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Paper detail

Hierarchical Jamming in Frictional Particle Assemblies

The postulate of the existence of a jamming phase diagram (Liu and Nagel, Nature 396, 21 EP (1998aa)) provides a theoretical basis for the classification of a wide range of amorphous solids (colloidal, molecular and emulsion glasses, colloidal and polymer gels, foams and granular matter) on the basis of whether these materials are in the jammed or unjammed state. Whilst such simple classification is appealing, it fails to capture that the criterion of rigidity of such amorphous solids may be defined with respect to a particular deformation orientation or mode (i.e. shear, extrusion, consolidation). We consider this problem via the consolidation of strong colloidal gels, and find that the critical transitions during the consolidation of a strong colloidal gel (as indicated by maxima and minima in the relative normal stress difference) correspond directly to directed, frictional and non-frictional rigidity percolation. These results indicate a hierarchy of directed, jammed states during consolidation of such amorphous solids, and a direct link between particle-scale interactions and macroscopic collective behaviour of these systems driven far from equilibrium

preprint2020arXivOpen access
Ruru LiDaniel Lester
cond-mat.soft
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Ruru LiDaniel Lester

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