Initial fracture resistance and curing temperature rise of ten contemporary resin-based composites with increasing radiant exposure

A Shortall, W El-Mahy, D Stewardson, O Addison, W Palin

Research output: Contribution to journalArticlepeer-review

41 Citations (Scopus)

Abstract

OBJECTIVES: The principal objective of this study was to determine whether the bulk fracture resistance of ten light activated composites varied over a clinically realistic range of radiant exposures between 5 and 40 J/cm(2).

METHODS: Ten operators were tested for clinically simulated radiant exposure delivery from a Bluephase(®) (Ivoclar Vivadent, Schaan, Liechtenstein) LED light to an occlusal cavity floor in tooth 27 in a mannequin head using a MARC(®)-Patient Simulator (Bluelight Analytics Inc., Halifax, NS) device. Notch disc test samples were prepared to determine the torque resistance to fracture (T) of the composites. Samples were irradiated with the same monowave Bluephase(®) light for 10s, 20s or 40s at distances of 0mm or 7 mm. After 24h, storage samples were fractured in a universal testing machine and torque to failure was derived.

RESULTS: Radiant exposure delivered in the clinical simulation ranged from 14.3% to 69.4% of maximum mean radiant exposure deliverable at 0mm in a MARC(®)-Resin Calibrator (Bluelight Analytics Inc., Halifax, NS) test device. Mean torque to failure increased significantly (P<0.05) with radiant exposure for 8 out of 10 products. The micro-fine hybrid composite Gradia Direct anterior (GC) had the lowest mean (S.D.) T between 10.3 (1.8)N/mm and 13.7 (2.2)N/mm over the tested radiant exposure range. Three heavily filled materials Majesty Posterior, Clearfil APX and Clearfil Photo-Posterior (Kuraray) had mean T values in excess of 25 N/mm following 40 J/cm(2) radiant exposure. Mean T for Z100 (3MESPE) and Esthet-X (Dentsply) increased by 10% and 91% respectively over the tested range of radiant exposures.

CONCLUSIONS: Individual products require different levels of radiant exposure to optimize their fracture resistance. Light activated composites vary in the rate at which they attain optimal fracture resistance.

CLINICAL SIGNIFICANCE: Unless the clinician accurately controls all the variables associated with energy delivery, there is no way of predicting that acceptable fracture resistance will be achieved intra-orally.

Original languageEnglish
Pages (from-to)455-63
Number of pages9
JournalJournal of Dentistry
Volume41
Issue number5
DOIs
Publication statusPublished - May 2013

Bibliographical note

Copyright © 2013 Elsevier Ltd. All rights reserved.

Keywords

  • Composite Resins
  • Curing Lights, Dental
  • Dental Materials
  • Dental Stress Analysis
  • Humans
  • Light-Curing of Dental Adhesives
  • Materials Testing
  • Methacrylates
  • Radiation Dosage
  • Silicon Dioxide
  • Stress, Mechanical
  • Surface Properties
  • Temperature
  • Tensile Strength
  • Time Factors
  • Torque
  • Zirconium

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