Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains

Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains

Understanding how cohesive granular materials behave is of interest for many industrial applications, such as pharmaceutical or food and civil engineering. Models of the behaviour of granular materials on the microscopic scale can be used to obtain macroscopic continuum relations by a micro-macro tr...

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Main Authors: Kievitsbosch Robert, Smit Hendrik, Magnanimo Vanessa, Luding Stefan, Taghizadeh Kianoosh
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201714008016
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spelling doaj-9df0661c6f3c4f59a03b1ac753dc396d2021-08-02T04:20:30ZengEDP SciencesEPJ Web of Conferences2100-014X2017-01-011400801610.1051/epjconf/201714008016epjconf162462Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grainsKievitsbosch Robert0Smit Hendrik1Magnanimo Vanessa2Luding Stefan3Taghizadeh Kianoosh4Multi-Scale Mechanics, Faculty of Engineering Technology (ET), MESA+, University of TwenteMulti-Scale Mechanics, Faculty of Engineering Technology (ET), MESA+, University of TwenteMulti-Scale Mechanics, Faculty of Engineering Technology (ET), MESA+, University of TwenteMulti-Scale Mechanics, Faculty of Engineering Technology (ET), MESA+, University of TwenteMulti-Scale Mechanics, Faculty of Engineering Technology (ET), MESA+, University of TwenteUnderstanding how cohesive granular materials behave is of interest for many industrial applications, such as pharmaceutical or food and civil engineering. Models of the behaviour of granular materials on the microscopic scale can be used to obtain macroscopic continuum relations by a micro-macro transition approach. The Discrete Element Method (DEM) is used to inspect the influence of cohesion on the micro and macro behaviour of granular assemblies by using an elasto-plastic cohesive contact model. Interestingly, we observe that frictional samples prepared with different cohesion values show a significant difference in pressure and coordination number in the jammed regime; the differences become more pronounced when packings are closer to the jamming density, i.e. the lowest density where the system is mechanically stable. Furthermore, we observe that cohesion has an influence on the jamming density for frictional samples, but there is no influence on the jamming density for frictionless samples.https://doi.org/10.1051/epjconf/201714008016
collection DOAJ
language English
format Article
sources DOAJ
author Kievitsbosch Robert
Smit Hendrik
Magnanimo Vanessa
Luding Stefan
Taghizadeh Kianoosh
spellingShingle Kievitsbosch Robert
Smit Hendrik
Magnanimo Vanessa
Luding Stefan
Taghizadeh Kianoosh
Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains
EPJ Web of Conferences
author_facet Kievitsbosch Robert
Smit Hendrik
Magnanimo Vanessa
Luding Stefan
Taghizadeh Kianoosh
author_sort Kievitsbosch Robert
title Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains
title_short Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains
title_full Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains
title_fullStr Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains
title_full_unstemmed Influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains
title_sort influence of dry cohesion on the micro- and macro-mechanical properties of dense polydisperse powders & grains
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2017-01-01
description Understanding how cohesive granular materials behave is of interest for many industrial applications, such as pharmaceutical or food and civil engineering. Models of the behaviour of granular materials on the microscopic scale can be used to obtain macroscopic continuum relations by a micro-macro transition approach. The Discrete Element Method (DEM) is used to inspect the influence of cohesion on the micro and macro behaviour of granular assemblies by using an elasto-plastic cohesive contact model. Interestingly, we observe that frictional samples prepared with different cohesion values show a significant difference in pressure and coordination number in the jammed regime; the differences become more pronounced when packings are closer to the jamming density, i.e. the lowest density where the system is mechanically stable. Furthermore, we observe that cohesion has an influence on the jamming density for frictional samples, but there is no influence on the jamming density for frictionless samples.
url https://doi.org/10.1051/epjconf/201714008016
work_keys_str_mv AT kievitsboschrobert influenceofdrycohesiononthemicroandmacromechanicalpropertiesofdensepolydispersepowdersgrains
AT smithendrik influenceofdrycohesiononthemicroandmacromechanicalpropertiesofdensepolydispersepowdersgrains
AT magnanimovanessa influenceofdrycohesiononthemicroandmacromechanicalpropertiesofdensepolydispersepowdersgrains
AT ludingstefan influenceofdrycohesiononthemicroandmacromechanicalpropertiesofdensepolydispersepowdersgrains
AT taghizadehkianoosh influenceofdrycohesiononthemicroandmacromechanicalpropertiesofdensepolydispersepowdersgrains
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