Petal failure characteristics of a conical projectile penetrating a thin plate at high oblique angle

In order to determine the impact depth of a conical projectile impacting a thin plate at high oblique angle, the residual velocity of the projectile after penetrating must be known. Based on the petal failure mode of the conical projectile impacting the thin plate at high oblique angle, the energy consumption mode of the target was determined. During the perforation process, the energy consumption of the target was completed by the saucerization, the power work of the petals, the propagation of radial cracks and petal bending. The energy formula was deduced for each energy dissipation mode and the energy consumed in the impact process was determined. The residual velocity and the ballistic limit velocity of the projectile were deduced by energy conservation principle. Comparison of the analytical results of the residual velocity to the numerical results demonstrates the accuracy and reliability of the analytical formula.     

小型玻璃钢开敞艇结构强度分析

基于大型通用有限元软件Patran/Nastran,采用层合板复合材料处理玻璃钢复合材料和复合材料夹心结构,计算分析520开敞玻璃钢游艇在满载状态下最大航速航行时艇体结构受力情况。对比两种不同约束状况下的应力和变形,并与航行试验时观察到的变形结果相比较,证明该计算结果的可靠性。     

爆炸破片侵彻钢/陶瓷/铝复合板的数值计算研究

陶瓷复合装甲具有优良的抗弹性能,合理设置复合靶板各层厚度有利于提高其抗弹性能。文章采用非线性动力学程序AUTODYN,模拟了直径为8mm的圆柱形破片对钢/陶瓷/铝复合靶板的侵彻过程,分析侵彻过程中靶板的破坏机理。通过一系列模拟,分析钢面板厚度、陶瓷层厚度以及铝背板厚度对复合靶板抗侵彻性能的影响,研究表明在面密度一定时,减小面板厚度,增加陶瓷和铝背板厚度对复合靶板的抗弹性能有明显提高。