Pa. Oconnell et Gb. Mckenna, LARGE-DEFORMATION RESPONSE OF POLYCARBONATE - TIME-TEMPERATURE, TIME-AGING TIME, AND TIME-STRAIN SUPERPOSITION, Polymer engineering and science, 37(9), 1997, pp. 1485-1495
Data are presented from tests of the stress relaxation response of a p
olycarbonate under torsional deformations. Tests were performed on sam
ples over a range of strains from 0.0025 to 0.08, temperatures from 30
to 135 degrees C and aging times from 1800 to 64,800 s. Individual da
ta sets at each strain, temperature and aging time could be described
using a stretched exponential form relaxation function, and time-aging
time superposition was found to be applicable to the data under all t
est conditions. The double logarithmic aging time shift rate, mu, was
found to vary significantly with both temperature and strain. Over the
range of temperatures studied the data could be superimposed using co
nventional time-temperature superposition. However, the master curve w
as found not to be described by a stretched exponential Function. For
strains up to 0.07, the data at each temperature could also be superim
posed to form a master curve following the principle of time-strain su
perposition. Interestingly, the master curves found from time-strain a
nd time-temperature superposition did not have the same form. In both
the time-aging time and time-temperature superposition analyses it was
found that the application of vertical shifts was required for superp
osition of data.