Effect of resin-composite filler particle size and shape on shrinkage-stress

Abstract

ObjectivesThe aim of this study was to investigate the effect of variations in filler particle size and shape on the polymerization shrinkage-stress kinetics of resin-composites. MethodsA model series of 12 VLC resin-composites were studied. The particulate dispersed phase volume fraction was 56.7%: these filler particles were systematically graded in size, and further were either spherical or irregular. A Bioman instrument (cantilever beam method) was employed to determine the shrinkage-stress kinetics following 40s irradiation (600mW/cm2) at 23°C (n=3). All data were captured for 60min and the final shrinkage-stress calculated. ResultsShrinkage-stress varied between 3.86MPa (SD 0.14) for S3 (spherical filler particles of 500nm) and 8.44MPa (SD 0.41) for I1 (irregular filler particles of 450nm). The shrinkage-stress values were generally lower for those composites with spherical filler particles than those with irregular filler particles. The differences in shrinkage-stress with filler particle size and shape were statistically significant (p<0.001). SignificanceComposites with spherical filler particles exhibit lower shrinkage-stress values compared to those with irregular filler particles. Shrinkage-stress and shrinkage-stress rate vary in a complex manner with variations in the size of the dispersed phase particles: a hypothesized explanation for the effect of filler particle size and shape is presented.