关键词: 层合板, 数值仿真, 侵彻, 剩余速度

Abstract: Protective armor is often impacted by high-speed projectiles,and its material selection and structural form determine its protective performance. It is of great significance to study the failure mechanism and anti-penetration performance of protective armor under high-speed impact. The nonlinear dynamic explicit finite element analysis software ANSYS/LS-DYNA is used to conduct high-speed projectile impact simulation tests on different structural forms of UHMWPE sandwich laminates,and analyze the anti-penetration performance of the target. The results show that when the total thickness of the laminates remains unchanged,the fiber proportion of UHMWPE decreases by 12.5%,the residual velocity of the projectile body increases by 12.3%,the energy absorption of the laminates decreases by 43 J,the core material proportion of the three-dimensional fabric decreases by 12.5%,the residual velocity of the projectile body increases by 4.3%,and the energy absorption of the laminates decreases by 14 J. Appropriately increasing the thickness ratio of fiber composite core material can improve the penetration resistance of laminates.

Key words: laminated plate, numerical simulation, penetration, residual velocity