Grain crushing controls the response in shear of granular materials and has an impact on the collapse mechanism of geo-structures. To simulate the effects of grain crushing on the macroscopic response, the Discrete Element Method (DEM) appears to be a viable option considering its proven capability of capturing key aspects of the response of granular materials. One of the approaches to simulate particle crushing via DEM consists in creating a particle by assembling smaller sub-particles ‘bonded’ together by adhesion forces. When the force at the contact between two sub-particles exceeds the adhesion, the bonding is broken irreversibly. A critical aspect in this approach is the characterization of i) the ‘random’ distribution of the adhesion...
Particle crushing is commonly encountered during the storage, transportation, and handling of granul...
This paper presents a novel framework of modeling crushable granular materials under mechanical load...
Granular materials are in abundance in nature and are estimated to constitute over 75% of all raw ma...
This paper deals with the effect of contact conditions on the crushing mechanisms and the strength o...
The discrete element method (DEM) is progressively gaining acceptance as a modelling tool for engine...
The discrete element method (DEM) is progressively gaining acceptance as a modelling tool for engine...
Abstract. The discrete element method (DEM) is progressively gaining acceptance as a modelling tool ...
The discrete element method (DEM) is increasingly gaining acceptance as a modelling tool for enginee...
The potential for a particle to crush under one-dimensional compression is critically dependent on t...
The Discrete Element Method (DEM) is progressively gaining acceptance as a modelling tool for engine...
In geotechnical practice, the discrete element method (DEM) is gaining wide acceptance as a powerful...
AbstractParticle crushing plays an important role on the mechanical behavior of crushable granular s...
The Discrete Element Method (DEM) is progressively gaining acceptance as a modelling tool for engine...
Particle crushing is commonly encountered during the storage, transportation, and handling of granul...
This paper presents a novel framework of modeling crushable granular materials under mechanical load...
Granular materials are in abundance in nature and are estimated to constitute over 75% of all raw ma...
This paper deals with the effect of contact conditions on the crushing mechanisms and the strength o...
The discrete element method (DEM) is progressively gaining acceptance as a modelling tool for engine...
The discrete element method (DEM) is progressively gaining acceptance as a modelling tool for engine...
Abstract. The discrete element method (DEM) is progressively gaining acceptance as a modelling tool ...
The discrete element method (DEM) is increasingly gaining acceptance as a modelling tool for enginee...
The potential for a particle to crush under one-dimensional compression is critically dependent on t...
The Discrete Element Method (DEM) is progressively gaining acceptance as a modelling tool for engine...
In geotechnical practice, the discrete element method (DEM) is gaining wide acceptance as a powerful...
AbstractParticle crushing plays an important role on the mechanical behavior of crushable granular s...
The Discrete Element Method (DEM) is progressively gaining acceptance as a modelling tool for engine...
Particle crushing is commonly encountered during the storage, transportation, and handling of granul...
This paper presents a novel framework of modeling crushable granular materials under mechanical load...
Granular materials are in abundance in nature and are estimated to constitute over 75% of all raw ma...