M. Sales et al., COBALT ALUMINATE SPINEL-MULLITE COMPOSITES SYNTHESIZED BY SOL-GEL METHOD, Journal of the European Ceramic Society, 17(1), 1997, pp. 41-47
CoAl2O4 spinel-mullite composites were prepared by double substitution
of Al by Ti and Ni in stoichiometric 3:2 mullite. Gels with compositi
ons 3(Al2-2xCoxTixO3).2SiO(2) (x = 0.025, 0.05 and 0.2) and 3(Al(2-2x)
M(x)O(3)).2SiO(2) (x = 0.05; M = Co2+ or Ti4+) were synthesized by sol
-gel techniques. The structure of the gels was investigated by infra-r
ed spectroscopy. Heating gels at 750 degrees C produced an amorphous s
ilicoaluminate network. The reaction sequence was investigated by diff
erential thermal analysis. X-ray diffraction and ultraviolet-visible s
pectroscopy. All samples crystallized at temperatures lower than 1000
degrees C from the amorphous state. Al-Si spinel and/or CoAl2O4 were t
he first crystalline phases detected, which appeared almost simultaneo
usly. This finding indicated the important role played by Co2+ and Ti4
+ in phase development and crystallization kinetics, even for composit
ions very close to the stoichiometric 3:2. The reaction sequence can u
nderstood by assuming that CoAl2O4 spinel was developed by epitaxial g
rowth on Al-Si spinel. This fact permitted direct control of the final
microstructure of the CoAl2O4 spinel-mullite composite as revealed by
scanning and transmission electron microscopies. (C) 1996 Elsevier Sc
ience Limited.