实用口腔医学杂志
實用口腔醫學雜誌
실용구강의학잡지
JOURNAL OF PRACTICAL STOMATOLOGY
2009年
6期
833-837
,共5页
祁韶鹏%张玉梅%李健学%张若冰%憨勇
祁韶鵬%張玉梅%李健學%張若冰%憨勇
기소붕%장옥매%리건학%장약빙%감용
微弧氧化%钛瓷结合%结合强度%三点弯曲试验
微弧氧化%鈦瓷結閤%結閤彊度%三點彎麯試驗
미호양화%태자결합%결합강도%삼점만곡시험
Micro-arc oxidation%Titanium%Bond strength%Three-point-flexure-test
目的:研究以不同浓度Na_2SiO_3溶液进行微弧氧化处理后对钛-瓷结合强度的影响,方法:在瓷粉烧结前,分别用3 种浓度的Na_2SiO_3溶液对纯钛片进行微弧氧化处理,瓷粉烧结后通过三点弯曲实验检测钛-瓷结合强度,并以扫描电镜(SEM)和能谱分析(EDS)对膜层表面及钛-瓷界面进行分析.结果:三点弯曲实验结果显示微弧氧化各组钛-瓷结合强度均高于对照组,当Na_2SiO_3溶液浓度为20 g/L时钛-瓷结合强度明显高于30 g/L组和40 g/L组(P<0.05).EDS分析显示经微弧氧化处理后,钛表面生成含Si元素氧化膜,其含量随溶液浓度增加而升高.扫描电镜显示,随着溶液浓度增加,氧化膜表面孔洞直径增加,氧化膜变厚,致密性下降;钛-瓷结合界面出现微小裂隙.结论:微弧氧化处理可提高钛-瓷结合强度,微弧氧化溶液浓度对钛-瓷结合强度有影响.
目的:研究以不同濃度Na_2SiO_3溶液進行微弧氧化處理後對鈦-瓷結閤彊度的影響,方法:在瓷粉燒結前,分彆用3 種濃度的Na_2SiO_3溶液對純鈦片進行微弧氧化處理,瓷粉燒結後通過三點彎麯實驗檢測鈦-瓷結閤彊度,併以掃描電鏡(SEM)和能譜分析(EDS)對膜層錶麵及鈦-瓷界麵進行分析.結果:三點彎麯實驗結果顯示微弧氧化各組鈦-瓷結閤彊度均高于對照組,噹Na_2SiO_3溶液濃度為20 g/L時鈦-瓷結閤彊度明顯高于30 g/L組和40 g/L組(P<0.05).EDS分析顯示經微弧氧化處理後,鈦錶麵生成含Si元素氧化膜,其含量隨溶液濃度增加而升高.掃描電鏡顯示,隨著溶液濃度增加,氧化膜錶麵孔洞直徑增加,氧化膜變厚,緻密性下降;鈦-瓷結閤界麵齣現微小裂隙.結論:微弧氧化處理可提高鈦-瓷結閤彊度,微弧氧化溶液濃度對鈦-瓷結閤彊度有影響.
목적:연구이불동농도Na_2SiO_3용액진행미호양화처리후대태-자결합강도적영향,방법:재자분소결전,분별용3 충농도적Na_2SiO_3용액대순태편진행미호양화처리,자분소결후통과삼점만곡실험검측태-자결합강도,병이소묘전경(SEM)화능보분석(EDS)대막층표면급태-자계면진행분석.결과:삼점만곡실험결과현시미호양화각조태-자결합강도균고우대조조,당Na_2SiO_3용액농도위20 g/L시태-자결합강도명현고우30 g/L조화40 g/L조(P<0.05).EDS분석현시경미호양화처리후,태표면생성함Si원소양화막,기함량수용액농도증가이승고.소묘전경현시,수착용액농도증가,양화막표면공동직경증가,양화막변후,치밀성하강;태-자결합계면출현미소렬극.결론:미호양화처리가제고태-자결합강도,미호양화용액농도대태-자결합강도유영향.
Objective; To evaluate the influence of electrolyte's concentration at micro-arc oxide treatment on the bonding strength of titanium to porcelain. Methods; CP titanium specimens with size of 25 mm ×3 mm ×0. 5 mm were treated with micro-arc oxidation (MAO) in Na_2SiO_3 solution of three different concentrations. After ultra-low-fusing porcelain was applied, a three-point-flexure-test was used to evaluate the bonding strength of titanium to porcelain. The surface of the specimens was observed by SEM and EDS, as well as the interface between titanium and porcelain. Results; The bonding strength values between titanium treated with MAO and porcelain was significantly higher then the control groups, Croup 20 g/L has the highest bonding strength values. SEM/EDS suggested that a porous thin layer of oxide which contains Si element is created by MAO, and higher concentration of Na_2SiO_3 leads to more Si element in oxide. Conclusion; MAO treating can improve the bonding strength between titanium and ceramic. Electrolyte's concentration has an effect on the bond strength between titanium and porcelain.
