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Particle shape plays an important role in determining the engineering behaviour of granular materials.
In this regard, characterisation and quantification of particle shape are essential for understanding the behaviour of granular materials.
Discrete element modelling (DEM) is a numerical method used for modelling the mechanical behaviour of granular materials.
In addition the thermomechanical approach offers the real possibility of relating the observed and simulated behaviour of granular materials on the micro- and meso-scales, to the observed behaviour at the continuum level.
The macro-scale flow behaviour of granular materials in gas fluidization is governed by particle-particle and gas-particle interactions, which are affected significantly by particle size and shape.
The history of the micromechanical approach to the study of granular materials is briefly reviewed, and the main micromechanical contributions to the understanding of the mechanical behaviour of granular materials are reported.
Similar(52)
The dynamic behavior of granular materials has importance to a variety of engineering applications.
The present Bayesian framework provides robust predictions for the behavior of granular materials using DEM simulations.
The discrete element method (DEM) is a numerical technique specifically designed for the simulation of the mechanical behavior of granular materials (e.g., granular food or pharmaceutical products).
An important property is the flow behaviour of granular material during its transportation in a granular material handling system.
Dr. Goldman initially studied the physics of granular materials, which display complicated behavior — changing from a solid to a fluid, for example.
More suggestions(17)
behaviour of pseudocapacitive materials
behaviour of porous materials
behaviour of orthotropic materials
behaviour of metallic materials
behaviour of granular blends
behaviour of new materials
behaviour of blocky materials
behaviour of biological materials
behaviour of concrete materials
behaviour of bituminous materials
behaviour of granular systems
behaviour of viscoelastic materials
behaviour of hyperelastic materials
behaviour of such materials
behaviour of organic materials
behaviour of viscoplastic materials
behaviour of granular media
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