Sharp symmetry-change marks the mechanical failure transition of glasses.

Sci Rep

Institute of Physics, University of Amsterdam, P.O. box 94485, 1090 GL Amsterdam, The Netherlands.

Published: September 2015

Glasses acquire their solid-like properties by cooling from the supercooled liquid via a continuous transition known as the glass transition. Recent research on soft glasses indicates that besides temperature, another route to liquify glasses is by application of stress that drives relaxation and flow. Here, we show that unlike the continuous glass transition, the failure of glasses to applied stress occurs by a sharp symmetry change that reminds of first-order equilibrium transitions. Using simultaneous x-ray scattering during the oscillatory rheology of a colloidal glass, we identify a sharp symmetry change from anisotropic solid to isotropic liquid structure at the crossing of the storage and loss moduli. Concomitantly, intensity fluctuations sharply acquire Gaussian distributions characteristic of liquids. Our observations and theoretical framework identify mechanical failure as a sharp atomic affine-to-nonaffine transition, providing a new conceptual paradigm of the oscillatory yielding of this technologically important class of materials, and offering new perspectives on the glass transition.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4585902PMC
http://dx.doi.org/10.1038/srep14359DOI Listing

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