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Numerical modelling of rough particle contacts subject to normal and tangential loading

Lookup NU author(s): Dr Sadegh NadimiORCiD

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This work is licensed under a Creative Commons Attribution 4.0 International License (CC BY 4.0).


Abstract

Our understanding of the mechanics of contact behaviour for interacting particles has been developed mostly assuming that surfaces are smooth. However, real particles of interest in engineering science are generally rough. While recent studies have considered the influence of roughness on the normal force–displacement relationship, surface roughness was quantified using only a single scalar measure, disregarding the topology of the surface. There are some conflicting arguments concerning the effect of roughness on the tangential or shear force–displacement relationship. In this study, optical interferometry data are used to generate the surface topology for input into a 3D finite element model. This model is used to investigate the sensitivity of the normal force–displacement response to the surface topology by considering different surfaces with similar overall roughness values. The effect of surface roughness on the tangential force–displacement relationship and the influence of loading history are also explored. The results indicate that quantifying roughness using a single value, such as the root mean square height of roughness, Sq, is insufficient to predict the effect of roughness upon stiffness. It is also shown that in the absence of interlocking, rough particle surfaces exhibit a lower frictional resistance in comparison with equivalent smooth surfaces.


Publication metadata

Author(s): Nadimi S, Otsubo M, Fonseca J, O'Sullivan C

Publication type: Article

Publication status: Published

Journal: Granular Matter

Year: 2019

Volume: 21

Print publication date: 01/11/2019

Online publication date: 29/10/2019

Acceptance date: 01/10/2019

Date deposited: 30/10/2019

ISSN (print): 1434-5021

ISSN (electronic): 1434-7636

Publisher: Springer

URL: https://doi.org/10.1007/s10035-019-0970-y

DOI: 10.1007/s10035-019-0970-y


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