The densification of mono-sized regular octahedral particles under vibration is simulated by a DEM model. The model is validated by physical experiments. The effects of operating parameters including vibration amplitude and frequency are investigated. The obtained packing structures are characterized, and corresponding densification mechanisms are identified. The results indicate that vibration amplitude is more critical for densification compared to frequency, where a wide range of suitable amplitudes exists to realize the dense packing structures. Ordered packing structure exists in boundary region. The central region possesses good particle position randomness and orientation randomness, and the packing density for poured packing (initia...
AbstractThe role of particle size heterogeneity on micro- and macromechanical properties of assembli...
Random close packings (RCP) of different shaped cylindrical particles under optimal vibration condit...
The self-assembly of uniform granular spheres is related to the fundamentals of granular matter such...
Packing densification of mono-sized regular dodecahedral particles subjected to 3D vibrations was st...
The densification of random binary sphere packings subjected to vertical vibration was modeled by us...
In this paper, the transition from random to ordered packings of mono-sized cylindrical particles un...
Particulate materials are ubiquitous in nature and of fundamental importance to many industries. As ...
Physical experiments as well as discrete element simulations of vibration are carried out. The use o...
Particle packing is an important subject in scientific research and industrial applications. In the ...
International audienceIn discrete element method simulations for industrial applications, long, flat...
The size segregation of grains is studied with two-dimensional molecular dynamic simulations for dis...
The uniaxial compression of polydisperse assemblies of spherical frictional and frictionless particl...
Numerical studies on the number of particles or system size required to attain a representative elem...
Fine and cohesive powders typically exhibit low packing density, with solid volume fraction around 0...
International audienceUsually, fundamental studies concerning the behavior of granular media under v...
AbstractThe role of particle size heterogeneity on micro- and macromechanical properties of assembli...
Random close packings (RCP) of different shaped cylindrical particles under optimal vibration condit...
The self-assembly of uniform granular spheres is related to the fundamentals of granular matter such...
Packing densification of mono-sized regular dodecahedral particles subjected to 3D vibrations was st...
The densification of random binary sphere packings subjected to vertical vibration was modeled by us...
In this paper, the transition from random to ordered packings of mono-sized cylindrical particles un...
Particulate materials are ubiquitous in nature and of fundamental importance to many industries. As ...
Physical experiments as well as discrete element simulations of vibration are carried out. The use o...
Particle packing is an important subject in scientific research and industrial applications. In the ...
International audienceIn discrete element method simulations for industrial applications, long, flat...
The size segregation of grains is studied with two-dimensional molecular dynamic simulations for dis...
The uniaxial compression of polydisperse assemblies of spherical frictional and frictionless particl...
Numerical studies on the number of particles or system size required to attain a representative elem...
Fine and cohesive powders typically exhibit low packing density, with solid volume fraction around 0...
International audienceUsually, fundamental studies concerning the behavior of granular media under v...
AbstractThe role of particle size heterogeneity on micro- and macromechanical properties of assembli...
Random close packings (RCP) of different shaped cylindrical particles under optimal vibration condit...
The self-assembly of uniform granular spheres is related to the fundamentals of granular matter such...