Effect of powder characteristics on the sinterability of hydroxyapatite powders

The effect of different sintering conditions on the sintered density and mi crostructure of two different hydroxyapatite (HA) powders was examined. The powder characteristics of a laboratory synthesized HA powder (Lab HA) were low crystallinity, a bimodal particle size distribution, a median particle size of 22 mum and a high specific surface area (SSA) of 63 m(2)/g. By con trast, a commercial calcined HA (commercial HA) was crystalline and had a m edian particle size of 5 mum and a low SSA of 16 m(2)/g. The different powd er characteristics affected the compactability and the sinterability of the two HA powders. Lab HA did not compact as efficiently as commercial HA, re sulting in a lower green density, but the onset of sintering of powder comp acts of the former was approximately 150 degreesC lower than the later. The effect of compaction pressure, sintering temperature, time and heating rat e on the sintered densities of the two materials was studied. Varying all t hese sintering conditions significantly affected the sintered density of co mmercial HA, whereas the sintered density of Lab HA was only affected signi ficantly by increasing the sintering temperature. The Vickers hardness, H-v, of Lab HA was greater than commercial HA for low sintering temperatures, below 1200 degreesC, whereas for higher sintering temperatures the commercial HA produced ceramics with greater values of har dness. These trends can be related to the sinterability of the two material s. (C) 2001 Kluwer Academic Publishers.