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CPP: Fachverband Chemische Physik und Polymerphysik
CPP 21: Glasses and Glass Transition 2 (joint session DY/CPP)
CPP 21.1: Talk
Wednesday, March 24, 2021, 11:00–11:20, DYc
Residual stress distributions and mechanical noise in athermally deformed amorphous solids — •Céline Ruscher1,2, Daniel Korchinski2, and Joerg Rottler2 — 1Institut Charles Sadron, Strasbourg, France — 2Department of Physics and Astronomy and Stewart Blusson Quantum Matter Institute, University of British Columbia, Vancouver, Canada
Amorphous solids are yield stress materials whose flow consists of periods of elastic loading interrupted by rapid stress drops, or avalanches, coming from microscopic rearrangements known as shear transformations (STs). From the microscopic point of view, the density of STs, or density of local residual stresses, P(x), governs the statistical properties of global collective failure events at the yielding transition.
Using atomistic simulations, we reveal the evolution of P(x) upon deformation. A pseudogap form P(x) ∼ xθ is observed in the freshly quenched state and in the early stages of deformation. After a few percent strain, however, P(x) starts to develop a system size dependent plateau in the small x limit. To explain the origin of the plateau we consider a mesoscopic elastoplastic approach. Our results show how the spatial extent of avalanches in the stationary regime has a profound effect on the distribution of local residual stresses x. While the entrance into the plateau is set by the lower cutoff of the mechanical noise produced by individual STs, the departure from the usually assumed power-law pseudogap form comes from stress fluctuations induced by collective avalanches.