靶板在爆炸成型弹丸垂直侵彻下的层裂

为了准确掌握靶板层裂过程和规律，基于波动力学和基本假设，建立了爆炸成型弹丸（explosively formed projectile，EFP）垂直侵彻有限厚靶板时层裂的力学模型，得到了层裂点的表达式。研究结果表明:EFP速度为1 800 m/s、靶板厚度从35 mm增大到60 mm时，靶板背面弯月形层裂区厚度不断增大，弯月形层裂区长度不断减小；靶板厚度保持40 mm不变、EFP速度从1 600 m/s增大到1 900 m/s时，靶板背面层裂区厚度不断减小，弯月形层裂区长度不断增大。开展了EFP侵彻40 mm厚装甲钢靶板的实验，将实验结果和理论计算结果进行对比分析，两者吻合较好。

Spallation of targets subjected to vertical penetraion of explosively-formed projectiles

In order to understand the spallation of a target subjected to the impact load of an explosively formed projectile (EFP), on the basis of wave mechanics and basic assumptions, a mechanical model was developed to describe the spallation of the finite-thickness target vertically penetrated by an EFP. By the developed model, the spallation process of the target plate was obtained, and its formula was derived. The result shows as following. When the impact velocity of the EFP is 1 800 m/s and the thickness of the target increases from 35 mm to 60 mm, the thickness of the falcate spallation zone at the back of the target increases and its length decreases. When the thickness of the target is 40 mm and the impact velocity increases from 1 600 m/s to 1 900 m/s, the thickness of the falcate spallation zone at the back of the target decreases and its length increases. Dynamic tests were carried out on the EFPs penetration into the rolled homogeneous armor targets with the thickness of 40 mm. The experimental result is in good agreement with the theoretical prediction.