A mathematical methodology for analysing pile-ups of large numbers of dislocations is described. As an example, the pile-up of n identical screw or edge dislocations in a single slip pane under the action of an external force in the direction of a locked dislocation in that plane is considered. As $n \rightarrow \infty$ there is a well-known formula for the number density of the dislocations, but this density is singular at the lock and it cannot predict the stress field there or the force on the lock. This poses the interesting analytical and numerical problem of matching a local discrete model near the lock to the continuum model further away
Dislocation motion in the crystal lattice of materials is the basis for macroscopic plasticity. Whil...
In this paper we analyse the behaviour of a pile-up of vertically periodic walls of edge dislocation...
In this paper, we present a continuum model for dislocation dynamics in a slip plane, which accurate...
A mathematical methodology for analysing pile-ups of large numbers of dislocations is described. As ...
A new asymptotic approach for analysing pile-ups of large numbers of dislocations is described. As a...
The methodology developed in the precursor to this paper is used to find the positions of n screw di...
There are two distinct approaches to the description of dislocations in solids. Often discrete dislo...
This paper unravels the problem of an idealised pile-up of n infinite, equi-spaced walls of edge dis...
The increasing demand for materials with well-defined microstructure, accompanied by the advancing m...
Continuum frameworks of dislocation-based plasticity theories are gaining prominence in the research...
The idealised problem of a pile-up of regular dislocation walls (that is, of planes each containing ...
Dislocation motion in the crystal lattice of materials is the basis for macroscopic plasticity. Whil...
In this paper we analyse the behaviour of a pile-up of vertically periodic walls of edge dislocation...
In this paper, we present a continuum model for dislocation dynamics in a slip plane, which accurate...
A mathematical methodology for analysing pile-ups of large numbers of dislocations is described. As ...
A new asymptotic approach for analysing pile-ups of large numbers of dislocations is described. As a...
The methodology developed in the precursor to this paper is used to find the positions of n screw di...
There are two distinct approaches to the description of dislocations in solids. Often discrete dislo...
This paper unravels the problem of an idealised pile-up of n infinite, equi-spaced walls of edge dis...
The increasing demand for materials with well-defined microstructure, accompanied by the advancing m...
Continuum frameworks of dislocation-based plasticity theories are gaining prominence in the research...
The idealised problem of a pile-up of regular dislocation walls (that is, of planes each containing ...
Dislocation motion in the crystal lattice of materials is the basis for macroscopic plasticity. Whil...
In this paper we analyse the behaviour of a pile-up of vertically periodic walls of edge dislocation...
In this paper, we present a continuum model for dislocation dynamics in a slip plane, which accurate...