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金属基底冠厚度对纳米陶瓷和普通陶瓷金瓷冠耐压力的比较 被引量:1

Comparative study of the impact of thickness of metal basal crowns on pressure resistances of nano porcelain-fused-to-metal crowns and of ordinary porcelain-fused-to-metal crowns
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摘要 目的探讨金属基底冠厚度对纳米陶瓷金瓷冠和普通陶瓷金瓷冠在耐压力方面的影响。方法用车床加工一个模拟前磨牙预备体的金属代型,再研磨加工出五种厚度(0.2mm、0.4mm、0.6mm、0.8mm、1.0mm)的基底冠,各10个,将同一厚度的基底冠随机分为两组,每组5个,分别对应A-E的纳米陶瓷组和A'-E'的普通陶瓷组。各组分别熔附相应的陶瓷材料,整个瓷层的厚度为1.0mm。用Instron万能材料实验机,直径6 mm的球状压头置于试件牙合面中心,以1mm/min的速度加压至瓷层崩裂,记录数值,进行统计分析。结果①组内比较结果:A-E各组之间存在显著性差异(P<0.01);A'-E'各组之间也存在显著性差异(P<0.01);②组间比较结果:A组与A'组无显著差异(P>0.05),而B组与B'组、C组与C'组、D组与D'组、E组与E'组均有显著性差异(P<0.01)。结论①瓷层厚度一定时,随基底冠厚度的增加,纳米陶瓷各组和普通陶瓷各组的耐压力均增高。基底冠厚度为0.2 mm组的耐压力最小,1.0 mm组的耐压力最大。②基底冠厚度相同时,纳米陶瓷各组的耐压力较普通陶瓷各组高。 Objective To investigate the impact of thickness of metal basal crowns on pressure resistance of nano porcelain-fused-to-metal crowns and ordinary porcelain-fused-to-metal crowns.Methods A lathe was used to process a metal die stimulating the premolar preparation,then process five kinds of basal crowns with different thicknesses(respectively 0.2 mm,0.4 mm,0.6 mm,0.8 mm and1.0 mm) by grinding(10 pieces for each kind).The basal crowns with the same thickness are randomly divided into two groups(5 pieces for each group),which respectively corresponded to A-E nano porcelain groups and A'-E' ordinary porcelain groups.A layer of corresponding porcelain materials was fused onto each group,with the thickness of 1.0 mm.An Instron universal material testing machine was used,and the spherical indenter with a diameter of 6 mm was placed at the center of the occlusal surface of the specimen,then the porcelain layer was pressurized to break at a speed of 1 mm/min.Meanwhile the values were recorded and statistical analysis carried out.Results ① Intra-group comparison: there existed significant differences among each group of A-E groups(P〈0.01);there also existed significant differences among each group of A'-E ' groups(P〈0.01);② Inter-group comparison: there was no significant difference between group A and group A'(P〉0.05);however,there were significant differences between group B and group B',group C and group C',group D and group D',group E and group E'(P〈0.01).Conclusion ① With certain porcelain layer thickness,the pressure resistance of nano porcelain groups and ordinary porcelain groups is both enhanced along with the increase of basal crown thickness.The group with a basal crown thickness of 0.2mm has the lowest pressure resistance while the group with a thickness of 1.0mm the highest.② When the basal crown thickness is the same,the pressure resistance of nano porcelain groups is higher than that of ordinary porcelain groups.
出处 《现代口腔医学杂志》 CAS CSCD 2011年第6期437-439,共3页 Journal of Modern Stomatology
基金 河北省卫生厅医学科学研究重点课题(03072) 河北省卫生厅医学科学研究重点课题(20090052)
关键词 金瓷冠 纳米陶瓷 金属基底冠厚度 耐压力 Metal-ceramic crown Nano-ceramic Thickness of metal-basal crown Compression resistance
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  • 1翟丽云,赵玉珍,王少萍,杨月华.金瓷冠桥失败原因分析[J].华西口腔医学杂志,2005,23(3):231-232. 被引量:10
  • 2张娜,赵守亮,王胜朝,怡力,唐荣银.三种根管预备方法对根部牙体组织应力分布影响的三维有限元分析[J].牙体牙髓牙周病学杂志,2007,17(7):390-393. 被引量:17
  • 3Palamara JE,Palamara D,Messer HH. Tooth morphology and characteristics of non-carious cervical[J].{H}Journal of Dentistry,2006,(03):185-194.
  • 4Kaewsuriyathumrong C,Soma K. Stress of tooth and PDL structure created by bite force[J].J Bul Tokyo Med Dent Univ,1993.217-232.
  • 5Kuloglu M,Lee R. Hybrid finite-element/rigorous coupled wave analysis for scattering from three-dimensional doubly periodic structures[J].{H}JOURNAL OF THE OPTICAL SOCIETY OF AMERICA A-OPTICS IMAGE SCIENCE AND VISION,2012,(07):1399-1406.
  • 6Chowdhuri MA,Xia Z,Yu D. A study on optimal bonding angles of bi-material Interfaces in dental crowns with porcelain fused to metal[J].{H}Proceedings of the Institution of Mechanical Engineers Part H:Journal of Enigineering in Medicine,2011,(07):657-668.
  • 7Shirakura A,Lee H,Geminiani A. The influence of veneering porcelain thickness of al-ceramic and metal ceramic crowns on failure resistance after cyclic loading[J].{H}Journal of Prosthetic Dentistry,2009,(02):119-127.
  • 8Ulusoy M,Toksavul S. Fracture resistance of five different metal framework designs for metal-ceramic restorations[J].{H}International Journal of Prosthodontics,2002,(06):571-574.
  • 9Tsai YL,Petsche PE,Anusavice KJ. Effect s of metal surfacing on the color characterize of porcelain weneer[J].{H}International Journal of Prosthodontics,1998,(01):27.
  • 10Harrington Z,McDonald A,Knowles J. An in vitro study to investigate the load at fracture of procera al ceramic crowns with various thickness of occlusal veneer porcelain[J].{H}International Journal of Prosthodontics,2003,(01):54-58.

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