Microstructural and mechanical characterization of sol gel-derived Si-O-C glasses

The mechanical properties of three silicon oxycarbide glasses pyrolysed under inert (Ar) atmosphere were studied as a function of the pyrolysis temperature. The silicon oxycarbide glasses were prepared from various alkyl substituted alkoxysilanes such as HSi(OEt)(3) and HMeSi(OEt)(2) in different ratios by using the sol-gel method. The Si-O-C-glasses obtained were respectively: (i) silicon oxycarbide network with excess carbon, (ii) stoichometric SiCx O2(1-x) where x=0.30 and (iii) silicon oxycarbide matrix with an excess of Si. Si-C bonds introduced in the starting silica gel network can be partially retained in the final glass after pyrolysis under inert atmosphere. After pyrolysis at temperatures between 600-1500 degreesC, the presence of tetracoordinated C atoms in the silica network results in an improvement of mechanical properties and thermal stability compared with silica glass. By using elemental analysis, density, SEM, BET and XRD (combined with Rietveld-analysis), the glass characterization was performed. Flexural strength (MOR), elastic modulus (E) and Vickers hardness (H-V) were measured and will be discussed in terms of glass composition and microstructure. (C) 2002 Published by Elsevier Science Ltd.