Enhanced ballistic resistance of SiC ceramic-fiber composite armor:an investigation of fiber laminate backing effects and fragmentation dynamics
This study examines the penetration of 12.7 mm armor piercing incendiary projectiles into SiC ceramic-fiber composite target plates.By observing the recovered projectile and the overall damage morphology of the ceramic-fiber composite target plates.Additionally,multi-level screening and weighing of the recovered projectile and ceramic fragments revealed that the mass distribution of the projectile and ceramic fragments under different backing structures conforms to a power-law distribution.Experimental results indicate that for single laminate as the backing,the fragmentation of the projectile and ceramics is highest when T300 is the material.Incorporating a T300 transition layer between the SiC ceramic and aramid fibers(Kevlar)or ultra-high molecular weight polyethylene(UHMWPE)increases the fragmentation of the pro-jectile and ceramics,leading to increased energy absorption.The projectile's head mainly exhibits pulverized abrasive fragmentation,while larger projectile fragments primarily result from shear and tensile stress-induced shear-tensile failure fractures.The primary damage mode of ceramics under high-speed impact is the expansion of ceramic cones and radial cracks.The main form of damage in UHMWPE laminate is interlayer separation caused by tensile waves,permanent plastic deformation at the back protrusion,and perforation failure primarily due to shear waves.The damage mode of Kevlar laminate is similar to that of UHMWPE,with the distinction being that Kevlar laminate primarily exhibits perforation failure caused by tensile waves.Carbon fiber T300 laminate damage mainly consists of cross-shaped brittle fractures caused by shear waves.
12.7 mm armor piercing incendiarySiC ceramicFiber composite materialsFailure modesFragment statistics
陆文成、武一丁、马铭辉、余毅磊、周玄、王伯通、高光发
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School of Mechanical Engineering,Nanjing University of Science and Technology,Nanjing 210094,China
12.7 mm armor piercing incendiary SiC ceramic Fiber composite materials Failure modes Fragment statistics
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