In the present work the preparation of CeO2 ceramics doped with Y2O3 (
0-10 mol%) following the conventional mechanical mixing and solid stat
e reaction of constituent oxides is described. Compositions were calci
ned at 1500-degrees-C for 3 h for solution formation and finely ground
to maintain the average particle size at 0.5 mum in all cases. Charac
terization at different stages was performed for chemical composition,
solid solution formation, powder particle size distribution and speci
fic surface area. Densification behaviour was studied by high temperat
ure dilatometry. Samples of near theoretical density were obtained by
sintering at 1600-degrees-C for 6 h. Microstructural analysis showed a
fine grain size (e.g. approximately 15 mum for 1.0 mol% Y2O3 composit
ions), having a narrow size distribution and an intergranular porosity
. An inverse dependence of grain size on solute content was observed,
suggesting the role of yttria as a grain growth inhibitor for the CeO2
matrix. This correlation has been explained on the basis of the curre
ntly accepted model of space charge induced grain boundary segregation
of the solute ions.