Influence of voids in the hybrid layer based on self-etching adhesive systems: a 3-D FE analysis

Influence of voids in the hybrid layer based on self-etching adhesive systems: a 3-D FE analysis

The presence of porosities at the dentin/adhesive interface has been observed with the use of new generation dentin bonding systems. These porosities tend to contradict the concept that etching and hybridization processes occur equally and simultaneously. Therefore, the aim of this study was to eval...

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Bibliographic Details
Published in:Journal of applied oral science Vol. 17 Suppl; no. spe; pp. 19 - 26
Main Authors: Martini, Ana Paula, Anchieta, Rodolfo Bruniera, Rocha, Eduardo Passos, Freitas Junior, Amilcar Chagas, Almeida, Erika Oliveira de, Sundfeld, Renato Herman, Luersen, Marco Antonio
Format: Journal Article
Language:English
Published: Brazil Faculdade De Odontologia De Bauru - USP 2009
University of São Paulo
Subjects:
Academic Conference of the Bauru School of Dentistry “Dr. Waldyr Antonio Janson”
Composite Resins - chemistry
Dental Bonding - methods
Dental Etching
Dental Stress Analysis
Dentin
Dentin - chemistry
Dentin - ultrastructure
Dentin-Bonding Agents - chemistry
Dentistry
DENTISTRY, ORAL SURGERY & MEDICINE
Finite Element Analysis
Humans
Hybrid layer
Materials Testing
Paper Presented at the: 22
Stress, Mechanical
Surface Properties
Tensile Strength
Voids
Voids
Dentin
Finite element analysis
Hybrid layer
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Summary:The presence of porosities at the dentin/adhesive interface has been observed with the use of new generation dentin bonding systems. These porosities tend to contradict the concept that etching and hybridization processes occur equally and simultaneously. Therefore, the aim of this study was to evaluate the micromechanical behavior of the hybrid layer (HL) with voids based on a self-etching adhesive system using 3-D finite element (FE) analysis. Three FE models (Mr) were built: Mr, dentin specimen (41x41x82 μm) with a regular and perfect (i.e. pore-free) HL based on a self-etching adhesive system, restored with composite resin; Mp, similar to M, but containing 25% (v/v) voids in the HL; Mpp, similar to Mr, but containing 50% (v/v) voids in the HL. A tensile load (0.03N) was applied on top of the composite resin. The stress field was obtained by using Ansys Workbench 10.0. The nodes of the base of the specimen were constrained in the x, y and z axes. The maximum principal stress (σmax) was obtained for all structures at the dentin/adhesive interface. The Mpp showed the highest peak of σmax in the HL (32.2 MPa), followed by Mp (30 MPa) and Mr (28.4 MPa). The stress concentration in the peritubular dentin was high in all models (120 MPa). All other structures positioned far from voids showed similar increase of stress. Voids incorporated into the HL raised the σmax in this region by 13.5%. This behavior might be responsible for lower bond strengths of self-etching and single-bottle adhesives, as reported in the literature.
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ISSN:1678-7757
1678-7765
1678-7765
1678-7757
DOI:10.1590/S1678-77572009000700005