抄録
Carbonate-containing hydroxyapatite (CHA) is considered a promising material for artificial bones. To obtain CHA porous ceramics with a high carbonate content, two CHA powders (CHA-0.6 and CHA-5.0) containing 0.6 and 5.0 mass% of carbonate, respectively, and having particle sizes of 0.1 and 1.5 µm, were sintered at various temperatures under air, CO2, and steam atmospheres. Sintering was delayed under CO2 and steam atmospheres. Both samples were affected by the type of atmosphere in a similar way, but the overall relative density was lower in CHA-5.0. Both samples retained their porous structure with a relatively high carbonate content of 2-3 mass% when sintered at 900-1000 °C under a CO2 atmosphere. The carbonate content increased to 3-5 mass% when the combination of steam and CO₂ was used as atmospheres at 1000 °C, with the higher carbonate content observed in CHA-5.0. These results demonstrate that porous CHA ceramics with a relatively high carbonate content can be obtained by sintering CHA particles under controlled atmospheric conditions.