Publication | Closed Access
Low‐Temperature Densification of Zirconium Diboride Ceramics by Reactive Hot Pressing
129
Citations
35
References
2006
Year
EngineeringMechanical EngineeringRaw Materials ScienceReactive Hot PressingCeramic PowdersCeramic TechnologyMaterials ScienceMaterials EngineeringCeramic MaterialNanomanufacturingElemental ZirconiumMicrostructureSinteringHigh Temperature MaterialsCeramics MaterialsCeramic SynthesisMetal-ceramic SystemsZrb 2Zirconium Diboride Ceramics
Zirconium diboride–silicon carbide ceramics with relative densities in excess of 95% were produced by reactive hot pressing (RHP) at temperatures as low as 1650°C. The ZrB 2 matrix was formed by reacting elemental zirconium and boron. Attrition milling of the starting powders produced nanosized (<100 nm) Zr particulates that reacted with B below 600°C. The reaction resulted in the formation of nanoscale ZrB 2 crystallites that could be densified more than 250°C below the temperatures required for conventional ZrB 2 powder. Because of the low‐temperature densification, the resulting ZrB 2 grain sizes were as small as 0.5±0.30 μm for specimens densified at 1650°C and 1.5±1.2 μm for specimens densified at 1800°C. Vickers hardness, elastic modulus, and flexure strength of fully dense materials produced by RHP were 27, 510, and 800 MPa, respectively.
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