Abstract
Oxalate coprecipitation method was applied to prepare rare earth-doped ceria powders with a composition of Ce 0.8R 0.2O 1.9 (R=Sm, La). The precipitate produced was decomposed at 600°C in air to the oxide solid solution. After milling with α-alumina ball, the powders were densified to 98–99% calculated density at 1600°C. No influence of doped rare earth element on the thermal expansion coefficient of CeO 2 was measured (11.4×10 −6–11.8×10 −6 K −1). The Ce 0.8Sm 0.2O 1.9 formed by colloidal processing and with 86–98% relative density offered 53–81 MPa of four-point flexural strength and 9.1 of Weibull modulus. Large flaws of 200–300 μm sizes produced near surface were fracture origins. The Young's modulus and Vicker's hardness were also measured for Ce 0.8Sm 0.2O 1.9. These measured thermal and mechanical data were compared with those of component materials of solid oxide fuel cell.
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