The Effect of Environmental Aging on the Fracture Toughness of Dental Composites

Abstract

The effect of aging four commercially-available dental composites in water or ethanol at 37°C for periods of up to 28 days was assessed by measuring changes in the materials' plane-strain fracture toughness (K_IC) . The results, obtained by means of a mini Short Rod Fracture Toughness Test specimen design, suggest that while water aging does not produce significant changes in K_IC, aging in ethanol does cause significant increases in fracture toughness for three of the four dental composites studied. In view of previously-reported loss of wear resistance for dental composites aged in ethanol solutions, the present study emphasizes the difficulties in using fracture toughness to predict wear properties.