SiAlON ceramics from preceramic polymers and nano-sized fillers: Application in ceramic joining

Commercial polysiloxanes filled with alumina nano-particles have been employed for the preparation of beta-SiAlON-based ceramics in the temperature range 1450-1550 degrees C in nitrogen atmosphere. The formation of beta-SiAlON was found to be preceded by the formation of intermediate alumino-silicate phases. The SiAlON yield was affected by the occurrence of phase separation in the oxycarbide ceramic residue (SiOC) derived from the silicones and by the partial vaporization of silica, by reduction into gaseous SiO, leading to products with an oxide contamination, consisting of corundum. Filled silicones finally found a promising application in the ceramic joining, sandwiched between two pre-exisi.ing alpha-beta (Yb-)SiAlON pieces and treated at high temperature (1550 degrees C): with a proper formulation, a significant inter-diffusion was observed between the joining layer and the SiAlON parts, causing the evolution of a homogeneous joint region, matching the microstructure and the mechanical properties of the parent ceramics. The pre-oxidation of the SiAlON, generally aiding the wetting of the joining media prior to thermal treatment, showed no significant benefit on the microstructure. On the contrary, the addition of a small load during the thermal treatment allowed the formation of strong joints, not exhibiting any significant difference in mechanical properties with the parent material. (C) 2011 Elsevier Ltd. All rights reserved.