Resumen
We present calculation results of the temperature interval dTg characterizing the liquid?glass transition in amorphous materials obtained on the basis of available data of the empirical parameters C1 and C2 in the Williams?Landel?Ferry (WLF) viscosity equation. We consider the unambiguous dependence of the relative transition temperature interval dTg/Tg on the fraction of the fluctuation volume fg frozen at the glass transition temperature Tg utilizing Sanditov?s model of delocalized atoms. The parameter f = ?Ve/V, which determines the molecular mobility characteristic of delocalized atoms in the liquid?glass transition region, is weakly dependent on the nature of most vitreous substances and can be found as fg = 1/C1. We show that the temperature interval dTg is less than 1% of the Tg for most amorphous substances. This result conforms with Simon?s classical idea of a small temperature range in which the structure freezes. The structural relaxation time tg at Tg of polymers and chalcogenide glasses is also calculated.