Effect of starting composition, type of rare earth sintering additive and amount of liquid phase on ? ? ß sialon transformation
Abstract
Five different ?-ß sialon and ?-sialon compositions have been prepared using different rare earth oxide additives namely, neodymium, samarium, dysprosium and ytterbium. Post-sintering heat treatments have been carried out at 1450°C for up to 720 h (one month) to observe ? › ß sialon transformation. A combination of X-ray and microstructural observations has shown that the high-temperature stability of the ?-sialon phase depends on the starting composition, the type of rare earth sintering additives, the amount and viscosity of the liquid phase, and the presence or absence of ß-sialon grains in the initial sintered material