Combined effects of WC and SiC on densification and thermo-mechanical stability of ZrB2 ceramics

ZrB2-based mixtures containing WC and SiC in various amounts were hot-pressed at 1930°C, achieving final relative densities above 94%. The diboride matrix of the sintered ceramics was constituted by (Zr,W)B2 solid solution shells grown onto original ZrB2 grains. WC phase reacted during sintering leaving W-monoboride and mixed Zr,W-carbide as secondary phases. Room temperature flexure strength ranged from 540 to 630MPa, but performances of major significance were determined at 1500°C in air, with values exceeding 700MPa. SiC was vital to improve the oxidation resistance at 1500°C compared to SiC-free ZrB2-based ceramic. W, encased in the shell, retarded the inward diffusion of oxygen compared to the pure ZrB2. [Display omitted] •Fabrication of ZrB2–WC–SiC composites with density above 94%.•Development of “core-rim” substructures in the matrix and mixed W, Zr–boride and carbide.•Room temperature strength passed from 540 to 630MPa to over 700MPa at 1500°C in air.•W, enclosed in the solid solution shells, retarded the oxygen diffusion compared to pure ZrB2.