摘要
Iron-based oxides are considered as promising consumable anode materials for high temperature pyroelectrolysis. Phase relationships, redox stability and electrical conductivity of Fe3鈭?em>xAlxO4 spinels were studied at 300-1773 K and p(O2) from 10鈭? to 0.21 atm. Thermogravimetry/XRD analysis revealed metastability of the sintered ceramics at 300-1300 K. Low tolerance against oxidation leads to dimensional changes of ceramics upon thermal cycling. Activation energies of the total conductivity corresponded to the range of 16-26 kJ/mol at 1450-1773 K in Ar atmosphere. At 1573-1773 K and p(O2) ranging from 10鈭? to 0.03 atm, the total conductivity of Fe3鈭?em>xAlxO4 is nearly independent of the oxygen partial pressure. The conductivity values of Fe3鈭?em>xAlxO4 (0.1 鈮?#xA0;x 鈮?#xA0;0.4) at 1773 K and p(O2) 鈭?0鈭? to 10鈭? atm were found to be only 1.1-1.5 times lower than for Fe3O4, showing high potential of moderate aluminium additions as a strategy for improvement of refractoriness for magnetite without significant deterioration of electronic transport.