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Home page > Séminaires > Séminaires 2019 > Séminaire MSC. 27 mai 2019. Laurence Ramos (Laboratoire Coulomb, Université Montpellier) : "Microscopic dynamics and failure precursors during the creep of colloidal and biopolymer gels".

Séminaire MSC. 27 mai 2019. Laurence Ramos (Laboratoire Coulomb, Université Montpellier) : "Microscopic dynamics and failure precursors during the creep of colloidal and biopolymer gels"

Sauf mention contraire, les séminaires et les soutenances se déroulent à 11h30 en salle 454A du bâtiment Condorcet.


Microscopic dynamics and failure precursors during the creep of colloidal and biopolymer gels.

Laurence Ramos, directrice de recherche au laboratoire Charles Coulomb à l’université de Montpellier.

Material failure is widespread and occurs on vastly different length scales, from earthquakes to the atomic level. It often involves sudden and unpredictable events, with little or no macroscopically detectable precursors. A better understanding of the mechanisms leading to failure is however highly desirable and would have deep implications, possibly paving the way to predicting failure. We will present experiments probing failure precursors in two types of gel : colloidal and biopolymer gels. Colloidal gels can be regarded as model network forming materials, are brittle and exhibit a power law linear viscoelasticity, whereas biopolymer gels are more complex, show strain-hardening and develop negative normal stresses under shear. We use original set-ups that simultaneously probe the macroscopic rheological response and the microscopic structure and dynamics of a gel submitted to a constant shear stress. We demonstrate the crucial role of normal stresses and sample history in the fate of a biopolymer under stress. We finally show that the failure is systematically preceded by qualitative and quantitative change of the dynamics, from reversible particle displacement to a burst of irreversible plastic rearrangements with a complex spatial evolution in the sample. Those plastic events are failure precursors of the materials and may be regarded as a novel tool to understand the sudden failure of solids.


Contact : Équipe séminaires / Seminar team - Published on / Publié le 14 mars


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