Microstructure and mechanical properties of titanium carbonitride whisker reinforced β-sialon matrix composites

Abstract

The microstructure, hardness, fracture toughness and thermal shock resistance were investigated for 15 vol.% TiC 0.3N 0.7 whisker reinforced β-sialon (Si 6− z Al z O 2N 8− z with z=0.6) composites with additions of three different volume fractions 2, 5 and 20 vol.%, of an yttrium-containing glass oxynitride phase. The composites were prepared by hot pressing at 1750°C for 90 min under a uniaxial pressure of 30 MPa in nitrogen atmosphere. The TiC 0.3N 0.7 whiskers were found to survive without deteriorating in morphology or reacting with the β-sialon matrix and/or the glass phase. The TiC 0.3N 0.7 whiskers had no obvious influence on the matrix microstructure, but their presence improved both the hardness and the fracture toughness of the composites. The highest hardness was obtained for the whisker composite with 2 vol.% glass phase ( H v=18.6 GPa). The fracture toughness and thermal shock resistance improved with increasing glass content. The whisker reinforced composite containing 20 vol.% glass showed the highest fracture toughness ( K 1C=6.8 MPa m 1/2). No unstable crack extension occurred during the thermal shock test of the obtained composites in the temperature interval 90–700°C, but above 700°C severe oxidation of the whiskers precludes further evaluation of thermal shock properties by the indentation-quench method applied.