Flexural fatigue behavior of resin composite dental restoratives

Antagonistic contact on a dental restoration may produce surface and subsurface stresses leading to fatigue wear as well as to bulk stressing, eventually causing catastrophic failure. It was the aim of the present work to study the outcome of two different approaches to fatigue testing of materials

## Abstract Theoretically, nano‐structured dental resin composites are purported to have increased wear and fatigue resistance compared with microfill composites and may favor the achievement of restoratives with better long‐term performance. This study sought to assess the behavior of nano‐structu

The flexural fatigue test equipment developed was used to study the fatigue behavior of dental restorative composites, using a "staircase" approach. Three commercial composites were tested after dry and wet storage conditions. The findings indicate that the method is accurate and reliable, and that

## Abstract The purpose of this study was to determine the flexural strength and flexural fatigue strength of a machinable composite (GN‐I) and three hybrid composites (Artglass, Estenia, and Gradia). Specimens (2 × 2 × 25 mm) were polymerized in a laboratory photo‐curing unit and then immersed in