Investigation on anti-penetration capability of water filled aluminum alloy cell structure to the shaped charge jet

IF 3.1 Q2 MATERIALS SCIENCE, COMPOSITES
Changfang Zhao, Kebin Zhang
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Abstract

Passive protective armor is reliable and cheap, and is favored by many armored weapons and equipment. However, reports on metal-liquid composite armor are not sufficient and systematic. Based on the shaped charge jet (SCJ), the anti-penetration capabilities of water filled aluminum alloy cell structure were studied. The hourglass cell structure (HCS) was designed according to the shock wave propagation characteristics in liquid, and the expansion-convergence cell structure (E-CCS) was derived. Based on the virtual origin theory, the residual tip velocity of jet after SCJ penetrated the cell structure was calculated. According to the theory of supersonic disturbance propagation, the Mach cone half angle of SCJ shock wave propagation in liquid was defined and corrected. The propagation and reflection behavior of shock wave were discussed to analysis the radial convergence of liquid. Via the Van Leer Arbitrary Lagrangian Euler finite element simulation model verified by experiments, the simulation studies of SCJ penetrated the circular cell structure (CCS), HCS, E-CCS and convergence/expansion multi-cell structure were performed. The results show that HCS has better effect of interfering with SCJ than that of CCS and E-CCS. An important discovery is that when the liquid composite multi-cell structure is penetrated by SCJ, the attacked cell will not affect other cells due to the shock wave has been trapped in a single cell.
充水铝合金电池结构抗聚能射流侵彻性能研究
被动防护装甲性能可靠,价格低廉,受到许多装甲武器装备的青睐。然而,目前关于金属-液体复合装甲的报道还不够充分和系统。基于聚能射流,研究了充水铝合金电池结构的抗侵彻性能。根据激波在液体中的传播特性,设计了沙漏腔结构(HCS),推导了膨胀-收敛腔结构(E-CCS)。基于虚原点理论,计算了射流穿透胞体结构后的残余叶尖速度。根据超声速扰动传播理论,定义并修正了SCJ激波在液体中传播的马赫锥半角。讨论了激波的传播和反射特性,分析了液体的径向收敛性。通过实验验证的Van Leer任意拉格朗日欧拉有限元仿真模型,对SCJ穿透圆孔结构(CCS)、HCS、E-CCS和收敛/扩展多孔结构进行了仿真研究。结果表明,HCS对SCJ的干扰效果优于CCS和E-CCS。一个重要的发现是,当液体复合多细胞结构被SCJ穿透时,被攻击的细胞不会影响其他细胞,因为激波已经被困在单个细胞中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Functional Composites and Structures
Functional Composites and Structures Materials Science-Materials Science (miscellaneous)
CiteScore
4.80
自引率
10.70%
发文量
33
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