Add to ORKGFirst published as an Advance Article on the web 3rd August 2005 Dislocations influence many properties of crystalline solids, including plastic deformation, growth and dissolution, diffusion and the formation of polytypes. Some of these processes can be described using continuum methods but this approach fails when a description of the structure of the core is required. To progress in these types of problems, an atomic scale model is essential. So far, atomic scale modelling of the cores of dislocations has been limited to systems with rather simple crystal structures. In this article, we describe modifications to current methodology, which have been used for strongly ionic materials with simple structures. These modifications permit the s...
This study investigates the behaviour of selected, morphologically important surfaces of dolomite (C...
Linear elasticity theory predicts a divergent strain field at the dislocation core, resulting from t...
Plastic deformation of crystalline solids is of both scientific and techno-logical interest. Over a ...
First published as an Advance Article on the web 3rd August 2005 Dislocations influence many propert...
Dislocations influence many properties of crystalline solids, including plastic deformation, growth ...
Dislocations influence many properties of crystalline solids, including plastic deformation, growth ...
Dislocations influence many properties of crystalline solids, including plastic deformation, growth ...
Dislocations influence many properties of crystalline solids, including plastic deformation, growth ...
In an accompanying article, we have described a methodology for the simulation of dislocations in st...
First published as an Advance Article on the web 3rd August 2005 In an accompanying article, we have...
In an accompanying article, we have described a methodology for the simulation of dislocations in st...
In principle, the macroscopic plasticity properties of crystalline materials are derivable from the ...
Historically, dislocation are thought of and treated as dual objects. The large lattice distortions ...
An attempt at reviewing the present knowledge of dislocation intrinsic mobility in single phase chem...
La mise en forme des matériaux passe par la déformation à l'échelle atomique de sa structure. Cette ...
This study investigates the behaviour of selected, morphologically important surfaces of dolomite (C...
Linear elasticity theory predicts a divergent strain field at the dislocation core, resulting from t...
Plastic deformation of crystalline solids is of both scientific and techno-logical interest. Over a ...
First published as an Advance Article on the web 3rd August 2005 Dislocations influence many propert...
Dislocations influence many properties of crystalline solids, including plastic deformation, growth ...
Dislocations influence many properties of crystalline solids, including plastic deformation, growth ...
Dislocations influence many properties of crystalline solids, including plastic deformation, growth ...
Dislocations influence many properties of crystalline solids, including plastic deformation, growth ...
In an accompanying article, we have described a methodology for the simulation of dislocations in st...
First published as an Advance Article on the web 3rd August 2005 In an accompanying article, we have...
In an accompanying article, we have described a methodology for the simulation of dislocations in st...
In principle, the macroscopic plasticity properties of crystalline materials are derivable from the ...
Historically, dislocation are thought of and treated as dual objects. The large lattice distortions ...
An attempt at reviewing the present knowledge of dislocation intrinsic mobility in single phase chem...
La mise en forme des matériaux passe par la déformation à l'échelle atomique de sa structure. Cette ...
This study investigates the behaviour of selected, morphologically important surfaces of dolomite (C...
Linear elasticity theory predicts a divergent strain field at the dislocation core, resulting from t...
Plastic deformation of crystalline solids is of both scientific and techno-logical interest. Over a ...