Discrete elemental analysis on the effect of particle morphology and size on interparticle contact force
Yongfeng Zhu, Wei Xiong, Wen Fan

TL;DR
This study shows how particle shape and size affect contact forces in granular materials, impacting their mechanical behavior.
Contribution
A modified Hertz-based contact model incorporating particle morphology and size parameters is introduced and validated.
Findings
Peak deviatoric stress increases by 15–40% with lower aspect ratio and sphericity.
Increasing equivalent diameter raises peak stress by 20–35%.
Contact forces depend on particle morphology due to varied contact patterns.
Abstract
Particle morphology and size are fundamental characteristics that significantly influence the mechanical behavior of granular materials. This study introduces key parameters—aspect ratio (Ω), sphericity (S), and equivalent diameter (Dₑ)—into a modified Hertz-based contact model to conduct a multiscale study using contact mechanics theory and the discrete element method (DEM). A series of two-particle tests and triaxial compression simulations were performed. The results show strong agreement between numerical simulations and theoretical predictions at the particle scale, validating the modified contact model. At the sample scale, the peak deviatoric stress increased by approximately 15–40% as aspect ratio decreased from 1.00 to 0.33 and sphericity decreased from 1.00 to 0.11. Similarly, increasing the equivalent diameter from 3.78 mm to 8.82 mm led to a 20–35% rise in peak stress. At…
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Taxonomy
TopicsGranular flow and fluidized beds · Geotechnical Engineering and Soil Mechanics · Landslides and related hazards
