功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2010年
1期
100-104
,共5页
曾麟%周宏明%易丹青%郭雁军%罗佳%刘芙蓉
曾麟%週宏明%易丹青%郭雁軍%囉佳%劉芙蓉
증린%주굉명%역단청%곽안군%라가%류부용
FHA%掺杂%热稳定性%烧结致密度%热膨胀系数%生物活性
FHA%摻雜%熱穩定性%燒結緻密度%熱膨脹繫數%生物活性
FHA%참잡%열은정성%소결치밀도%열팽창계수%생물활성
FHA%doping%thermal stability%sintering density%thermal expansion coefficient%bioactivity
采用沉淀-煅烧法制备了F掺杂HA的FHA(Ca_(10)(PO_4)_6(OH)_(2-2x)F_(2x),0≤x≤1)粉末.通过X射线衍射(XRD)、热重分析(TG)、高温膨胀仪,扫描电镜(SEM),能谱仪(EDS)以及模拟体液浸泡实验研究了F掺杂对FHA高温热稳定性,高温烧结性能,热膨胀系数和生物活性的影响.结果表明,F掺杂能够提高FHA的高温热稳定性,且随F掺杂量增加,其稳定性逐渐提高;少量F(x=0.25)掺杂提高了HA基体的烧结致密度,随F含量增加(x>0.25),烧结致密度下降;F掺杂能降低FHA高温热膨胀系数(CET),随着F含量的增加,FHA的CET值减小.类骨磷灰石在块体表面的生长能力为FHA>HA>FA,其中x=0.5和0.75的FHA具有最好的生物活性.
採用沉澱-煅燒法製備瞭F摻雜HA的FHA(Ca_(10)(PO_4)_6(OH)_(2-2x)F_(2x),0≤x≤1)粉末.通過X射線衍射(XRD)、熱重分析(TG)、高溫膨脹儀,掃描電鏡(SEM),能譜儀(EDS)以及模擬體液浸泡實驗研究瞭F摻雜對FHA高溫熱穩定性,高溫燒結性能,熱膨脹繫數和生物活性的影響.結果錶明,F摻雜能夠提高FHA的高溫熱穩定性,且隨F摻雜量增加,其穩定性逐漸提高;少量F(x=0.25)摻雜提高瞭HA基體的燒結緻密度,隨F含量增加(x>0.25),燒結緻密度下降;F摻雜能降低FHA高溫熱膨脹繫數(CET),隨著F含量的增加,FHA的CET值減小.類骨燐灰石在塊體錶麵的生長能力為FHA>HA>FA,其中x=0.5和0.75的FHA具有最好的生物活性.
채용침정-단소법제비료F참잡HA적FHA(Ca_(10)(PO_4)_6(OH)_(2-2x)F_(2x),0≤x≤1)분말.통과X사선연사(XRD)、열중분석(TG)、고온팽창의,소묘전경(SEM),능보의(EDS)이급모의체액침포실험연구료F참잡대FHA고온열은정성,고온소결성능,열팽창계수화생물활성적영향.결과표명,F참잡능구제고FHA적고온열은정성,차수F참잡량증가,기은정성축점제고;소량F(x=0.25)참잡제고료HA기체적소결치밀도,수F함량증가(x>0.25),소결치밀도하강;F참잡능강저FHA고온열팽창계수(CET),수착F함량적증가,FHA적CET치감소.류골린회석재괴체표면적생장능력위FHA>HA>FA,기중x=0.5화0.75적FHA구유최호적생물활성.
FHA(Ca_(10)(PO_4)_6(OH)_(2-2x)F_(2x),0<x<1) powders were synthesized by wet precipitation-calcination method.XRD,TG,high-temperature dilatometer,SEM,EDS and SBF experiment were used to investigated the influences of F doping on the thermal stability and sintering properties of high temperature,thermal expansion coefficient,and bioactivity of FHA.The results show that doping F improves the thermal stability of FHA at high temperature,and the stability can be gradually improved with the inrease of F content;Sintering density of FHA bulk increases with small amount of F doping (x=0.25),but decreases when F doping content more than x=0.25.Thermal expansion coefficient(CET) of FHA decreases with the increase of F content.The growth ability of bone-like apatite forming on FHA bulk surface proved by the SBF soaking experiment is :FHA>HA>FA,and both F0.5HA and F0.75HA have the best bioactivity.
