Fadli, AhmadKomalasariAlfarisi, Cory Dian2015-12-012015-12-012015-12-01wahyu sari yenihttp://repository.unri.ac.id/xmlui/handle/123456789/7619Porous alumina-tri calcium phosphate (TCP) composite has been prepared via protein foaming-consolidation method. Sintering temperature was varied to amend performance of the porous composite. The shrinkage of sintered bodies decreased with increasing TCP loading. The decreasing porosity of porous alumina-TCP body from 45.0 to 38.9% improved the compressive strength from 0.3 to 10.6 MPa. Increasing sintering temperature resulted in large grain size among powder particles, thus improving the compressive strength of porous bodies. The macroporous alumina-TCP composite sample produced has been proven to be highly potential for bone implant application.enprotein foaming-consolidationaluminatri calcium phosphatecompositeboneUR-Scientific Work Lecturer