Clump breakage algorithm for DEM simulation of crushable aggregates

The paper presents a new clump breakage algorithm for DEM simulation of crushable aggregates. We emphasize some issues related to the modeling of rigid clump breakage and abrasion (e.g., no interactions between clump members, the theoretical mass of clump members higher than the mass of the clump)....

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Published inTribology international Vol. 173; p. 107661
Main Authors Brzeziński, Karol, Gladky, Anton
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2022
Subjects
Algorithm
Breakage
Clump
DEM
Simulation
Wear
Simulation
Clump
DEM
Algorithm
Breakage
Wear
Online AccessGet full text
ISSN0301-679X
1879-2464
1879-2464
DOI10.1016/j.triboint.2022.107661

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Abstract The paper presents a new clump breakage algorithm for DEM simulation of crushable aggregates. We emphasize some issues related to the modeling of rigid clump breakage and abrasion (e.g., no interactions between clump members, the theoretical mass of clump members higher than the mass of the clump). The algorithm presented in this paper tackles those issues. Correction to the Love-Weber stress tensor is proposed, which allows estimating the stress state of clump members separately. Also, we presented the splitting algorithm that conserves the mass in the system without introducing excessive potential energy coming from particles overlapping. The adapted strength criterion allows for capturing the size effects. The algorithm was implemented in the Yade software and is freely available. •The algorithm presented allows for modeling splitting and abrasion of rigid clumps of spheres.•The mass in the system is conserved after particle breakage.•Mohr-Coulomb-Weibull criterion is implemented to account for scale effects.•Example simulations are presented, including breakage of particles during oedometric test and wear.
AbstractList The paper presents a new clump breakage algorithm for DEM simulation of crushable aggregates. We emphasize some issues related to the modeling of rigid clump breakage and abrasion (e.g., no interactions between clump members, the theoretical mass of clump members higher than the mass of the clump). The algorithm presented in this paper tackles those issues. Correction to the Love-Weber stress tensor is proposed, which allows estimating the stress state of clump members separately. Also, we presented the splitting algorithm that conserves the mass in the system without introducing excessive potential energy coming from particles overlapping. The adapted strength criterion allows for capturing the size effects. The algorithm was implemented in the Yade software and is freely available. •The algorithm presented allows for modeling splitting and abrasion of rigid clumps of spheres.•The mass in the system is conserved after particle breakage.•Mohr-Coulomb-Weibull criterion is implemented to account for scale effects.•Example simulations are presented, including breakage of particles during oedometric test and wear.
ArticleNumber 107661
Author Gladky, Anton
Brzeziński, Karol
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Keywords Simulation
Clump
DEM
Algorithm
Breakage
Wear
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Snippet The paper presents a new clump breakage algorithm for DEM simulation of crushable aggregates. We emphasize some issues related to the modeling of rigid clump...
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StartPage 107661
SubjectTerms Algorithm
Breakage
Clump
DEM
Simulation
Wear
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Title Clump breakage algorithm for DEM simulation of crushable aggregates
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https://doi.org/10.1016/j.triboint.2022.107661
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