Directionally solidified CeO₂ (or GDC)/CoO eutectic ceramics as cermet precursors for SOFCs anodes: Microstructure cross-over

Rods of CeO₂ and gadolinium-doped CeO₂ (GDC)-CoO eutectics were prepared by directional solidification using a laser heated floating zone (LFZ) technique. The microstructure has been studied as a function of the growth rate from V=10 to 750mm/h. Regular eutectic microstructures are obtained except for the highest growth rate. The interspacing follows the λ²V=C law with C=4.1(3)×10^-17 and 2.6(3)×10^-17m³/s for CeO₂-CoO and GDC-CoO eutectics, respectively. A cross-over between fibrous and lamellar eutectic microstructures was observed depending on the growth rate. The crystallography of the eutectics was studied by Electron Backscatter Diffraction (EBSD). The growth directions [110]_GDC∼//[110]_CoO, and the interfacial planes (200)_GDC//(111)_CoO, were identified. Solubility of Co in the ceria matrix was determined by Energy Dispersive X-ray (EDX) Spectroscopy after Co was leached out from the matrix. Co solubility in ceria at 1650°C was found to be less than 1mol%.