Mechanisms of fatigue fracture in injection-molded sheets of polypropylene
under cyclic tension have been investigated. Under low stress amplitude E'
and tan delta were maintained almost constant during the fatigue process. J
ust before fracture, E' and tan delta drastically decreased and increased,
respectively. In this specimen crazing was observed. Crazing was suggested
to increase the fatigue lifetime and to cause brittle fracture. At a higher
temperature even under low stress amplitude E' and tan delta monotonously
decreased and increased, respectively, until fracture. The specimen showed
thermal failure promoted by high ambient temperature, and as a result the l
ifetime decreased. In both the intermediate and outer core layers of this s
pecimen the crystallinity homogeneously increased. Under high stress amplit
ude crazing was rather suppressed, and shear flow preferentially took place
to lead the specimen to ductile fracture. In this case the lifetime decrea
sed. In the core layer of this specimen the molecular orientation was enhan
ced, which was suggested to induce the crystallization.