Dense hydroxyapatite (HA) compacts have been successfully fabricated by a s
park plasma sintering (SPS). The sintering behavior of HA powders at differ
ent temperatures ranging from 850 degreesC to 1100 degreesC was studied. Re
sults showed that spark plasma sintering resulted in rapid densification to
near theoretical density. The HA compact was homogeneously sintered at 950
degreesC in a short sintering duration of 5 min. while maintaining high qu
ality and high relative density (> 99.5%). The density, microhardness and Y
oung's modulus of HA sintered compact initially increased with the sinterin
g temperature, reached a maximum value at around 950-1000 degreesC. then de
creased with further increase in the temperature due to the decomposition o
f HA into P-tricalcium phosphates. Fracture toughness results showed no sig
nificant difference with increasing temperature due to the combined influen
ces of density and grain size. Microstructure analysis showed no noticeable
grain growth under different sintering temperatures due to the short time
exposure at high temperatures. (C) 2001 Elsevier Science Ltd. All rights re
served.