Unexpected ductility in semiflexible polymer glasses with Ne = C∞
Abstract
Semiflexible polymer glasses (SPGs), including those formed by the recently synthesized semiflexible conjugated polymers (SCPs), are expected to be brittle because classical formulas for their craze extension ratio λ craze and fracture stretch λ frac predict that systems with Ne = C∞ have λ craze = λ frac = 1 and hence cannot be deformed to large strains. Using molecular dynamics simulations, we show that in fact such glasses can form stable crazes with λ craze Ne1/4 C∞1/4, and that they fracture at λ frac = (3Ne1/2 - 2)1/2 (3C∞1/2 - 2)1/2. We argue that the classical formulas for λ craze and λ frac fail to describe SPGs' mechanical response because they do not account for Kuhn segments' ability to stretch during deformation.
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