Preparation of Al2O3–ZrO2–SiO2 ceramic composites by high-gravity combustion synthesis

Abstract

By a furnace-free technique of high-gravity combustion synthesis, Al2O3–ZrO2–SiO2 ceramic composites were prepared via melt solidification instead of conventional powder sintering. The solidification kinetics and microstructure evolution of the ceramic composites in high-gravity combustion synthesis were discussed. The phase assemblage of the ceramic composites depended on the chemical composition, where both (Al2O3+ZrO2) and (mullite+ZrO2) composites were obtained. The ceramic composites consisted of ultrafine eutectics and sometimes also large primary crystals. In the (mullite+ZrO2) composites, two different morphologies and orientations were observed for the primary mullite crystals, and the volume fraction of mullite increased with increasing SiO2 content. The ceramic composites exhibited a hardness of 11.2–14.8GPa, depending on the chemical composition and phase assemblage.