Data di Pubblicazione:
2009
Abstract:
The dynamic and the apparent specific heats of 5-methyl-2-hexanol were measured in its
vitrification temperature range during its cooling and then heating at the same and exceptionally
slow rates of 12 K/h and 60 K/h. The relaxation time determined from dynamic measurements is 48
s at 149.8 K. The relaxation time estimated from the onset of the apparent Cp-endotherm measured
on heating is found to be inconsistent with that determined from dynamic Cp measurements. The
fitting of a nonexponential nonlinear relaxation model to the Cp,app data shows that varies slightly
with the heating rate, and this is attributed to contributions to temperature-dependent energy from
change in the hydrogen-bond population. The unrelaxed Cp of the ultraviscous liquid is closer to that
of its glassy state, thus showing that the vibrational part of Cp does not increase in a sigmoid-shape
manner when the glass structure kinetically unfreezes on heating. The results have implications for
use of calorimetry in inferring the dielectric relaxation mechanism.
vitrification temperature range during its cooling and then heating at the same and exceptionally
slow rates of 12 K/h and 60 K/h. The relaxation time determined from dynamic measurements is 48
s at 149.8 K. The relaxation time estimated from the onset of the apparent Cp-endotherm measured
on heating is found to be inconsistent with that determined from dynamic Cp measurements. The
fitting of a nonexponential nonlinear relaxation model to the Cp,app data shows that varies slightly
with the heating rate, and this is attributed to contributions to temperature-dependent energy from
change in the hydrogen-bond population. The unrelaxed Cp of the ultraviscous liquid is closer to that
of its glassy state, thus showing that the vibrational part of Cp does not increase in a sigmoid-shape
manner when the glass structure kinetically unfreezes on heating. The results have implications for
use of calorimetry in inferring the dielectric relaxation mechanism.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
NARAYANASWAMY-MOYNIHAN MODEL; TEMPERATURE-MODULATED DSC; SUPERCOOLED LIQUID; GLASS-TRANSITION; STRUCTURAL RELAXATION
Elenco autori:
Ferrari, Carlo; Salvetti, Giuseppe; Tombari, Elpidio
Link alla scheda completa:
Pubblicato in: