Fabrication of Dense TiB₂/[ZrO₂-Al₂O₃] Composites with Both High Hardness (≥20 GPa) and Fracture Toughness (≥12 MPa·m^1/2) Simultaneously by Pulsed Electric-current Pressure Sintering

Abstract

In order to produce ceramic composites having both high Vickers hardness H_v ≥20 GPa and high fracture toughness K_IC ≥10 MPa·m^1/2, dense TiB₂/[ZrO₂-Al₂O₃] composites have been fabricated using pulsed electric-current pressure sintering (PECPS) at 1873 K under 50 MPa for 6.0 × 10² s in Ar. As the former starting materials, two kinds of TiB₂ powders were adopted; i) mono-modal particle size (P_s) distribution with an average particle size <P_s> of 3.24 μm and ii) bi-modal P_s distribution with <P_s> of 3.06 μm, composed of the small P_s of 0.58 and the large P_s of 3.27 μm. On the hand, the latter was the mixed powders composed of ZrO₂(2.5 mol%Y₂O₃) solid solution (ss) and α-Al₂O₃ powders: each primary P_s was 0.1~0.2 μm. Thus fabricated composites consisting of TiB₂, tetragonal/monoclinic ZrO₂ and α-Al₂O₃ with relative densities more than 99.0% showed improved mechanical properties, especially bi-modal TiB₂/[ZrO₂-Al₂O₃] composites revealed high H_v of 22.3 GPa and K_IC of 12.8 MPa·m^1/2. These high-mechanical behaviors might be explained in terms of i) better powder particle configuration, ii) high chemical stability of TiB₂, iii) the most proper composition, with adoption of iv) bi-modal TiB₂ powder and v) the most suitable sintering condition.