Steady state rheology from homogeneous and locally averaged simple shear simulations

Hao Shi; Stefan Luding; Vanessa Magnanimo

doi:10.1051/epjconf/201714003070

All issues

Volume 140 (2017)

EPJ Web Conf., 140 (2017) 03070

Abstract

Open Access

Issue		EPJ Web Conf. Volume 140, 2017 Powders and Grains 2017 – 8^th International Conference on Micromechanics on Granular Media


Article Number		03070
Number of page(s)		4
Section		Granular flow
DOI		https://doi.org/10.1051/epjconf/201714003070
Published online		30 June 2017

EPJ Web of Conferences 140, 03070 (2017)
https://doi.org/10.1051/epjconf/201714003070

Steady state rheology from homogeneous and locally averaged simple shear simulations

Hao Shi^*, Stefan Luding^** and Vanessa Magnanimo^***

Multi Scale Mechanics, CTW, MESA+, University of Twente, 7500 AE Enschede, The Netherlands

^* e-mail: h.shi-1@utwente.nl
^** e-mail: s.luding@utwente.nl
^*** e-mail: v.magnanimo@utwente.nl

Published online: 30 June 2017

Abstract

Granular materials and particulate matter are ubiquitous in our daily life and they display interesting bulk behaviors from static to dynamic, solid to fluid or gas like states, or even all these states together. To understand how the micro structure and inter-particle forces influence the macroscopic bulk behavior is still a great challenge today. This short paper presents stress controlled homogeneous simple shear results in a 3D cuboidal box using MercuryDPM software. An improved rheological model is proposed for macroscopic friction, volume fraction and coordination number as a function of inertial number and pressure. In addition, the results are compared with the locally averaged data from steady state shear bands in a split bottom ring shear cell and very good agreement is observed in low to intermediate inertia regime at various confining pressure but not for high inertia collisional granular flow.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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