A poly‐superellipsoid‐based approach on particle morphology for DEM modeling of granular media

Summary Particle morphology plays a key role in affecting physical and mechanical behaviors of granular media. While various mathematical approaches and shape descriptors have been proposed to describe the morphological properties of granular particles, it remains a challenge to effectively incorpor...

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Published inInternational journal for numerical and analytical methods in geomechanics Vol. 43; no. 13; pp. 2147 - 2169
Main Authors Zhao, Shiwei, Zhao, Jidong
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.09.2019
Subjects
Algorithms
Compression
Computer simulation
contact detection
Detection
Discrete element method
Elongation
Granular materials
Granular media
Mathematical analysis
Mathematical morphology
Mechanical properties
Modelling
Morphology
Optimization
particle shape
Robustness (mathematics)
Shape
superellipsoid
Triaxial compression tests
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Summary:Summary Particle morphology plays a key role in affecting physical and mechanical behaviors of granular media. While various mathematical approaches and shape descriptors have been proposed to describe the morphological properties of granular particles, it remains a challenge to effectively incorporate them for efficient discrete modeling of granular materials. This study presents a new poly‐superellipsoid‐based approach for three‐dimensional discrete element method (DEM) modeling of non‐spherical convex particles. A uniform mathematical description of 3D poly‐superellipsoidal surface is employed to represent a realistic granular particle, which is shown to be versatile and effective in reproducing a wide range of shape features (including elongation, flatness, angularity, and asymmetry) for real particles in nature. A novel optimization approach based on hybrid Levenberg‐Marquardt (LM) and Gilbert‐Johnson‐Keerthi (GJK) algorithms is further developed for efficient and robust contact detection in DEM simulation of poly‐superellipsoidal assemblies. Simulations of granular packing and triaxial compression tests show that the proposed approach is generally robust and efficient for both dynamic and quasistatic modeling of granular media.
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ISSN:0363-9061
1096-9853
DOI:10.1002/nag.2951