Influence of dental restorative material properties on bond interface reliability： a finite element analysis 被引量：1

Influence of dental restorative material properties on bond interface reliability： a finite element analysis

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摘要 Background Varieties of restorative materials are widely used in dentistry. The aim of this study is to explore the influence of different dental restorative materials on bond interface reliability. Methods A two-dimensional finite element analysis method was adopted to simulate the shear-bond efficacy test. The influence of elastic modulus and Poisson＇s ratio were investigated separately. Several dental restorative materials including resins, metals, and ceramics were analyzed in this study. Results The deformation and peak equivalent stress level of the dentin-adhesive interface rose sharply following a decrease in the elasticity of restorative materials, especially those with a low elastic modulus range. The influence of the Poisson＇s coefficient was not significant. Ceramics and gold alloy were preferred to resin composite in restorations bearing extensive shear load during service. Conclusions Restorative materials with an elastic modulus similar to that of teeth are not always the best clinical choice. This research provides a helpful guide for the application of different restorative materials in clinical practice. Background Varieties of restorative materials are widely used in dentistry. The aim of this study is to explore the influence of different dental restorative materials on bond interface reliability. Methods A two-dimensional finite element analysis method was adopted to simulate the shear-bond efficacy test. The influence of elastic modulus and Poisson＇s ratio were investigated separately. Several dental restorative materials including resins, metals, and ceramics were analyzed in this study. Results The deformation and peak equivalent stress level of the dentin-adhesive interface rose sharply following a decrease in the elasticity of restorative materials, especially those with a low elastic modulus range. The influence of the Poisson＇s coefficient was not significant. Ceramics and gold alloy were preferred to resin composite in restorations bearing extensive shear load during service. Conclusions Restorative materials with an elastic modulus similar to that of teeth are not always the best clinical choice. This research provides a helpful guide for the application of different restorative materials in clinical practice.

作者 ZHAO Yan-tao ZHANG Yu-mei HOU Shu-xun KONG Liang LIN Jun ZHAO Yi-min HUO Na

机构地区 Department of Orthopedics School of Stomatology School of Mechanical Engineering

出处《Chinese Medical Journal》 SCIE CAS CSCD 2013年第5期879-883,共5页 中华医学杂志（英文版）

基金 This work was supported by grants from the National Natural Science Foundation of China （No. 81000417 and No. 81201380） and the hospital fund （No. 10KMM33, QN201104）.

关键词 dental materials dental bonding finite element analysis dental materials dental bonding finite element analysis

分类号 TU375 [建筑科学—结构工程] P315.9 [天文地球—地震学]

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Chinese Medical Journal

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