Micromechanical modelling of oval particulates subjected to bi-axial compression

Micromechanical modelling of oval particulates subjected to bi-axial compression

One of the questions that still remain unanswered among researchers dealing with granular materials is how far the particle shape affects the micro-macroscopic features of granular assemblies under mechanical loading. The latest advances made with particle instrumentation allow us to capture realist...

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Bibliographic Details
Published in:Computational materials science Vol. 29; no. 4; pp. 494 - 498
Main Authors: Antony, S.J, Momoh, R.O, Kuhn, M.R
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-04-2004
Elsevier Science
Subjects:
Exact sciences and technology
Micro-macroscopic properties
Micromechanics
Particulate materials
Physics
Shape effects
Micromechanics
Micro-macroscopic properties
Shape effects
Particulate materials
Geometrical shape
Particle size
Powders
Spherical shape
Granular materials
Industrial application
Compressive testing
Shear deformation
Modelling
Granular structure
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Summary:One of the questions that still remain unanswered among researchers dealing with granular materials is how far the particle shape affects the micro-macroscopic features of granular assemblies under mechanical loading. The latest advances made with particle instrumentation allow us to capture realistic particle shapes and size distribution of powders to a fair degree of accuracy at different length scales. Industrial applications often require information on the micromechanical behaviour of granular assemblies having different particle shapes and varying surface characteristics, which still remains largely unanswered. Traditionally, simulations based on discrete element method (DEM) idealise the shape of individual particles as either circular or spherical. In the present investigation, we analyse the influence of particle shape on the shear deformation characteristics of two dimensional granular assemblies using DEM. We prepared the assemblies having nearly an identical initial packing fraction (dense), but with different basic shapes of the individual particles: (a) oval and (b) circular for comparison purposes. The granular assemblies were subjected to bi-axial compression test. We present the evolution of macroscopic strength parameters and microscopic structural/topological parameters during mechanical loading. We show that the micromechanical properties of granular systems are significantly influenced by the shape of the individual particles constituting the granular assemblies.
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ISSN:0927-0256
1879-0801
DOI:10.1016/j.commatsci.2003.12.007