用于抗损伤和美观的全瓷修复体的分级结构。
Graded structures for damage resistant and aesthetic all-ceramic restorations.
作者信息
Zhang Yu, Kim Jae-Won
机构信息
Department of Biomaterials and Biomimetics, New York University College of Dentistry, New York University, New York 10010, USA.
出版信息
Dent Mater. 2009 Jun;25(6):781-90. doi: 10.1016/j.dental.2009.01.002. Epub 2009 Feb 1.
OBJECTIVES
Clinical studies revealed several performance deficiencies with alumina- and zirconia-based all-ceramic restorations: fracture; poor aesthetic properties of ceramic cores (particularly zirconia cores); and difficulty in achieving a strong ceramic-resin-based cement bond. We aim to address these issues by developing a functionally graded glass/zirconia/glass (G/Z/G) structure with improved damage resistance, aesthetics, and cementation properties.
METHODS
Using a glass powder composition developed in our laboratory and a commercial fine zirconia powder, we have successfully fabricated functionally graded G/Z/G structures. The microstructures of G/Z/G were examined utilizing a scanning electron microscopy (SEM). The crystalline phases present in G/Z/G were identified by X-ray diffraction (XRD). Young's modulus and hardness of G/Z/G were derived from nanoindentations. Critical loads for cementation radial fracture in G/Z/G plates (20mmx20mm, 1.5 or 0.4mm thick) bonded to polycarbonate substrates were determined by loading with a spherical indenter. Parallel studies were conducted on homogeneous yttria-stabilized tetragonal zirconia polycrystal (Y-TZP) controls.
RESULTS
The G/Z/G structure consists of an outer surface aesthetic glass layer, a graded glass-Y-TZP layer, and a dense Y-TZP interior. The Young's modulus and hardness increase from surface to interior following power-law relations. For G/Z/G plates of 1.5 and 0.4mm thick, critical loads for cementation radial fracture were 1990+/-107N (mean+/-S.D., n=6) and 227+/-20N (mean+/-S.D., n=6), respectively, which were approximately 30 and 50% higher than those for their monolithic Y-TZP counterparts (1388+/-90N for 1.5mm and 113+/-10N for 0.4mm thick; mean+/-S.D., n=6 for each thickness). A 1-sample t-test revealed significant difference (p<0.001) in critical loads for radial fracture of G/Z/G and homogeneous Y-TZP for both specimen thicknesses.
SIGNIFICANCE
Our results indicate that functionally graded G/Z/G structures exhibit improved damage resistance, aesthetics, and potentially cementation properties compared to homogeneous Y-TZP.
目的
临床研究揭示了氧化铝基和氧化锆基全瓷修复体存在的一些性能缺陷:断裂;陶瓷核(特别是氧化锆核)美学性能差;以及难以实现牢固的陶瓷-树脂基粘结。我们旨在通过开发一种具有改进的抗损伤性、美学性能和粘结性能的功能梯度玻璃/氧化锆/玻璃(G/Z/G)结构来解决这些问题。
方法
使用我们实验室开发的玻璃粉末组合物和一种商业精细氧化锆粉末,我们成功制备了功能梯度G/Z/G结构。利用扫描电子显微镜(SEM)检查G/Z/G的微观结构。通过X射线衍射(XRD)确定G/Z/G中存在的晶相。G/Z/G的杨氏模量和硬度由纳米压痕得出。通过用球形压头加载来确定粘结到聚碳酸酯基板上的G/Z/G板(20mm×20mm,1.5或0.4mm厚)中粘结径向断裂的临界载荷。对均质钇稳定四方氧化锆多晶体(Y-TZP)对照进行了平行研究。
结果
G/Z/G结构由外表面美学玻璃层、梯度玻璃-Y-TZP层和致密的Y-TZP内部组成。杨氏模量和硬度从表面到内部遵循幂律关系增加。对于1.5mm和0.4mm厚的G/Z/G板,粘结径向断裂的临界载荷分别为1990±107N(平均值±标准差,n = 6)和227±20N(平均值±标准差,n = 6),分别比其整体Y-TZP对应物高约30%和50%(1.5mm厚的为1388±90N,0.4mm厚的为113±10N;每种厚度平均值±标准差,n = 6)。单样本t检验显示,对于两种试样厚度,G/Z/G和均质Y-TZP的径向断裂临界载荷存在显著差异(p<0.001)。
意义
我们的结果表明,与均质Y-TZP相比,功能梯度G/Z/G结构具有改进的抗损伤性、美学性能和潜在的粘结性能。
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