The present work gives a systematic and rigorous implementation of (edge type) circular Volterra dislocation loops in ordinary axisymmetric finite elements using the thermal analogue and the integral representation of dislocations through stresses. The accuracy of the proposed method is studied in problems where analytical solutions exist. The full fields are given for loop dislocations in isotropic and anisotropic crystals and the Peach-Koehler forces are calculated for loops approaching free surfaces and bimaterial interfaces. The results are expected to be very important in the analysis of plastic yield strength, giving quantitative results regarding the influence of grain boundaries, interstitial particles, microvoids, thin film constra...
The paper deals with a discrete dislocation dynamics study of plastic deformation in a thin film cau...
We present a finite element method for the analysis of ductile crystals whose energy depends on the ...
The increasing application of plane-strain testing at the (sub-) micron length scale of materials th...
The present work gives a systematic and rigorous implementation of (edge type) circular Volterra dis...
We present a finite element description of Volterra dislocations using a thermal analogue and the in...
The present work gives a systematic and rigorous implementation of Volterra dislocations in ordinary...
Plastic deformation of micron-sized specimens or smaller cannot be described by continuum plasticity...
AbstractTransversely isotropic materials or hexagonal crystals are commonly utilized in various engi...
Dislocation models based on the Extended Finite Element Method (XFEM) are developed for thin shells ...
Bending of a strip in plane strain is analyzed using discrete dislocation plasticity where the dislo...
AbstractThe elastic displacements, stresses and interaction energy of arbitrarily shaped dislocation...
A framework for carrying out finite deformation discrete dislocation plasticity calculations is pres...
A discrete dislocation plasticity analysis of plastic deformation in metal thin films caused by ther...
A method for solving small-strain plasticity problem with plastic flow represented by the collective...
In this dissertation work, our main focus was to investigate the interactions of dislocation with in...
The paper deals with a discrete dislocation dynamics study of plastic deformation in a thin film cau...
We present a finite element method for the analysis of ductile crystals whose energy depends on the ...
The increasing application of plane-strain testing at the (sub-) micron length scale of materials th...
The present work gives a systematic and rigorous implementation of (edge type) circular Volterra dis...
We present a finite element description of Volterra dislocations using a thermal analogue and the in...
The present work gives a systematic and rigorous implementation of Volterra dislocations in ordinary...
Plastic deformation of micron-sized specimens or smaller cannot be described by continuum plasticity...
AbstractTransversely isotropic materials or hexagonal crystals are commonly utilized in various engi...
Dislocation models based on the Extended Finite Element Method (XFEM) are developed for thin shells ...
Bending of a strip in plane strain is analyzed using discrete dislocation plasticity where the dislo...
AbstractThe elastic displacements, stresses and interaction energy of arbitrarily shaped dislocation...
A framework for carrying out finite deformation discrete dislocation plasticity calculations is pres...
A discrete dislocation plasticity analysis of plastic deformation in metal thin films caused by ther...
A method for solving small-strain plasticity problem with plastic flow represented by the collective...
In this dissertation work, our main focus was to investigate the interactions of dislocation with in...
The paper deals with a discrete dislocation dynamics study of plastic deformation in a thin film cau...
We present a finite element method for the analysis of ductile crystals whose energy depends on the ...
The increasing application of plane-strain testing at the (sub-) micron length scale of materials th...