Study of Impact Characteristics of ZrO2 Ceramic Composite Projectiles on Ceramic Composite Armor

Abstract: Exploring new armor-piercing materials is crucial for improving the penetrative ability of projectiles. Based on the process of in situ solidification injection molding through ceramic dispersant hydrolytic degradation, a ZrO2 ceramic material suitable for use as the tip of a 12.7 mm kinetic energy (KE) projectile was prepared. The ZrO2 ceramic tip can be matched with the metal core of a conventional projectile to form a ceramic composite projectile, increasing the damage to the Al2O3 ceramic composite armor. … Show more

“…Traditional fragments mainly destroy targets by mechanical penetration, which has limited damage capabilities. The emergence of ceramic projectiles [1] and reactive fragments [1] had broken this situation. As the times progress,the development of a new ceramic preparation process had greatly improved the mechanical properties of ceramics.…”

Effects of ZrO₂ ceramics doped with varying content on the mechanical properties and energy release characteristics of W-Zr alloys

“…Traditional fragments mainly destroy targets by mechanical penetration, which has limited damage capabilities. The emergence of ceramic projectiles [1] and reactive fragments [1] had broken this situation. As the times progress,the development of a new ceramic preparation process had greatly improved the mechanical properties of ceramics.…”

Effects of ZrO₂ ceramics doped with varying content on the mechanical properties and energy release characteristics of W-Zr alloys

Breaking behavior and stress distribution of T12A hard steel core penetrating ceramic/aluminum alloy lightweight composite armor

Ablation properties of SiC-reinforced PBI resin matrix composites under high-energy continuous laser ablation