Discrete element modeling of inherently anisotropic granular assemblies with polygonal particles
Year
: 2012
Abstract: In the present article, we study the effect of inherent anisotropy, i.e., initial bedding angle of particles and associated voids on macroscopic mechanical behavior of granular materials, by numerical simulation of
several biaxial compression tests using the discrete element method (DEM). Particle shape is considered to be irregular convex-polygonal. The effect of inherent anisotropy is investigated by following the evolution of mobilized shear strength and volume change during loading. As experimental tests have already shown, numerical simulations also indicate that initial anisotropic condition has a great influence on the strength and deformational behavior of granular assemblies. Comparison of simulations with tests using oval particles, shows that angularity influences both the mobilized shear strength and the volume change regime, which originates from the interlocking resistance between particles.
several biaxial compression tests using the discrete element method (DEM). Particle shape is considered to be irregular convex-polygonal. The effect of inherent anisotropy is investigated by following the evolution of mobilized shear strength and volume change during loading. As experimental tests have already shown, numerical simulations also indicate that initial anisotropic condition has a great influence on the strength and deformational behavior of granular assemblies. Comparison of simulations with tests using oval particles, shows that angularity influences both the mobilized shear strength and the volume change regime, which originates from the interlocking resistance between particles.
Keyword(s): Inherent anisotropy,Granular material,Discrete element method,Polygonal particles
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Discrete element modeling of inherently anisotropic granular assemblies with polygonal particles
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| contributor author | سیداحسان سیدی حسینی نیا | en |
| contributor author | Seyed Ehsan Seyedi Hosseininia | fa |
| date accessioned | 2020-06-06T13:07:48Z | |
| date available | 2020-06-06T13:07:48Z | |
| date issued | 2012 | |
| identifier uri | https://libsearch.um.ac.ir:443/fum/handle/fum/3342709 | |
| description abstract | In the present article, we study the effect of inherent anisotropy, i.e., initial bedding angle of particles and associated voids on macroscopic mechanical behavior of granular materials, by numerical simulation of several biaxial compression tests using the discrete element method (DEM). Particle shape is considered to be irregular convex-polygonal. The effect of inherent anisotropy is investigated by following the evolution of mobilized shear strength and volume change during loading. As experimental tests have already shown, numerical simulations also indicate that initial anisotropic condition has a great influence on the strength and deformational behavior of granular assemblies. Comparison of simulations with tests using oval particles, shows that angularity influences both the mobilized shear strength and the volume change regime, which originates from the interlocking resistance between particles. | en |
| language | English | |
| title | Discrete element modeling of inherently anisotropic granular assemblies with polygonal particles | en |
| type | Journal Paper | |
| contenttype | External Fulltext | |
| subject keywords | Inherent anisotropy | en |
| subject keywords | Granular material | en |
| subject keywords | Discrete element method | en |
| subject keywords | Polygonal particles | en |
| journal title | Particuology | fa |
| pages | 542-552 | |
| journal volume | 10 | |
| journal issue | 5 | |
| identifier link | https://profdoc.um.ac.ir/paper-abstract-1027479.html | |
| identifier articleid | 1027479 |