Jin Y. Ooi scite author profile

The discrete element method (DEM) is used extensively for the simulation of granular materials and in powder technology. Averaging or coarse graining (CG) techniques, also referred to as the micro-macro transition, are applied to the particle data from DEM simulations to extract bulk continuum fields such as density, velocity and stress, which are important for the design of a great majority of engineering applications. Although numerous papers

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A bond model for DEM simulation of cementitious materials and deformable structures

Brown

2014

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There is an increasing use of the discrete element method (DEM) to study cemented (e.g. concrete and rocks) and sintered particulate materials. The chief advantage of the DEM over continuum based techniques is that it does not make assumptions about how cracking and fragmentation initiate and propagate, since the DEM system is naturally discontinuous. The ability for the DEM to produce a realistic representation of a cemented granular material depends largely on the implementation of an inter-particle bonded contact model. This paper presents a new bonded contact model based on the Timoshenko beam theory which considers axial, shear and bending behaviour of the bond. The bond model was first verified by simulating both the bending and dynamic response of a simply supported beam. The loading response of a concrete cylinder was then investigated and compared with the Eurocode equation prediction. The results show significant potential for the new model to produce satisfactory predictions for cementitious materials. A unique feature of this model is that it can also be used to accurately represent many deformable structures such as frames and shells, so that both particles and structures or deformable boundaries can be described in the same DEM framework.

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Numerical investigation of particle shape and particle friction on limiting bulk friction in direct shear tests and comparison with experiments

Härtl

Ooi

2011

Powder Technology

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Jin Y. Ooi

Assessment of rolling resistance models in discrete element simulations

A numerical simulation to relate the shot peening parameters to the induced residual stresses

Influence of coarse-graining parameters on the analysis of DEM simulations of silo flow

A bond model for DEM simulation of cementitious materials and deformable structures

Numerical investigation of particle shape and particle friction on limiting bulk friction in direct shear tests and comparison with experiments

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