摘要
为了实现侵彻体对多层靶板的高效毁伤,采用数值模拟方法研究了分段式横向效应增强体(PELE)对4层金属靶的侵彻效应,获得了弹体侵彻速度和靶板厚度对弹体终点效应的影响。结果表明,分段PELE弹侵彻4层靶的靶后效果优于普通PELE弹。与金属杆相比,分段PELE弹侵彻多层靶后的弹孔直径更大。弹丸贯穿各层靶板后壳体的径向速度峰值随着靶板厚度的增加而增大,而壳体破碎长度并不随之线性变化。提高弹丸侵彻速度时,弹丸穿过第1层靶板后壳体破碎长度的变化趋势与径向速度峰值的变化相似,穿过第2层和第3层靶板后壳体破碎长度和径向速度峰值在侵彻速度为1.4km/s时达到极大值,随后下降,而穿过第4层靶板后壳体破碎长度和径向速度峰值随着初速度的增加而增大。
To achieve efficient damage,we simulated the penetration of segmented penetrator with enhanced lateral effect(PELE)on the 4-layer metal target and analyzed the influence of projectile velocity and layer thickness on the terminal effect.The results showed that the segmented PELE projectile performed better penetration than the normal PELE projectile and the diameter of crater produced by segmented PELE projectile was larger than that produced by its rod counterpart.When the projectile passed through the targets,the peak radial velocity of PELE shell increases with the increasing target layer thickness while the length of broken shell did not change with it.The peak radial velocity and length of broken shell was found to increase with increasing segmented PELE projectile velocity after penetrating the first layer and reach a maximum when the projectile velocity was 1.4 km/s after penetrating the second and third layer.After penetrating the fourth layer,the peak radial velocity and the length of broken shell increased with increasing projectile velocity.
作者
周敬辕
丁亮亮
汤文辉
冉宪文
ZHOU Jingyuan;DING Liangliang;TANG Wenhui;RAN Xianwen(College of Liberal Arts and Sciences,National University of Defense Technology, Changsha 410073,China)
出处
《高压物理学报》
EI
CAS
CSCD
北大核心
2018年第5期64-69,共6页
Chinese Journal of High Pressure Physics
关键词
横向效应增强体(PELE)
分段弹体
多层靶板
侵彻
penetrator with enhanced lateral effect
segmented projectile
multi-layer target
penetration
