Attractive colloids display two distinct amorphous solid phases: the attractive glass due to particle bonding and the repulsive glass due to the hard-core repulsion. By means of a microscopic mean field approach, we analyze their response to a quasistatic shear strain. We find that the presence of two distinct interaction length scales may result in a sharp two-step yielding process, which can be associated with a hysteretic stress response or with a reversible but nonmonotonic stress-strain curve. We derive a generic phase diagram characterized by two distinct yielding lines, an inverse yielding and a critical point separating the hysteretic and reversible regimes. Our results should be applicable to a large class of glassy materials characterized by two distinct interaction length scales.
Microscopic theory of two-step yielding in attractive colloids / Altieri, Ada; Urbani, Pierfrancesco; Zamponi, Francesco. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 121:18(2018), p. 185503. [10.1103/PhysRevLett.121.185503]
Microscopic theory of two-step yielding in attractive colloids
Altieri, AdaPrimo
;Urbani, Pierfrancesco;Zamponi, Francesco
2018
Abstract
Attractive colloids display two distinct amorphous solid phases: the attractive glass due to particle bonding and the repulsive glass due to the hard-core repulsion. By means of a microscopic mean field approach, we analyze their response to a quasistatic shear strain. We find that the presence of two distinct interaction length scales may result in a sharp two-step yielding process, which can be associated with a hysteretic stress response or with a reversible but nonmonotonic stress-strain curve. We derive a generic phase diagram characterized by two distinct yielding lines, an inverse yielding and a critical point separating the hysteretic and reversible regimes. Our results should be applicable to a large class of glassy materials characterized by two distinct interaction length scales.| File | Dimensione | Formato | |
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