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Reactive‐sintering B <sub>4</sub> C matrix composite for armor applications

Chao Wu, Yunkai Li, Chunlei Wan

2020Rare Metals22 citationsDOI

Abstract

Abstract The B 4 C matrix composite intended for armor applications still presents restrictions, such as low sintering density, production of large parts and inherited brittleness. Herein, research on this topic is discussed in detail. First, the material outlook of armor applications is organized from the development of composite armor and ceramic materials for armor to the B 4 C matrix composite and reactive‐sintering method. In the second section, the technologies are reviewed for reactive pressureless sintering, reactive hot‐pressing sintering, reactive discharge plasma sintering and self‐propagating high‐temperature sintering. Thereafter, our previous works on the TiB 2 /SiC/B 4 C composite and laminated Ti/B 4 C composite are employed to illustrate their microstructural evolution, phase transformation and fracture model. These studies provide a potential method for producing tough and high‐strength ceramic composites for armor application. In the final section, the mechanism, evaluation method and influencing factors of anti‐penetration for ceramic armor and B 4 C matrix composite are reviewed.

Topics & Concepts

ArmourMaterials scienceSinteringComposite numberCeramicComposite materialBrittlenessCeramic matrix compositeLayer (electronics)Advanced ceramic materials synthesisAluminum Alloys Composites PropertiesIntermetallics and Advanced Alloy Properties
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