Effects of halogen light irradiation variables (tip diameter, irradiance, irradiation protocol) on flexural strength properties of resin-based composites

Abstract 

Objective

Investigation of halogen light irradiation variables (tip diameter, irradiance, irradiation protocol) on flexural strength and modulus of four methacrylate resin-based composites (RBCs).

Methods

Rectangular bar-shaped specimens (25mm×2mm×2mm; n=20 per group) of four RBCs were irradiated at varying irradiances (640 and 790mW/cm²; standard and boosted mode) with different tip diameters (8, 11, 13 and 25mm) and for the 8mm Turbo light tip diameter at irradiances of 880 and 1040mW/cm² (standard and boosted mode). Following irradiation the specimens were stored in a light-proof container for 24h at 37±1°C and tested in three-point flexure. One-way analyses of variance were made at P=0.05, guided as necessary by Tukey's correction in multiple partial analyses, in addition to a Weibull analysis.

Results

The mean three-point flexure strengths, Weibull moduli and flexure moduli of the four RBC materials, irradiated with varying irradiances, tip diameters and irradiation protocols highlighted no significant differences although the values were material specific. Similarly the 8mm conventional and Turbo tip diameter resulted in no significant differences for varying irradiances and irradiation protocols.

Conclusion

Within the limitations of the experiment halogen tip diameter, irradiance and irradiation protocol have no influence on three-point flexural strength and modulus data. The efficacy of the overlapping irradiation regime was upheld for the conditions tested.

Keywords: Halogen light curing unit tip diameter, Irradiance, Flexure properties, Resin-based composites, Overlapping irradiation protocol