Fabrication of pore-gradient Al2O3–ZrO2 sintered bodies by fibrous monolithic process

Functionally pore-gradient Al2O3–ZrO2 composites where the porosity is dependent on the extrusion ratio and number of shell layer were fabricated by a fibrous monolithic process. The size and volume fraction of the pores were controlled by different numbers of shell layers, which contained various sizes and a different volume percentage of the pore-forming agent. In the pore-gradient, Al2O3–ZrO2 bodies having a dense core part, some defects such as cracks, swelling and delamination occurred during the sintering process due to the low extrusion ratio. However, these defects were completely removed as the extrusion ratio increased, and the shell layers as well as the core part had a continuously porous structure. In the shell part, various sizes of pores from 70 to 250 μm in diameter were observed.