Weak non-linearities of amorphous polymer under creep in the vicinity of the glass transition

Abstract

The creep behavior of an amorphous poly(etherimide) (PEI) polymer is investigated in the vicinity of its glass transition in a weakly non linear regime where the acceleration of the creep response is driven by local configurational rearrangements. From the time shifts of the creep compliance curves under stresses from 1 to 15~ and in the temperature range between Tg -10K and Tg, where Tg is the glass transition, we determine a macroscopic acceleration factor. The macroscopic acceleration is shown to vary as e-(/Y)n with n=2 0.2, where is the macroscopic stress and Y is a decreasing function of compliance. Because at the beginning of creep, the stress is homogeneous, the macroscopic acceleration is thus similar to the local one, in agreement with the recent theory of Long et al. (Phys. Rev. Mat. (2018) 2, 105601 ) which predicts n=2. For larger compliances, the decrease of the of Y is interpreted as a signature of the development of stress disorder during creep.

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