本文在系统分析穿甲机理的基础上,研究了影响穿甲过程各参数之间的关系,通过实验确定了弹丸破碎程度(?)与H:/H_p、p_t/p_p、б_t/d_p和(?)的定量关系.从理论分析和实验证明,密排陶瓷球予制板结构形式的复合靶板受力状态最为有利,可对弹丸造成严重破坏。这种复合结构无论抗弹性能、破损面积或抗多发弹连续射击的能力都达到国际先进水平。 Based on the systematic analysis of the mechanism of armor piercing, this paper studies the relationship between the parameters affecting the armor piercing process. The degree of projectile fragmentation (?) And the ratio of H: / H_p, p_t / p_p, б_t / d_p and ) Quantitative relationship between the theoretical analysis and experiments show that close-packed ceramic ball prefabricated plate structure of the composite target in the most favorable state of force, can cause serious damage to the projectile. The composite structure has reached the international advanced level regardless of the anti-ballistic performance, the damaged area or the ability of continuous shooting against multiple bombs.