Add to ORKGWe have constructed a discrete element computational code which solves the equations of motion that describe particle-particle interactions. As a first example we have applied the code to a two dimensional triangular pile of discrete particles. We take this to be a two dimensional analogue of a conical pile of particulate material. With this simple model, we try to understand-with partial success-the experimental results of Smid and Novosad (Z. Chem. E. Symp., 63 (1981) D3/V/l) which show a counter-intuitive dip in the normal stress underneath the highest section of the pile. We also obtain two separate analytic models, one based on recurrence relations and the other on a continuum approximation, to describe the force distribution inside a ...
This paper presents a numerical study on the piling processes of mono-sized wet particles by the dis...
Particulate materials are ubiquitous in nature and of fundamental importance to many industries. As ...
Continuum mechanics is typically based on the fundamental notion of a mesoscopic volume element, who...
We investigate the stress distribution at the base of a conical sandpile using both analytic calcula...
We present simulations of static model sandpiles in two dimensions (2D), and focus on the stress dis...
Discrete particle simulations of column of an aggregate of identical particles impacting a rigid, fi...
The properties of a sandpile such as angle of repose and stress distribution are affected by many va...
The absence of a general theory that describes the dynamical behaviour of the particulate materials ...
In this paper, we develop a mathematical model and numerical technique to investigate the distributi...
We simulate static model sandpiles in two dimensions (2D) and focus on the stresses inside the pile....
The scientific problems related to granular matter are ubiquitous. It is currently anactive area of ...
Granular materials are in abundance in nature and are estimated to constitute over 75% of all raw ma...
The evolution of a pile of granular material is investigated by molecular dynamics using a new model...
The traditional analyses for structures that are either built upon (for example, foundations), or ar...
The discrete nature of matter – typically recognised at the microscale – is usually replaced by a co...
This paper presents a numerical study on the piling processes of mono-sized wet particles by the dis...
Particulate materials are ubiquitous in nature and of fundamental importance to many industries. As ...
Continuum mechanics is typically based on the fundamental notion of a mesoscopic volume element, who...
We investigate the stress distribution at the base of a conical sandpile using both analytic calcula...
We present simulations of static model sandpiles in two dimensions (2D), and focus on the stress dis...
Discrete particle simulations of column of an aggregate of identical particles impacting a rigid, fi...
The properties of a sandpile such as angle of repose and stress distribution are affected by many va...
The absence of a general theory that describes the dynamical behaviour of the particulate materials ...
In this paper, we develop a mathematical model and numerical technique to investigate the distributi...
We simulate static model sandpiles in two dimensions (2D) and focus on the stresses inside the pile....
The scientific problems related to granular matter are ubiquitous. It is currently anactive area of ...
Granular materials are in abundance in nature and are estimated to constitute over 75% of all raw ma...
The evolution of a pile of granular material is investigated by molecular dynamics using a new model...
The traditional analyses for structures that are either built upon (for example, foundations), or ar...
The discrete nature of matter – typically recognised at the microscale – is usually replaced by a co...
This paper presents a numerical study on the piling processes of mono-sized wet particles by the dis...
Particulate materials are ubiquitous in nature and of fundamental importance to many industries. As ...
Continuum mechanics is typically based on the fundamental notion of a mesoscopic volume element, who...