AbstractIn this article, ten kinds of granular materials with different particle gradation curves based on the regularized incomplete Beta function are produced and packed by discrete element method. Then the influences of particle gradation on granular packing and frictional characteristics are examined. Merely adjusting the two parameters in the regularized incomplete Beta function, we are able to generate a numerical granular material with all kinds of granular packing, either well or poorly graded now. The model is proved to be a very useful tool for conventional discrete element method to simulate mechanical behavior of realistic granular materials
From pharmaceutical to mining or traveling desert dunes to earthquakes, granular materials are at th...
The micro-structural approach, which relates the mechanical behavior of a material to its micro-fabr...
This paper presents a Discrete Element Method (DEM) study of assemblies of 5041 frictional discs, wi...
It has long been recognised that the macroscopic mechanical behaviour of a granular material depends...
AbstractThe mechanical response of a granular system is not only influenced by the bulk material pro...
The mechanical response of a granular system is not only influenced by the bulk material properties ...
The scientific problems related to granular matter are ubiquitous. It is currently anactive area of ...
The theory of continuous media is not sufficient to explain the behaviour of granular materials, so ...
Granular materials present a number of challenges to predictability. The classical description of a ...
The Discrete Element Method (DEM) was found to be an effective numerical method ...
Granular materials are very abundant in nature and are often used in industry, wherethe dynamics of ...
A modified discrete element method (DEM) with rolling effect taken into consideration is developed t...
Granular materials are collections of discrete macroscopic particles. They exhibit rich and complex ...
The practice of storing granular materials in stockpiles occurs throughout the world and in many ind...
Particle shape, as one of the most important physical ingredients of granular materials, can greatly...
From pharmaceutical to mining or traveling desert dunes to earthquakes, granular materials are at th...
The micro-structural approach, which relates the mechanical behavior of a material to its micro-fabr...
This paper presents a Discrete Element Method (DEM) study of assemblies of 5041 frictional discs, wi...
It has long been recognised that the macroscopic mechanical behaviour of a granular material depends...
AbstractThe mechanical response of a granular system is not only influenced by the bulk material pro...
The mechanical response of a granular system is not only influenced by the bulk material properties ...
The scientific problems related to granular matter are ubiquitous. It is currently anactive area of ...
The theory of continuous media is not sufficient to explain the behaviour of granular materials, so ...
Granular materials present a number of challenges to predictability. The classical description of a ...
The Discrete Element Method (DEM) was found to be an effective numerical method ...
Granular materials are very abundant in nature and are often used in industry, wherethe dynamics of ...
A modified discrete element method (DEM) with rolling effect taken into consideration is developed t...
Granular materials are collections of discrete macroscopic particles. They exhibit rich and complex ...
The practice of storing granular materials in stockpiles occurs throughout the world and in many ind...
Particle shape, as one of the most important physical ingredients of granular materials, can greatly...
From pharmaceutical to mining or traveling desert dunes to earthquakes, granular materials are at th...
The micro-structural approach, which relates the mechanical behavior of a material to its micro-fabr...
This paper presents a Discrete Element Method (DEM) study of assemblies of 5041 frictional discs, wi...