The mechanical properties of Poly ethylene terephthalate (PET) were studied
over several decades of strain rate and a temperature range of 263 K-453 K
. Tests were carried out in the range 10(-3)-10(4) s(-1) using a convention
al Hounsfield machine and two high strain rate test systems. Strain limited
tests were carried out at all the strain rates and the temperature rises w
ere estimated from the area under the stress strain curves. X-ray diffracti
on was used to extract interatomic plane distances and crystallite dimensio
ns. Differential Scanning Calorimetry (DSC) was employed to estimate the de
gree of crystallinity of the material and the kinetics of crystallisation.
PET yield stress increased with strain rate with a sharp increase at rates
of 10(3) s(-1) and above. It crystallised into the triclinic form at rates
above 10(3) s(-1) beyond 140% strain but crystallisation was not observed a
t lower strain rates. Increases of up to 40% in crystallinity content were
found which, it is concluded, were thermally induced after the test ended.
The results shed tight on the development of crystallinity in PET as a func
tion of strain, strain rate and temperature and indicate that the rapid inc
rease in yield and flow stresses previously reported cannot be accounted fo
r by increases in crystallinity. (C) 2000 Kluwer Academic Publishers.