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Bridging steady-state and stick-slip fracture propagation in glassy polymers

Abstract : Both an experimental and a theoretical investigation of the fracture propagation mechanisms acting at the process zone scale in glassy polymers are presented. The main aim is to establish a common modeling for different kinds of glassy polymers presenting either steady-state fracture propagation or stick-slip fracture propagation or both, depending on loading conditions and sample shape. On the experimental point of view, new insights are provided by in-situ AFM measurements of the viscoplastic strain fields acting within the micrometric process zone in a brittle epoxy resin, which highlight an extremely slow unexpected steadystate regime with finite plastic strains of about 30% around a blunt crack tip, and accompanied by propagating shear lips. On the theoretical point of view, we apply to glassy polymers some recently developed models for describing soft dissipative fracture that are pertinent with the observed finite strains. We propose a unified modeling of the fracture energy for both the steady-state and stick-slip fracture propagation based on the evaluation of the energy dissipation density at a characteristic strain rate induced in the process zone by the competition between the crack propagation velocity and the macroscopic sample loading rate.
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https://hal.archives-ouvertes.fr/hal-03475907
Contributor : Bruno Bresson Connect in order to contact the contributor
Submitted on : Saturday, December 11, 2021 - 5:30:13 PM
Last modification on : Sunday, June 26, 2022 - 3:24:46 AM
Long-term archiving on: : Saturday, March 12, 2022 - 6:23:33 PM

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yannick Nziakou, Matthieu George, Guillaume Fischer, Bruno Bresson, Mathilde Tiennot, et al.. Bridging steady-state and stick-slip fracture propagation in glassy polymers. Soft Matter, Royal Society of Chemistry, 2021, ⟨10.1039/D1SM01450A⟩. ⟨hal-03475907⟩

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