Add to ORKGAbstract: A 3D Dislocation Cellular Automaton model is employed to simulate yield and hardening in nanostructured metallic multilayer thin films during in-plane, biaxial tensile loading. The films consist of 2 types of alternating, single-crystalline FCC layers with (001) epitaxy, a mismatch in stress-free lattice parameter, but no elastic modulus mismatch. The simulations monitor the operation of interfacial and threading sources with lengths greater than the individual layer thickness. At larger layer thickness, strength increases with decreasing layer thickness, due to slip confinement to individual layers. At sufficiently small layer thickness, slip confinement is not possible, even during initial stages of plastic deformation. Conseque...
Strong size effects in plastic deformation of thin films have been experimentally observed, indicati...
The phenomenon of 2D nanoindentation of circular "Brinell" indenter into a single crystal metal thin...
Small is strong - the yield stresses of thin metall23ic films with sub-micron thickness greatly exce...
In nanostructured metallic multilayers, hardness and strength are greatly enhanced compared to their...
We simulated dislocation dynamics in heteroepitaxial multilayer thin film systems, considering the c...
The paper deals with a discrete dislocation dynamics study of plastic deformation in a thin film cau...
3-D discrete dislocation dynamics simulations were used to investigate the size-dependent plasticity...
The plastic deformation of polycrystalline fcc metal thin films with thick-ness of 1 µm and less is ...
Plastic deformation of classical crystalline materials is essentially dominated by dislocations and ...
Ultra-high strength metallic multilayers are ideal for investigating the effects of length scales in...
We conducted three-dimensional finite element simulations of the mechanical response of passivated s...
Crystalline films grown epitaxially on substrate consisting of different crystalline material are of...
The plastic deformation of polycrystalline fcc metal thin films with thickness of one micron and les...
We develop a level set method-based, three-dimensional dislocation dynamics simulation method to des...
Atomic-scale simulations are used to examine the plastic behaviour of copper multi-layered thin film...
Strong size effects in plastic deformation of thin films have been experimentally observed, indicati...
The phenomenon of 2D nanoindentation of circular "Brinell" indenter into a single crystal metal thin...
Small is strong - the yield stresses of thin metall23ic films with sub-micron thickness greatly exce...
In nanostructured metallic multilayers, hardness and strength are greatly enhanced compared to their...
We simulated dislocation dynamics in heteroepitaxial multilayer thin film systems, considering the c...
The paper deals with a discrete dislocation dynamics study of plastic deformation in a thin film cau...
3-D discrete dislocation dynamics simulations were used to investigate the size-dependent plasticity...
The plastic deformation of polycrystalline fcc metal thin films with thick-ness of 1 µm and less is ...
Plastic deformation of classical crystalline materials is essentially dominated by dislocations and ...
Ultra-high strength metallic multilayers are ideal for investigating the effects of length scales in...
We conducted three-dimensional finite element simulations of the mechanical response of passivated s...
Crystalline films grown epitaxially on substrate consisting of different crystalline material are of...
The plastic deformation of polycrystalline fcc metal thin films with thickness of one micron and les...
We develop a level set method-based, three-dimensional dislocation dynamics simulation method to des...
Atomic-scale simulations are used to examine the plastic behaviour of copper multi-layered thin film...
Strong size effects in plastic deformation of thin films have been experimentally observed, indicati...
The phenomenon of 2D nanoindentation of circular "Brinell" indenter into a single crystal metal thin...
Small is strong - the yield stresses of thin metall23ic films with sub-micron thickness greatly exce...