Ceramic armor

Ceramic armor is armor used by armored vehicles and in personal armor to resist projectile penetration through its high hardness and compressive strength. In its most basic form, it consists of two primary components: A ceramic layer on the outer surface, called the "strike face," backed up by a ductile fiber reinforced plastic composite or metal layer. The role of the ceramic is to (1) fracture the projectile or deform the projectile nose upon impact, (2) erode and slow down the projectile remnant as it penetrates the shattered ceramic layer, and (3) distribute the impact load over a larger area, which can be absorbed by ductile polymer or metallic backings. Ceramics are often used where light weight is important, as they weigh less than metal alloys for a given degree of resistance. The most common materials are alumina, boron carbide, and, to a lesser extent, silicon carbide.^[1] ^[2]

^ Yang, M.; Qiao, P. (2010). "High energy absorbing materials for blast resistant design". Blast Protection of Civil Infrastructures and Vehicles Using Composites. pp. 88–119. doi:10.1533/9781845698034.1.88. ISBN 978-1-84569-399-2.
^ "Ballistic Armor Glossary - Common Terms, Threats, and Materials". Adept Armor. May 3, 2021. Retrieved May 11, 2022.

[:0-1] Yang, M.; Qiao, P. (2010). "High energy absorbing materials for blast resistant design". Blast Protection of Civil Infrastructures and Vehicles Using Composites. pp. 88–119. doi:10.1533/9781845698034.1.88. ISBN 978-1-84569-399-2.

[2] "Ballistic Armor Glossary - Common Terms, Threats, and Materials". Adept Armor. May 3, 2021. Retrieved May 11, 2022.

[1]

[2]

Ceramic armor

From Wikipedia, the free encyclopedia · View on Wikipedia