Characterisation of the effects of particle shape using a normalised contact eccentricity

In discrete element modelling it is quite common to employ rolling friction models to mimic the effects of particle shape. This paper presents an investigation of the mechanisms at play when using this technique and compares the behaviour of a rolling friction model with various non-spherical partic...

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Bibliographic Details
Published in:Granular matter 2014-06, Vol.16 (3), p.327-337
Main Authors: Wensrich, C. M., Katterfeld, A., Sugo, D.
Format: Article
Language:English
Subjects:
Approximation
Atoms & subatomic particles
Complex Fluids and Microfluidics
Contact
Discrete element method
Eccentricity
Engineering Fluid Dynamics
Engineering Thermodynamics
Foundations
Friction
Geoengineering
Heat and Mass Transfer
Hydraulics
Industrial Chemistry/Chemical Engineering
Materials Science
Mathematical models
Original Paper
Particle shape
Physics
Physics and Astronomy
Rolling
Rolling friction
Soft and Granular Matter
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Summary:In discrete element modelling it is quite common to employ rolling friction models to mimic the effects of particle shape. This paper presents an investigation of the mechanisms at play when using this technique and compares the behaviour of a rolling friction model with various non-spherical particle systems. The motivation behind this work revolves around forming a theoretical framework behind the selection of a coefficient of rolling friction. As a part of this study, we describe an approach where the normalised average contact eccentricity of non-spherical particles (in this case multispheres) is used to characterise the effects of shape. This description is found to capture some aspects of material behaviour reasonably well. When compared to the behaviour of a common rolling friction model, it was found that similar behaviour could be approximated by spheres with a coefficient of rolling friction equal to one half of the normalised eccentricity of non-spherical material. This is approximately in-line with previous studies involving 2D polyhedral particles (Estrada et al. in Phys Rev E 84:011306, 2011 ).
ISSN:1434-5021
1434-7636
DOI:10.1007/s10035-013-0465-1