Contact networks and force transmission in aggregates of hexapod-shaped particles - Archive ouverte HAL
Article Dans Une Revue Soft Matter Année : 2024

Contact networks and force transmission in aggregates of hexapod-shaped particles

Résumé

Hexapods, consisting of three mutually orthogonal arms, have been utilized as a representative nonconvex shape to demonstrate the impact of interlocking on the strength properties of granular materials. Nevertheless, the microstructural characteristics of hexapod packings, which underlie their strength, have remained insufficiently characterized. We use particle dynamics simulations to build isotropically-packed aggregates of hexapods and we analyze the effects of aspect ratio and interparticle friction on the microstructure and force transmission. We find that the packing fraction is an unmonotonic function of aspect ratio due to competition between steric exclusions and interlocking. Interestingly, the contact coordination number declines considerably with friction coefficient, showing the stronger effect of friction on the stability of hexapod packings as compared with sphere packings. The pair distribution functions show that local ordering due to steric exclusions disappears beyond the aspect ratio 3 and the hexapods touch their second neighbors. Remarkably, hexapods of aspect ratio 3 tend to align with their neighbors and form locally ordered structures, implying a contact coordination number which is highly sensitive to the confining pressure. We also show that the probability density function of forces between hexapods is similar to that of sphere packings but with broadening exponential fall-off of strong forces as aspect ratio increases. Finally, the elastic bulk modulus of the aggregates is found to increase considerably with aspect ratio as a consequence of the rapid increase of contact density and the number of contacts with second neighbors.
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hal-04563734 , version 1 (30-04-2024)

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Trieu-Duy Tran, Saeid Nezamabadi, Jean-Philippe Bayle, Lhassan Amarsid, Farhang Radjai. Contact networks and force transmission in aggregates of hexapod-shaped particles. Soft Matter, 2024, 20 (16), pp.3411-3424. ⟨10.1039/D3SM01762A⟩. ⟨hal-04563734⟩
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