Litcius/Paper detail

Effect of Particle Shape on Constitutive Relation: DEM Study

Hoang Bao Khoi Nguyen, Md Mizanur Rahman, Andy Fourie

2020Journal of Geotechnical and Geoenvironmental Engineering54 citationsDOI

Abstract

The influence of particle shape was evaluated under drained and undrained (constant volume) condition using three-dimensional (3D) cubical assemblies of spheres, ellipsoids, and cluster of spheres (a combination of seven spheres with two different degrees of overlap) with same particle size distribution. It was found that the peak deviatoric stress, the minimum dilatancy (d=dεvp/dεqp), corresponding stress ratio (ηdmin), the bounding surface dilatancy model, and the location of the critical state line (CSL) both in the e-log(p′) and the q-p′ space were influenced by particle shape. Therefore, four corresponding sets of constitutive parameters for four different particle shapes were implemented in a bounding surface model to predict both drained and undrained (constant volume) discrete element method (DEM) simulation. Good prediction, irrespective of particle shape, indicates that the observed DEM behavior can be adequately captured by the theories of continuum mechanics. Importantly, the majority of the constitutive parameters were influenced by particle shape and can be correlated with simple shape descriptor of sphericity.

Topics & Concepts

DilatantSphericityDiscrete element methodEllipsoidSPHERESParticle (ecology)Constitutive equationVoid ratioGeometryGranular materialMathematicsMechanicsGeotechnical engineeringMaterials sciencePhysicsFinite element methodGeologyThermodynamicsOceanographyAstronomyGeotechnical Engineering and Soil MechanicsLandslides and related hazardsGeotechnical Engineering and Underground Structures
Effect of Particle Shape on Constitutive Relation: DEM Study | Litcius