AbstractIn the previous paper by Yu and Diab (2013), several sets of boundary integral equations are derived for general anisotropic materials and corresponding equations for materials with different classes of symmetry are deduced. The work presented herein implements two sets of boundary element schemes to numerically solve the stress field. The integration on the element that has the singular point of the kernel is bounded and can be evaluated analytically. Four benchmark elastic problems are solved numerically to show the advantage of the two schemes over the conventional boundary element formulation in eliminating the boundary layer effect. The one with the weaker singularity has better convergence and gives more accurate results. The ...
A technique is developed for linking the methods of discrete dislocation dynamics simulation and fin...
An efficient boundary element-free method is established for 2-D crack problems by combining a pair ...
[[abstract]]The main impediment to the development of efficient algorithms for the stress analysis o...
AbstractIn the previous paper by Yu and Diab (2013), several sets of boundary integral equations are...
AbstractA unified approach, originating from Cauchy integral theorem, is presented to derive boundar...
A framework for carrying out finite deformation discrete dislocation plasticity calculations is pres...
AbstractBased on a previous publication (Savruk, 1981), a dislocation distribution layer method for ...
Plastic deformation in two-dimensional monophase and composite materials is studied using a discrete...
AbstractThe elastic displacements, stresses and interaction energy of arbitrarily shaped dislocation...
AbstractThis study documents the first attempt to apply the singular boundary method (SBM), a novel ...
AbstractThis paper studies the boundary value problem for a finite plate containing two dissimilar i...
The standard strategy developed by Van der Giessen and Needleman (1995 Modelling Simul. Mater. Sci. ...
A one-dimensional set of nonlinear time-dependent partial differential equations developed by Achary...
A superposition technique is introduced that allows for the application of discrete dislocation (DD)...
Abstract. A new formulation of the boundary element method (BEM) is proposed in this paper to calcul...
A technique is developed for linking the methods of discrete dislocation dynamics simulation and fin...
An efficient boundary element-free method is established for 2-D crack problems by combining a pair ...
[[abstract]]The main impediment to the development of efficient algorithms for the stress analysis o...
AbstractIn the previous paper by Yu and Diab (2013), several sets of boundary integral equations are...
AbstractA unified approach, originating from Cauchy integral theorem, is presented to derive boundar...
A framework for carrying out finite deformation discrete dislocation plasticity calculations is pres...
AbstractBased on a previous publication (Savruk, 1981), a dislocation distribution layer method for ...
Plastic deformation in two-dimensional monophase and composite materials is studied using a discrete...
AbstractThe elastic displacements, stresses and interaction energy of arbitrarily shaped dislocation...
AbstractThis study documents the first attempt to apply the singular boundary method (SBM), a novel ...
AbstractThis paper studies the boundary value problem for a finite plate containing two dissimilar i...
The standard strategy developed by Van der Giessen and Needleman (1995 Modelling Simul. Mater. Sci. ...
A one-dimensional set of nonlinear time-dependent partial differential equations developed by Achary...
A superposition technique is introduced that allows for the application of discrete dislocation (DD)...
Abstract. A new formulation of the boundary element method (BEM) is proposed in this paper to calcul...
A technique is developed for linking the methods of discrete dislocation dynamics simulation and fin...
An efficient boundary element-free method is established for 2-D crack problems by combining a pair ...
[[abstract]]The main impediment to the development of efficient algorithms for the stress analysis o...