EFFECT OF AQUEOUS PROCESSING CONDITIONS ON THE MICROSTRUCTURE AND TRANSFORMATION BEHAVIOR IN AL2O3-ZRO2(CEO2) COMPOSITES

Aqueous processing of Al2O3-ZrO2 (12 mol% CeO2) composites, combined with sintering conditions, was used to control the microstructure and its influence on the martensitic transformation temperature of t-ZrO2 and the transformation-toughening contribution at room temperature. The resultant ZrO2 grain sizes in the dense composites were related to the transformation-toughening behavior of t-ZrO2. The data show that (1) the best processing conditions exist when the electrophoretic mobilities of the two solids are positive, adequately high to ensure colloidal stability, efficient packing, and uniform ZrO2 distribution, but differ greatly in magnitude, (2) the colloidal stability of ZrO2 controls the overall stability and the rheological and processing behavior of this mixture, (3) the grain size distribution in dense pieces sintered for 1 h at 1500-degrees-C is comparable to the particle size distribution of the powders, (4) the martensite start temperature for the tetragonal-to-monoclinic transformation in Al2O3 Containing 20 and 40 vol% ZrO2 increases and can approach 0-degrees-C with increasing average ZrO2 grain size, and, as a result, (5) the fracture toughness values at room temperature are raised from 4-5 MPa.m1/2 to 9-12 MPa.m1/2 for these two compositions.