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本文引用的文献

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Numerical evaluation of bulk material properties of dental composites using two-phase finite element models.使用两相有限元模型对牙科复合材料的体材料性能进行数值评估。
Dent Mater. 2012 Sep;28(9):996-1003. doi: 10.1016/j.dental.2012.05.005. Epub 2012 Jun 22.
2
Non-destructive examination of interfacial debonding using acoustic emission.声发射技术在界面脱粘无损检测中的应用。
Dent Mater. 2011 Oct;27(10):964-71. doi: 10.1016/j.dental.2011.06.002. Epub 2011 Jul 12.
3
Understanding contradictory data in contraction stress tests.理解收缩压力测试中的矛盾数据。
J Dent Res. 2011 Mar;90(3):365-70. doi: 10.1177/0022034510388039. Epub 2010 Nov 22.
4
Effect of shrinkage strain, modulus, and instrument compliance on polymerization shrinkage stress of light-cured composites during the initial curing stage.收缩应变、模量和器械顺应性对光固化复合材料在初始固化阶段聚合收缩应力的影响。
Dent Mater. 2010 Oct;26(10):1024-33. doi: 10.1016/j.dental.2010.07.002. Epub 2010 Aug 3.
5
Multiple correlations of material parameters of light-cured dental composites.光固化牙科复合材料材料参数的多重相关性
Dent Mater. 2009 Jul;25(7):829-36. doi: 10.1016/j.dental.2009.03.011. Epub 2009 Apr 22.
6
Influence of local factors on composite shrinkage stress development--a finite element analysis.局部因素对复合树脂收缩应力发展的影响——有限元分析
J Adhes Dent. 2007 Dec;9(6):499-503.
7
A mathematical analysis of shrinkage stress development in dental composite restorations during resin polymerization.树脂聚合过程中牙科复合修复体收缩应力发展的数学分析
Dent Mater. 2008 Jul;24(7):923-31. doi: 10.1016/j.dental.2007.11.012. Epub 2008 Jan 8.
8
Axial shrinkage-stress depends upon both C-factor and composite mass.轴向收缩应力取决于C因子和复合材料质量。
Dent Mater. 2008 Jan;24(1):1-8. doi: 10.1016/j.dental.2007.08.007. Epub 2007 Oct 24.
9
Influence of instrument compliance and specimen thickness on the polymerization shrinkage stress measurement of light-cured composites.器械顺应性和样本厚度对光固化复合材料聚合收缩应力测量的影响。
Dent Mater. 2007 Sep;23(9):1093-100. doi: 10.1016/j.dental.2006.10.003. Epub 2006 Nov 16.
10
Polymerization shrinkage and contraction stress of dental resin composites.牙科树脂复合材料的聚合收缩和收缩应力。
Dent Mater. 2005 Dec;21(12):1150-7. doi: 10.1016/j.dental.2005.02.004. Epub 2005 Jul 22.

牙科复合材料中收缩应力的发展——一种分析性研究

Shrinkage stress development in dental composites--an analytical treatment.

作者信息

Fok Alex S L

机构信息

Minnesota Dental Research Center for Biomaterials and Biomechanics, School of Dentistry, University of Minnesota, United States.

出版信息

Dent Mater. 2013 Nov;29(11):1108-15. doi: 10.1016/j.dental.2013.08.198. Epub 2013 Sep 9.

DOI:10.1016/j.dental.2013.08.198
PMID:24029101
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3887224/
Abstract

OBJECTIVES

The aim of this paper is to develop a comprehensive mathematical model for shrinkage stress development in dental composites that can account for the combined effect of material properties, specimen geometry and external constraints.

METHODS

A viscoelastic model that includes the composite's elastic, creep and shrinkage strains, and their interaction with the sample's dimensions and the external constraint is developed. The model contains two dimensionless parameters. The first one represents the compliance of the external constraint relative to that of the composite sample, and the second controls the rate of shrinkage stress decay through creep. The resulting differential equation is solved for two special cases: zero compliance and zero creep. Predictions for shrinkage stress measurements are then made using the analytical solutions for instruments with different compliances, samples with different thicknesses and composites with different filler fractions.

RESULTS

The model correctly predicts how shrinkage stress increases with time, its dependence on the interaction between the entire system's compliance and the material properties, and the effect of the filler fraction on its maximum value. Comparisons with reported shrinkage stress measurements have provided very good agreement between theory and experiments.

SIGNIFICANCE

The results provided by the model can help to resolve most, if not all, of the seemingly conflicting experimental observations reported in the literature. They can also provide some useful guidelines for optimizing the mechanical performance of dental composite restorations. The compliance ratio, a new parameter derived from the model, represents a fuller description of the constraints of the system.

摘要

目的

本文旨在建立一个全面的数学模型,用于描述牙科复合材料中收缩应力的发展,该模型能够考虑材料特性、试样几何形状和外部约束的综合影响。

方法

开发了一个粘弹性模型,该模型包括复合材料的弹性应变、蠕变应变和收缩应变,以及它们与样品尺寸和外部约束的相互作用。该模型包含两个无量纲参数。第一个参数表示外部约束相对于复合材料样品的柔度,第二个参数控制通过蠕变引起的收缩应力衰减速率。针对两种特殊情况求解所得的微分方程:零柔度和零蠕变。然后使用针对具有不同柔度的仪器、不同厚度的样品以及不同填料分数的复合材料的解析解,对收缩应力测量进行预测。

结果

该模型正确地预测了收缩应力如何随时间增加,其对整个系统柔度与材料特性之间相互作用的依赖性,以及填料分数对其最大值的影响。与报道的收缩应力测量结果的比较表明理论与实验之间具有很好的一致性。

意义

该模型提供的结果有助于解决文献中报道的大部分(如果不是全部)看似相互矛盾的实验观察结果。它们还可以为优化牙科复合修复体的机械性能提供一些有用的指导。柔度比是从该模型导出的一个新参数,它更全面地描述了系统的约束情况。