Abstract

Mullite-matrix and Al₂O₃-matrix composites were fabricated with 30 wt% hydroxyapatite (HA) and tricalcium phosphate (TCP), respectively, as additives to give bioactivity. A diphasic gel process was employed to lower the densification temperature of the mullite matrix to 1320℃. A polymer complexation process was used to synthesize a TCP powder that was fully densified at 1250℃, for application to the matrix. For the HA/mullite composite, HA decomposed during sintering by reactions with the matrix components of Al₂O₃ and SiO₂, resulting in a mixture of Al₂O₃, TCP, and other minor phases with a low densification of less than 88% of the theoretical density (TD). In contrast, the TCP/Al₂O₃ composite was highly densified by sintering at 1350oC to 96%TD with no reaction between the components. Different from the TCP monolith, the TCP/Al₂O₃ composite also showed a fine microstructure and intergranular fracture, both of which characteristics are advantageous for strength and fracture toughness.

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