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Abstract
Creep crack propagation in high-density polyethylene (HDPE) is observed to occur with an accompanying layer of damage ahead of the crack tip. The crack layer theory, which accounts for the presence of both the damage and the main crack, is applied to the problem. It is observed that the kinetic behavior of HDPE under creep consists of three regions: initial acceleration, constant crack speed, and reac-celeration to failure. Within the first two regions crack propagation appears “brittle,” while in the third region “ductile” behavior is manifested. Ultimate failure occurs via massive yielding of the unbroken ligament. The notion of critical crack length, well defined in many polymers, is shown