Compaction and Sintering Behavior of Bimodal Alumina Powder Suspensions by Pressure Filtration

The compaction behavior of fine alumina powders with different particle sizes or bimodal particle‐size distributions that are undergoing pressure filtration was investigated. Three alumina powders—average particle sizes of 0.2—0.86 μm—were compacted to a solids fraction of 62—65 vol% from suspensions at pH 3, which was the pH level at which the suspensions showed their lowest viscosity. When the powders of different average sizes were mixed, the suspensions showed better flowability, and the lowest viscosity was obtained when the fraction of fines was ∼30 vol% and pH = 3. The mixed‐sized powder suspensions were compacted to higher density than the suspensions of unmixed fine or coarse powders, and the maximum density was obtained for mixed suspensions that had the lowest viscosity, despite the different particle‐size ratio. Maximum densities of 72.5% and 75.0% were attained when the size ratios were 2 and 5, respectively. The compacts that were pressure‐filtered from mixed suspensions exhibited a single‐peaked pore‐size distribution and a homogeneous microstructure, whereas the pore‐size distributions of dry‐pressed compacts were double‐peaked. The sintering behavior of the compacts that were pressure‐filtrated from bimodal powders exhibited significantly better sinterability and much‐less linear shrinkage than the coarser powders and the dry‐pressed powder compacts.