立方体弹高速侵彻防护液舱剩余特性的数值模拟

Numerical Simulation of Residual Characteristics of Protecting Liquid Cabin Penetrated by High Velocity Cube Fragments

针对高速破片侵彻液舱后的剩余特性问题,利用有限元分析软件ANSYS/LS-DYNA开展了数值模拟研究,对比分析破片侵彻垂直和倾斜液舱后速度的衰减规律以及侵彻深度的变化规律,探讨了舰艇中液舱的较优斜置角度。结果表明:液舱壁面倾斜角的存在有利于降低破片入水的瞬时速度;破片入水瞬时速度越大,在水中运动时速度衰减越快;在冲击及空泡阶段,破片侵彻深度迅速增加,且破片入水瞬时速度越大,侵彻深度增加越明显,该阶段侵彻深度仅相当于破片最终静止时侵深的10%左右。根据弹体速度衰减速率及侵彻深度的增加速率,认为倾斜60°的液舱能够达到较好的防护效果。

In this study we investigated the residual characteristics of the high velocity fragments penetrating the protective liquid cabin using finite element analysis by ANSYS/LS-DYNA,found out about the variation of the penetration depth and the velocity of the fragment after the fragments’penetration into the vertical and inclined liquid cabins,and discussed the optimal inclination angle of the liquid tank in a ship.The results indicated that the presence of the inclination feature of the liquid cabin helps to reduce the instantaneous velocity of the fragments entering the water,and the velocity dropped faster in water with the increase of the instantaneous velocity of the fragments.In the stage of impact and cavitation,the penetration depth of the fragments rose immediately,and the larger the instantaneous velocity,the faster the increase of the penetration depth.The penetration depth in the two phases was about 10% of the final penetration.Judging by the rate of the decrease of the projectile’s velocity and that of increase of the fragments’penetration depth,we conclude that the tank with a tilt of 60° can achieve better protection.