Add to ORKGThe mechanical behavior of materials is ultimately determined by events occurring at the atomic scale. The onset of plastic yield corresponds to triggering of dislocation motion. Subsequent hardening is mainly controlled by interaction of gliding dislocations with other lattice defects such as forest dislocations, grain boundaries, interfaces and surfaces. Finally, material failure is influenced by processes at the tip of a crack propagating in a crystal lattice. In this work we review atomistic simulations of lattice defects in tungsten. We show that these studies are able to provide not only a detailed understanding of defect properties but also reveal how the fundamental processes at the atomic scale are linked to macroscopic material be...
The defects in crystalline materials significantly affect the fracture behaviors. In this paper mole...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...
The mechanical behavior of materials is ultimately determined by events occurring at the atomic scal...
Plastic deformation of polycrystalline materials is largely controlled by the interaction between la...
A computational framework for the discrete dislocation dynamics simulation of body-centered cubic (b...
Mechanical properties of polycrystalline materials are greatly influenced by the motion of dislocati...
The strength of polycrystals is largely controlled by the interaction between lattice dislocations a...
Understanding and improving the mechanical properties of tungsten is a critical task for the materia...
Understanding and improving the mechanical properties of tungsten is a critical task for the materia...
We demonstrate a practical way to perform decomposition of the elasto-plastic deformation directly f...
We systematically investigate the interaction between a monovacancy and various lattice dislocations...
Molecular dynamics simulations have been used to generate a comprehensive database of surviving defe...
The design of the next generation of nuclear fusion machines needs efficient Plasma Facing materials...
Small dislocation loops formed from self-interstitial atoms (SIAs) are commonly found in irradiated ...
The defects in crystalline materials significantly affect the fracture behaviors. In this paper mole...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...
The mechanical behavior of materials is ultimately determined by events occurring at the atomic scal...
Plastic deformation of polycrystalline materials is largely controlled by the interaction between la...
A computational framework for the discrete dislocation dynamics simulation of body-centered cubic (b...
Mechanical properties of polycrystalline materials are greatly influenced by the motion of dislocati...
The strength of polycrystals is largely controlled by the interaction between lattice dislocations a...
Understanding and improving the mechanical properties of tungsten is a critical task for the materia...
Understanding and improving the mechanical properties of tungsten is a critical task for the materia...
We demonstrate a practical way to perform decomposition of the elasto-plastic deformation directly f...
We systematically investigate the interaction between a monovacancy and various lattice dislocations...
Molecular dynamics simulations have been used to generate a comprehensive database of surviving defe...
The design of the next generation of nuclear fusion machines needs efficient Plasma Facing materials...
Small dislocation loops formed from self-interstitial atoms (SIAs) are commonly found in irradiated ...
The defects in crystalline materials significantly affect the fracture behaviors. In this paper mole...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...