Article Dans Une Revue Physical Review Letters Année : 2025

Particle Scale Anisotropy Controls Bulk Properties in Sheared Granular Materials

Résumé

The bulk dynamics of dense granular materials arise through a combination of particle-scale and mesoscale effects. Theoretical and numerical studies have shown that collective effects are created by particle-scale anisotropic structures such as grain connectivity, force transmission, and frictional mobilization, all of which influence bulk properties like bulk friction and the stress tensor through the stress-force-fabric (SFF) relationship. To date, establishing the relevance of these effects to laboratory systems has remained elusive due to the challenge of measuring both normal and frictional contact forces at the particle scale. In this study, we perform experiments on a sheared photoelastic granular system in a quasi-2D annular cell. During these experiments, we measure particle locations, contacts, and normal and frictional forces vectors during loading. We reconstruct the angular distributions of the contact and force vectors, and extract the corresponding emergent anisotropies for each of these metrics. Finally, we show for the first time in an experimental system that the SFF relation quantitatively predicts the relationship between particle scale anisotropies, the stress tensor components, and the bulk friction coefficient, capturing even transient behaviors—closing the gap between experimental measurements and prior theoretical and numerical models.

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Est complété par hal-05237212 Article Carmen Lee, Ephraim Bililign, Emilien Azéma, Karen Daniels. Loading-dependent microscale measures control bulk properties in granular material: An experimental test of the stress-force-fabric relation. Physical Review E , 2025, 112 (3), pp.035401. ⟨10.1103/rv25-lqdc⟩. ⟨hal-05237212⟩

DOI

Cite 10.5061/dryad.m905qfvds Jeu de données Lee, C., Bililign, E., Azema, E., & Daniels, K. (2025). Particle scale anisotropy controls bulk properties in sheared granular materials (Version 3) [Data set]. Dryad. https://doi.org/10.5061/DRYAD.M905QFVDS

Dates et versions

hal-05237236 , version 1 (03-09-2025)

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Carmen Lee, Ephraim Bililign, Emilien Azéma, Karen Daniels. Particle Scale Anisotropy Controls Bulk Properties in Sheared Granular Materials. Physical Review Letters, 2025, 135 (10), pp.108201. ⟨10.1103/gp8t-v82n⟩. ⟨hal-05237236⟩
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