微波等离子体烧结制备多孔纳米CHA/β-TCP 双相生物陶瓷

Microwave Plasma Sintering of Porous Nanosized CHA/β-TCP Biphasic Bioceramics

作者：冉旭(四川大学轻纺与食品学院,四川成都610065)；冉均国(四川大学材料科学与工程学院，四川成都610065)；刑现柱(四川大学材料科学与工程学院，四川成都610065)

Author：(School of Light Industry,Textile and Food,Sichuan Univ.,Chengdu 610065,China)；(School of Material Sci. and Eng., Sichuan Univ.)；(School of Material Sci. and Eng., Sichuan Univ.)

收稿日期：2008-03-23 年卷（期）页码：2008,40(4):100-104

期刊名称：工程科学与技术

Journal Name：Advanced Engineering Sciences

关键字：碳酸化羟基磷灰石；磷酸三钙；双相钙磷生物陶瓷；微波等离子烧结

Key words：carbonated hydroxyapatite; β-TCP;bioceramics;microwave plasma sintering

基金项目：国家重大基础研究资助项目(973G1999046760)

中文摘要

为了提高钙磷陶瓷材料性能，以含碳酸化羟基磷灰石纳米粉体（CHA）为原料，采用含水蒸汽CO2微波等离子体快速烧结新技术阻止CHA分解和实现多孔CHA /β TCP双相生物陶瓷的纳米化。在优化工艺条件下，制得平均晶粒尺寸为92 nm，气孔率为55.9％，CO32-含量约为4％，压缩强度为13.7 MPa的多孔纳米TCP/CHA双相生物陶瓷。与常规马弗炉烧结相比，微波等离子体烧结时间缩短，烧结温度降低，能有效阻止CHA分解，提高烧结效率。微波等离子体烧结是一种快速制备纳米生物陶瓷的有效方法。

英文摘要

Porous nanosized CHA/β-TCP biphasic bioceramics were prepared by microwave plasma sintering in a wet carbon dioxide atmosphere to improve its biological and mechanical performance. Through the optimization of sintering parameters including the sintering temperature and the holding time, porous bioceramics with average crystal size of 92 nm, porosity of 55.9%, CO32- content of 4 %(wt) and compressive strength of 13.7 MPa were obtained. The comparison between conventional sintered specimens and microwave plasma sintered specimens showed that the latter exhibit smaller crystal size, higher carbonate content, and compressive strength. Microwave plasma sintering is a promising method for preparing nanosized bioceramics.

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论文摘要

微波等离子体烧结制备多孔纳米CHA/β-TCP 双相生物陶瓷

Microwave Plasma Sintering of Porous Nanosized CHA/β-TCP Biphasic Bioceramics