Analysis of flexural strength of composite resins polymerized by 2nd and 3rd generation leds

Abstract

Objective: This study aimed to investigate the mechanical properties of three composite resins using 2^nd and 3^rd generation LED-based light-curing devices. Material and Methods: Sixty specimens distributed according to the type of resin(Group Z350 - nanoparticle composite resin [Filtek Z350 / 3M ESPE]; Group AP - microhybrid composite Amelogen Plus/Ultradent; Group DF - Group composite resin Durafil l/Heraeus Kulzer), and the light-curing device(Group 2^ndG - 2nd generation LED-based curing unit at power density of 500 mW / cm²; Group 3^rdG - 3^rd generation LED-based curing unit at power density of 1100 MW/cm²).The specimens were stored in a dark, dry container at 37 °C in an incubator for 24 h and submitted to the mini-flexural test on universal test machine (EMIC) to determine the elastic modulus and flexural strength using a three-point test.The data were submitted to two-way ANOVA (Resin Composite X LED) and Tukey test (5%).Results: Concerning to flexural strength (in MPa), ANOVA showed significant in Tukey test for the interaction between the factors: Group Z350/3^rdG - 105.36a; Group AP/3^rdG – 81.49ab; Group DF/3^rdG – 66.43bc; Group AP/2^ndG – 66.13bc; Group DF/2^ndG: 60.61bc; Group Z350/2^ndG: 47,19c. With regard to the modulus of elasticity (in GPa), the results obtained were: Factor resin composite - Group Z350 (8.85a) > Group AP (7.61b) > Group DF (1.94c); Factor LED - Group 3^rdG (7.13a) > Group 2^ndG (5.14b). Conclusion:It was concluded that the 3rd generation LED (1100 mw/cm²) significant increased the means of the flexural properties of composites. It was also concluded that the result of flexural properties of compositesdepends on the resin material tested.

Keywords: Composite resin; Flexural strength; Modulus of elasticity.