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Fatigue and failure of a polymer chain under tension

The rupture of a polymer chain maintained at temperature $T$ under fixed tension is prototypical to a wide array of systems failing under constant external strain and random perturbations. Past research focused on analytic and numerical studies of the mean rate of collapse of such a chain. Surprisingly, an analytic calculation of the probability distribution function (PDF) of collapse rates appears to be lacking. Since rare events of rapid collapse can be important and even catastrophic, we present here a theory of this distribution, with a stress on its tail of fast rates. We show that the tail of the PDF is a power law with a {\em universal} exponent that is theoretically determined. Extensive numerics validate the offered theory. Lessons pertaining to other problems of the same type are drawn.

preprint2020arXivOpen access
Harish CharanAlex HansenH. G. E. HentschelItamar Procaccia
cond-mat.soft
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Open access4 authors1 topic
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Harish CharanAlex HansenH. G. E. HentschelItamar Procaccia

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