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两种牙科陶瓷材料层状结构循环疲劳行为的对比研究 被引量:3

Compared Study of Cyclic Fatigue Behaviors in Two Kinds of Dental Ceramic Layers Structures
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摘要 目的比较EmpressⅡ热压铸造陶瓷和GI-Ⅱ型氧化铝渗透陶瓷材料层状复合结构经Hertzian循环加载疲劳后强度的变化以及损伤模式的差异。方法应用Hertzian接触实验方法对EmpressⅡ热压铸造陶瓷和GI-Ⅱ型氧化铝渗透陶瓷标准试件进行循环加载,然后测试加载后试件的临界载荷。结果EmpressⅡ热压铸造陶瓷复合结构试件经105次循环后的临界载荷与未经循环加载组的临界载荷差别有统计学意义(P<0.05);GI-Ⅱ型氧化铝渗透陶瓷复合结构试件在循环加载疲劳实验中,各组临界载荷变化均无统计学差别。结论GI-Ⅱ型氧化铝渗透陶瓷在循环疲劳实验中表现出较好的耐疲劳特性,可能与其材料本身的显微结构有关。EmpressⅡ热压铸造陶瓷以脆性损伤模式为主。 Objective To compare the difference in strength degradation and morphology damage of two dental ceramic materials after Hertzian contact cyclic fatigue. Methods Hertzian contact technique was used to investigate the response of Empress Ⅱ glass ceramic and GI-Ⅱ glass-infiltrated alumina ceramic to cyclic fatigue. Critical loads of specimens after different fatigue cycles were recorded. Results For Empress Ⅱ glass ceramic, critical load had significantly difference between specimens after 105 cycles loading. No significant difference of critical load was found in GI-Ⅱ glass-infihrated alumina ceramic after cycles loading. Conclusion GI-Ⅱ glass-infiltrated alumina ceramic has better capability in resistance to cyclic loading. It may attribute to microstructure of material. Empress Ⅱ glass ceramic shows a brittle damage model.
作者 苏俭生 郭凌云 刘伟才
机构地区 同济大学口腔医院修复科
出处 《华西口腔医学杂志》 CAS CSCD 北大核心 2007年第2期166-168,172,共4页 West China Journal of Stomatology
基金 上海市科委科技攻关重点资助项目(054119533)
关键词 牙科陶瓷 层状结构 循环疲劳 临界载荷 dental ceramic layers structures cycle fatigue critical loads
分类号 R783.1 [医药卫生—口腔医学]
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参考文献7

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同被引文献46

  • 1Aboushelib MN,Feilzer AJ,Kleverlaan CJ. Bridging the gap between clinical failure and laboratory fracture stren-gth tests using a fractographic approach[J].{H}DENTAL MATERIALS,2009,(03):383-391.
  • 2Aboushelib MN,Dozic A,Liem JK. Influence of frame-work color and layering technique on the final color of zirconia veneered restorations[J].{H}Quintessence International,2010,(05):e84-e89.
  • 3DeHoff PH,Anusavice KJ. Effect of metal design on mar-ginal distortion of metal-ceramic crowns[J].{H}Journal of Dental Research,1984,(11):1327-1331.
  • 4Reich S,Petschelt A,Lohbauer U. The effect of finish line preparation and layer thickness on the failure load and fractography of ZrO2 copings[J].{H}Journal of Prosthetic Dentistry,2008,(05):369-376.
  • 5Aboushelib MN,de Jager N,Kleverlaan CJ. Effect of loading method on the fracture mechanics of two la-yered all-ceramic restorative systems[J].{H}DENTAL MATERIALS,2007,(08):952-959.
  • 6Della Bona A,Mecholsky JJ Jr,Anusavice KJ. Fracture behavior of lithia disilicate- and leucite-based ceramics[J].{H}DENTAL MATERIALS,2004,(10):956-962.
  • 7Kelly JR,Tesk JA,Sorensen JA. Failure of all-ceramic fixed partial dentures in vitro and in vivo:Analysis and modeling[J].{H}Journal of Dental Research,1995,(06):1253-1258.
  • 8Castillo de Oyagüe R;S仳nchez-Jorge MI;S仳nchez Tur-rión A.Influence of CAM vs. CAD/CAM scanning methods and finish line of tooth preparation in the ver-tical misfit of zirconia bridge structures,CAD/CAM scanning methods and finish line of tooth preparation in the ver-tical misfit of zirconia bridge structures</a>[J].{H}American Journal of Dentistry2009(02):79-83.
  • 9Proos KA,Swain MV,Ironside J. Finite element analysis studies of an all-ceramic crown on a first pre-molar[J].{H}International Journal of Prosthodontics,2002,(04):404-412.
  • 10Proos KA,Swain MV,Ironside J. Influence of mar-gin design and taper abutment angle on a restored crown of a first premolar using finite element analysis[J].{H}International Journal of Prosthodontics,2003,(04):442-449.

引证文献3

二级引证文献13

华西口腔医学杂志
2007年 第2期

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