粘接界面的退化是否会影响应力分布?有限元应力分析研究。

S. Belli, O. Eraslan, G. Eskitaşçıoğlu
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引用次数: 1

摘要

目的:本有限元应力分析(FEA)的目的是确定由于水储存导致的降解对复合材料修复的根填充前磨牙模型的应力分布的影响,该模型使用自蚀刻(SE)或蚀刻-冲洗(E&R)粘合剂修复。材料与方法建立4个前磨牙有限元模型,包括牙根充填、MOD空腔和复合修复体。假设用SE或E&R胶粘剂处理,并在水中保存18个月。从文献中获得黏合剂-牙本质界面在蓄水24 h和蓄水18个月后的弹性特性,并将其应用于有限元模型。在模型的功能尖端处施加300-N的载荷。采用SolidWorks/Cosmosworks结构分析软件,给出了考虑von Mises应力的结构分析结果。结果主牙模型载荷施加侧颈区应力随时间增加(SE: 84.11 ~ 87.51 MPa;E&R: 100.24 MPa至120.8 MPa)。当分别评估黏附界面(杂化层、黏附层)和牙本质时,两种模型的根管孔附近应力均随时间增加;然而,这种变化在E&R模型中更为明显。E&R模型(胶粘剂层内)的空腔角处应力减小,而SE模型(杂化层内)则相反。结论水的储存导致粘接层、杂化层和牙本质弹性模量的变化对充填根前磨牙模型的应力有影响。应力的位置和水平取决于所使用的粘合剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Can Degradation of Adhesive Interfaces Due to Water Storage Affect Stress Distributions? A Finite-Element Stress Analysis Study.
PURPOSE The aim of this finite-element stress analysis (FEA) was to determine the effect of degradation due to water storage on stress distributions in root-filled premolar models restored with composite using either a self-etch (SE) or an etch-and-rinse (E&R) adhesive. MATERIALS AND METHODS Four premolar FEA models including root filling, MOD cavity, and composite restorations were created. The cavities were assumed to be treated by SE or E&R adhesives and stored in water for 18 months. The elastic properties of the adhesive-dentin interface after 24-h and 18-month water storage were obtained from the literature and applied to the FEA models. A 300-N load was applied on the functional cusps of the models. The SolidWorks/Cosmosworks structural analysis program was used and the results were presented considering the von Mises stresses. RESULTS Stresses in the cervical region increased over time on the load-application side of the main tooth models (SE: 84.11 MPa to 87.51 MPa; E&R: 100.24 MPa to 120.8 MPa). When the adhesive interfaces (hybrid layer, adhesive layer) and dentin were evaluated separately, the stresses near the root canal orifices increased over time in both models; however, this change was more noticeable in the E&R models. Stresses at the cavity corners decreased in the E&R model (within the adhesive layer), while SE models showed the opposite (within the hybrid layer). CONCLUSION Change in the elastic modulus of the adhesive layer, hybrid layer, and dentin due to water storage has an effect on stresses in root-filled premolar models. The location and the level of the stresses differed depending on the adhesive used.
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