V. Compan et al., DETERMINATION OF THE GLASS-TRANSITION TEMPERATURE OF POLY(CYCLOHEXYL ACRYLATE) FROM OXYGEN PERMEABILITY MEASUREMENTS, Polymer, 34(14), 1993, pp. 2971-2974
The glass transition temperature (T(g)) of poly(cyclohexyl acrylate) (
PCA) has been obtained from measurements of the oxygen permeability (P
=0.60 barrers, T(g)=23.5+/-2.0-degrees-C) using a potentiostatic elect
rochemical sensor, and from the oxygen diffusion coefficient (D=0.12 x
10(-8) cm2 s-1, T(g)=24.0+/-1.8-degrees-C) by the time-lag method. A
T(g) of 25+/-1-degrees-C was found by differential scanning calorimetr
y and a T(g) of 25.0+/-3.5-degrees-C was obtained from the specific vo
lume by dilatometry. The fractional free volume (v(f)) at T(g) is 0.02
0+/-0.002, which is slightly below (approximately 20%) most glassy pol
ymers. A linear correlation has been observed between In D and the rec
iprocal of v(f), which suggests that the polymer morphology is not inf
luenced by the presence of oxygen. The diffusion coefficient of oxygen
through PCA membranes follows Arrhenius behaviour and has an activati
on energy of 26+/-2 kcal mol-1, a surprisingly high value considering
that the range of activation energies observed in most systems is 1-20
kcal mol-1.