Class I and Class II restorations of resin composite: An FE analysis of the influence of modulus of elasticity on stresses generated by occlusal loading

Abstract Objectives It was the aim of the study to analyze by the FE method stresses generated in tooth and restoration by occlusal loading of Class I and Class II restorations of resin composite. On the basis of available information on the influence of the modulus of elasticity, the research hypot...

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Bibliographic Details
Published in:Dental materials 2008-05, Vol.24 (5), p.600-605
Main Authors: Asmussen, Erik, Peutzfeldt, Anne
Format: Article
Language:English
Subjects:
Advanced Basic Science
Bite Force
Composite Resins - chemistry
Computer Simulation
Dental Bonding
Dental Enamel - physiology
Dental Enamel - ultrastructure
Dental Materials - chemistry
Dental Restoration, Permanent - classification
Dental restorative material
Dentin - physiology
Dentin - ultrastructure
Dentistry
Elasticity
Finite Element Analysis
Finite element method
Humans
Marginal breakdown
Materials Testing
Mechanical properties
Models, Biological
Stress, Mechanical
Surface Properties
von Mises stress
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Summary:Abstract Objectives It was the aim of the study to analyze by the FE method stresses generated in tooth and restoration by occlusal loading of Class I and Class II restorations of resin composite. On the basis of available information on the influence of the modulus of elasticity, the research hypothesis was that the marginal stresses would decrease with increasing modulus of elasticity of the restoration. Methods A cylindrical tooth was modelled in enamel and dentin and fitted with a Class I or a Class II restoration of resin composite. In one scenario the restoration was bonded to the tooth, in another the restoration was left nonbonded. The resin composite was modelled with a modulus of elasticity of 5, 10, 15 or 20 GPa and loaded occlusally with 100 N. By means of the soft-ware program ABAQUS the von Mises stresses in enamel and dentin were calculated. Results In the bonded scenario, the maximum stresses in the enamel were located at the occlusal margins (range 7–11 MPa), and in the dentin centrally at the pulpal floor (range 3.4–5.5 MPa). The stresses decreased with increasing modulus of elasticity of the resin composite. In the nonbonded scenario, the stresses were higher in the dentin and lower in the enamel than in the bonded cases, and the influence of the modulus of elasticity was less pronounced. The marginal stresses in the restoration were below 6 MPa in the bonded scenario and below 3 MPa in the nonbonded scenario. Significance Occlusal restorations of resin composite should have a high modulus of elasticity in order to reduce the risk of marginal deterioration.
ISSN:0109-5641
1879-0097
DOI:10.1016/j.dental.2007.06.019