The Journal of Adhesive Dentistry



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J Adhes Dent 15 (2013), No. 4     7. Aug. 2013
J Adhes Dent 15 (2013), No. 4  (07.08.2013)

Page 341-350, doi:10.3290/j.jad.a29012, PubMed:23560252

Polymerization Shrinkage Stresses in a Premolar Restored with Different Composite Resins and Different Incremental Techniques
Soares, Carlos José / Bicalho, Aline Aredes / Tantbirojn, Daranee / Versluis, Antheunis
Purpose: To investigate how the incremental filling technique, elastic modulus, and post-gel shrinkage of different dental composite resins affect residual shrinkage stress in a restored premolar.
Materials and Methods: Sixteen composites indicated for restoring posterior teeth were tested. Elastic modulus and Knoop hardness were measured using Knoop indentation tests (n = 10). A strain gauge test was used to measure the post-gel shrinkage (n = 10). Two incremental techniques, horizontal or oblique, were applied in a finite element model of a premolar in combination with the experimentally determined properties to assess the stress conditions along the interface of the restoration and within the material structures. Linear regressions were determined between residual shrinkage stress and the elastic modulus and post-gel shrinkage values.
Results: The mechanical properties and the post-gel shrinkage varied significantly among the composites tested. The calculated shrinkage stress showed a strong correlation with post-gel shrinkage and a weaker correlation with elastic modulus. The oblique incremental filling technique resulted in lower residual shrinkage stress in the enamel and dentin and along the enamel/composite interface compared to the horizontal technique.
Conclusion: Residual stress varied significantly among the contemporary dental composites indicated for restoring posterior teeth. Shrinkage stress in a restored tooth correlated with post-gel shrinkage. In general, oblique incremental filling resulted in lower residual stresses than did horizontal increments.

Keywords: contraction, elastic modulus, filling technique, Knoop hardness, residual stress, resin composite
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