Compositional identification of the intergranular phase in liquid phase sintered SiC

A model system consisting of coarse SiC (32-160 mum) as starting powder and Y2O3 and A1N as sintering additives was liquid phase sintered. Coarse-grained starting powder led to large intergranular phase regions which allowed an accurate determination of the chemical composition by wavelength-dispersive X-ray microanalysis (WDS). When N-2 was used as sintering atmosphere, a N-rich amorphous phase (about 44 at.% N) was identified by WDS to be the main triple-junction phase in the sintered SiC ceramics, while three further crystalline intergranular phases were A1N, Y2SiN4O3 and an O-rich phase (Y10Al2Si3O18N4). The overall O content was found to be reduced in comparison to the initial powder composition. The incorporation of N from the sintering atmosphere into the intergranular phase and a subsequent carbothermal reduction are believed to be responsible for the removal of O and the formation of the N-rich amorphous phase. (C) 2002 Published by Elsevier Science Ltd.