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5 results on '"Nagy, Dániel B."'

1. Flow and rheology of frictional elongated grains

Author

Nagy, Dániel B., Claudin, Philippe, Börzsönyi, Tamás, and Somfai, Ellák

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

The rheology of a 3-dimensional granular system consisting of frictional elongated particles was investigated by means of discrete element model (DEM) calculations. A homogenous shear flow of frictional spherocyliders was simulated, and a number of rheological quantities were calculated. In the framework of the $\mu(I)$ rheology, the effective friction was found to be a non-monotonic function of the aspect ratio for interparticle friction coefficient $\mu_p \lesssim 0.4$, while it was an increasing function for larger $\mu_p$. We reveal the microscopic origin of this peculiar non-monotonic behavior. We show the non-trivial dependence of the velocity fluctuations on the dissipation regime, and trace back the behavior of the normal stress differences to particle-level quantities., Comment: 13 pages + 3 pages supplementary material

Published
2020
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2. Rheology of dense granular flows for elongated particles

Author

Nagy, Dániel B., Claudin, Philippe, Börzsönyi, Tamás, and Somfai, Ellák

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We study the rheology of dense granular flows for frictionless spherocylinders by means of 3D numerical simulations. As in the case of spherical particles, the effective friction $\mu$ is an increasing function of the inertial number $I$, and we systematically investigate the dependence of $\mu$ on the particle aspect ratio $Q$, as well as that of the normal stress differences, the volume fraction and the coordination number. We show in particular that the quasi-static friction coefficient is non-monotonic with $Q$: from the spherical case $Q=1$, it first sharply increases, reaches a maximum around $Q \simeq 1.05$, and then gently decreases, reaching back its initial value for $Q \simeq 2$. We provide a microscopic interpretation for this unexpected behavior through the analysis of the distribution of dissipative contacts around the particles: as compared to spheres, slightly elongated grains enhance contacts in their central cylindrical band, whereas at larger aspect ratios particles tend to align and dissipate by preferential contacts at their hemispherical caps., Comment: 5 pages, 5 figures

Published
2017
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3. Effective friction of granular flows made of non-spherical particles

Author

Somfai Ellák, Nagy Dániel B., Claudin Philippe, Favier Adeline, Kálmán Dávid, and Börzsönyi Tamás

Subjects
Physics, QC1-999
Abstract

Understanding the rheology of dense granular matter is a long standing problem and is important both from the fundamental and the applied point of view. As the basic building blocks of granular materials are macroscopic particles, the nature of both the response to deformations and the dissipation is very different from that of molecular materials. In the absence of large gradients, the best approach formulates the constitutive equation as an effective friction: for sheared granular matter the ratio of the off-diagonal and the diagonal elements of the stress tensor depends only on dynamical parameters, in particular the inertial number. In this work we employ numerical simulations to extend this formalism to granular packings made of frictionless elongated particles. We measured how the shape of the particles affects the effective friction, volume fraction and first normal stress difference, and compared it to the spherical particle case. We had to introduce polydispersity in particle size in order to keep the systems of the more elongated particles disordered.

Published
2017
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