A novel approach was introduced to prepare pore-gradient Al2O3 ceramic foams with association of gelcasting process and polymer sphere template. This approach allows the design of pore connectivity and gradient height of ceramic foams by the appropriate selection of sphere sizes and numbers. The limitation of ceramic foams fabricated by polymeric sponge process on sponge carrier can be resolved by this approach. Epispastic polystyrene (EPS) spheres with different sizes were employed to array ordered templates. Influence of solid content and dispersant on the viscosity of Al2O3 slurry was studied. EPS spheres modified by oxygen plasma to increase the hydrophilicity of surfaces and influence of pre-removal of EPS template on the integrity of networks were investigated. Results showed that 55 vol.% Al2O3 slurries with 0.5 wt% dispersant kept good fluidity for casting and permeability in template. Water contact angle of EPS surface decreased from 95.2A degrees to 20A degrees. Some defects in green bodies such as edge-delamination and micropores disappeared after surface modification. The perfect structure and morphology of the ceramic foams were ascribed to the pre-removal of template by solvent. The hierarchical pore structure was fabricated with EPS spheres of 2.1, 2.6 and 3.2 mm diameters. Porosity and compressive strength of the pore-gradient Al2O3 ceramic foam were 68.5% and 3.06 MPa at 1,500 A degrees C, respectively.

• 出版日期2012-10
• 单位苏州大学