料空气炸药
发射安全性
发射过载
燃料组分
应力
应力率
explosive mechanics
fuel air explosive
launching safety
launching over loading
fuel ingredient
stress
stress rate