Abstract

ZrB 2–20 vol.%SiC composites containing 10 vol.% h-BN particles (ZSB) with average grain sizes ranging from 1 μm to 10 μm were hot-pressed. The fracture toughness of the ZSB composites was higher than reported results of monolithic ZrB 2 (2.3–3.5 MPa m 1/2) and SiC particle reinforced ZrB 2 composites (4.0–4.5 MPa m 1/2). The improvement in the fracture toughness of the ZSB composites was due to the high aspect ratio of h-BN and weaker interface bonding, which could enhance crack deflection and stress relaxation near the crack-tip. Compared with the flexural strength of the ZrB 2–SiC composites, the reduction in the flexural strength of the ZSB composites was attributed to the weaker interface bonding and the lower relative density. Furthermore, improvement in toughness and the reduction in the strength were valuable to improve the thermal shock resistance of the ZSB composites. The Δ T c of ZSB5 material is 400 °C which is higher than ZrB 2–20%SiC and ZrB 2–15%SiC–5%AlN.

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