▎ 摘　　要

NOVELTY - Manufacture of composite armor involves (i) splicing ceramics, layering the spliced ceramics, a composite material transition layer, a titanium alloy backboard and a composite material backboard, hot-pressing composite to form a main component anti-elastic module, (ii) compounding the anti-elastic module and an aramid fiber anti-cracking layer, (iii) three-dimensionally winding using aramid fiber, (iv) hot-pressing composite, and (v) packaging. The composite material transition layer is formed by laminating an aramid fiber transition layer, a carbon fiber plate and an ultra-high molecular weight polyethylene plate having a thickness of 3 mm, and a glue film having a thickness of 0.05-0.1 mm is covered between each two adjacent layers. USE - Manufacture of composite armor. ADVANTAGE - The method provides high energy absorption and low back convex composite armor. The armor has lower surface of 47.99 kg/m2, effectively protects projectile striking, low back projection, thickness of 30 mm, armor plate with the thickness of 500-600 mm can effectively defend the 7.62 mm nail firing bomb continuous shooting, stability, de-bonding layering property and provides equipment to nail-penetrating bullet, and improves the battlefield survival rate.