Glass transition temperatures of dental porcelains at high heating rates

Abstract

The glass transition temperature (T_g) of a dental porcelain is a factor in determining the magnitude of residual stresses introduced in a dental porcelain during cooling of a porcelain-fused-to-metal prosthesis. T_g is known to vary with changes in heating or cooling rate. However, available commercial instrumentation does not permit T_g to be obtained at the very high cooling rates commensurate with actual dental laboratory practice. T_g values are reported here for a number of commercial dental porcelains and other materials. These data were obtained by the bending beam technique, employing a special low thermal-mass furnace to permit rapid heating and cooling rates. Measurements were made at rates as high as 600°C/min. Coefficients of determination (r²) for 1/T_g vs. In (heating rate) were excellent. This relation is consistent with previously reported low rate T_g data obtained by a different technique.