全瓷修复体的分级结构。

Graded structures for all-ceramic restorations.

机构信息

Department of Biomaterials and Biomimetics, New York University College of Dentistry, 345 East 24th Street, New York, NY 10010, USA.

出版信息

J Dent Res. 2010 Apr;89(4):417-21. doi: 10.1177/0022034510363245. Epub 2010 Mar 3.

DOI:10.1177/0022034510363245

PMID:20200413

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3144080/

Abstract

One failure mode of all-ceramic restorations is radial cracking at the cementation surface, from occlusally induced flexure of the stiffer ceramic layer(s) on the softer dentin underlayer. We hypothesize that such failure may be substantially mitigated by an appropriate grading of elastic modulus through the ceramic thickness. In this study, we fabricated graded structures by infiltrating glass into zirconia plates, with resulting diminished modulus in the outer surfaces. The plates were then bonded to a polymeric base and subjected to flexure by contact loading until fracture. Comparison of infiltrated specimens with non-infiltrated controls showed a significant increase in the fracture loads, by a factor of nearly 2. Finite element analysis revealed the cause of increase in the load-bearing capacity to be diminished tensile stresses within the lower-modulus graded zone, corresponding to an increase in material strength. The results confirmed that suitably graded structures can be highly beneficial in the design of next-generation all-ceramic restorations.

摘要

全瓷修复体的一种失效模式是在粘结面处发生放射状裂纹，这是由于较硬的陶瓷层（多层）在较软的牙本质底层上受到咬合诱导的弯曲。我们假设，通过在陶瓷厚度上适当分级弹性模量，可以大大减轻这种失效。在这项研究中，我们通过将玻璃渗入氧化锆板来制造分级结构，从而使外表面的模量降低。然后将这些板粘结到聚合物基底上，并通过接触加载使其弯曲直至断裂。与未渗透对照样相比，渗透试样的断裂载荷显著增加，增加了近 2 倍。有限元分析表明，承载能力增加的原因是低模量分级区域内的拉伸应力减小，这对应于材料强度的增加。结果证实，适当的分级结构在下一代全瓷修复体的设计中非常有益。

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