Fabrication of gel cast BN/Si3N4 composite ceramics from surface-coated BN powder

BN/Si3N4 composite ceramics with different BN content were prepared by water-based gel casting process with raw and Y-Al-oxides-coated BN powder, separately. A Y-Al oxides layer with the thickness ranging from dozens to hundreds of nanometers, serving as sintering additives, was coated on the surface of BN particles with the method of precipitation of inorganic salts. As a result, the fluidity of BN/Si3N4 slurry with Y-Al-oxides-coated BN powder was much improved compared to that with raw BN. SEM examination showed the Y-Al-oxides-coated BN particles were homogeneously distributed within the Si3N4 grain boundaries, and BN aggregation was barely detected. The BN/Si3N4 composite ceramic prepared by Y-Al-oxides-coated BN powder showed a better sintering behavior than those prepared by raw BN due to the formation of fine and homogeneous microstructure in it. Compared to the BN/Si3N4 ceramic with 15 vol% raw BN, the density and flexural strength of the ceramic with the same content of surface-coated BN were significantly improved to 8.5% and 67.2%, respectively.