摘要
多爆炸成形弹丸(MEFP)能有效提高炸药利用率和命中概率。基于LS-DYNA软件对刻槽式MEFP战斗部成形及侵彻双层无间隔钢靶模式进行了研究,得到了刻槽式MEFP战斗部成形及对靶板侵彻的数值计算结果。结果表明:刻槽式MEFP成形过程要经过翻转、头部挤压断裂、尾部拉伸断裂、交叉飞散、稳定飞行5个阶段,聚能爆轰波对药型罩的径向力是其交叉飞散的主要原因;侵彻过程要经过开坑、联合侵彻、贯穿3个阶段。模拟结果与实验结果基本吻合。
Multiple explosively formed projectile (MEFP) can effectively raise the utilization rate of explosive and the hit rate. The forming process of groove type MEFP and the process of penetrating double nonseptate steel target based on LS-DYNA are studied. The results show that the forming process of groove type MEFP should pass through five stages: overturn, the head extrusion fracture, the rear tensile fracture, cross flying and stable flying. The cross flying is caused by the radial force which comes from detonation wave. Penetration process should pass through three stages: Spud in, united penetration and breakthrough stage. The simulated results are consistent with the experimental results.
出处
《爆炸与冲击》
EI
CAS
CSCD
北大核心
2015年第1期135-139,共5页
Explosion and Shock Waves
基金
辽宁省重点实验室科研基金项目(LS2010139)