Erschienen in:
01.01.2012 | Short Communication
Finite element analysis to compare stress distribution of connector of lithia disilicate-reinforced glass–ceramic and zirconia-based fixed partial denture
verfasst von:
Jie Lin, Akikazu Shinya, Harunori Gomi, Akiyoshi Shinya
Erschienen in:
Odontology
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Ausgabe 1/2012
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Abstract
This study used finite element method to analyze the stress distribution in connector of ceramic-based bilayer structures, in simulation of dental crown-like structures with a functional but weak veneer layer bonded onto a strong core layer. The purpose of this study was to evaluate the stress distribution at veneer/core interface of 2 different core materials [Yttria-stabilized tetragonal zirconia polycrystals (Y-TZP) and lithia disilicate-reinforced glass–ceramic] using three-dimensional finite element analysis. Within the limitations of this study, finite element analysis showed that stress concentrations were located at the veneer/core interface of the connector in Y-TZP core models. The general observation was that compared with Y-TZP, lithia disilicate-reinforced glass–ceramic showed a relatively stable stress value and had a minor effect on the stress concentration susceptibility.