Binary hybrid gels consisting of a carbonaceous hydrogel and a silica
gel were prepared as preceramic materials. The pyrolytic conversion in
to carbon-containing glasses under inert conditions were followed by T
G analysis, FTIR spectroscopy and nitrogen adsorption. On pyrolysis up
to 700 degrees C, the functional groups of the carbonaceous gel const
ituent were destroyed and the porosity of the binary gels is nearly co
mpletely reduced. Black glasses consisting of amorphous silica and car
bon are formed between 700 and 1400 degrees C. TG analysis showed that
the dense glasses with a carbon content <10 wt.% are stable up to 100
0 degrees C in air. Heat treatment at 1300-1400 degrees C renders the
glasses porous and instable against oxidation by air. On heating above
1400 degrees C, the SiO2 crystallizes and converts into SiC by a carb
othermal reduction. At 1600 degrees C, the glass with a molar ratio C/
Si=3 has transformed into SiC crystallites with grain sizes of 1 mu m
and less.