Ballistic Response of Confined Ceramic/Metal Armor System Against Long Projectile

Dilip Chougale, G. Tiwari
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Abstract

A numerical analysis has been performed to compare the ballistic performance of two distinct confined ceramic/metal armor system, alumina tiles backed by steel 4340 and alumina tiles backed by aluminum 5083 H116. A 76.2 mm long and 7.62 mm diameter cylindrical projectile with hemisphere nosed shape made of tungsten alloy and harden steel were hit normally with velocity 1550 m/s on both the target configuration. For these threats, under constant thickness, ceramic/metal configuration that defeated the projectile was studied through finite element simulation on ANSYS/LS DYNA. Depth of penetration of projectile in target, residual velocity of projectile, erode length of the projectile, ballistic limit were used to study the ballistic performance of target configurations. For alumina, Johnson Holmquist (JH-2) material model was used whereas for steel, tungsten and aluminum, Johnson Cook (JC) model was considered. For identical thickness, Alumina/Steel target showed better performance as compare to Alumina/Al target under tungsten projectile impact whereas on the basis of areal density, Alumina/Al performed better than Alumina/steel against steel projectile impact.
密闭陶瓷/金属装甲系统对长弹丸的弹道响应
数值分析比较了两种不同的陶瓷/金属装甲系统的弹道性能,即以4340钢为衬底的氧化铝瓦和以5083 H116铝为衬底的氧化铝瓦。用长76.2 mm、直径7.62 mm的钨合金和淬硬钢半筒形弹,在两种靶型上均以1550 m/s的速度正常命中。针对这些威胁,通过ANSYS/LS DYNA有限元仿真,在等厚度条件下,研究了陶瓷/金属构型击败弹丸的方法。利用弹丸侵彻目标深度、弹丸剩余速度、弹丸侵蚀长度、弹道极限等参数,研究了不同靶型的弹道性能。氧化铝采用Johnson Holmquist (JH-2)材料模型,钢、钨、铝采用Johnson Cook (JC)材料模型。在相同厚度下,氧化铝/钢靶在钨弹冲击下的性能优于氧化铝/铝靶,而在面密度上,氧化铝/铝靶在钢弹冲击下的性能优于氧化铝/钢靶。
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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