Modeling the evolution of crystallographic dislocation density in crystal plasticity
From MaRDI portal
Publication:700969
DOI10.1016/S0022-5096(01)00134-XzbMath1023.74011MaRDI QIDQ700969
Athanasios Arsenlis, David M. Parks
Publication date: 16 October 2002
Published in: Journal of the Mechanics and Physics of Solids (Search for Journal in Brave)
crystal plasticityfinite elementsconservation of Burgers vectorcrystallographic dislocation densitypolyslip behaviorsingle-crystal aluminum
Crystalline structure (74E15) Plastic materials, materials of stress-rate and internal-variable type (74C99)
Related Items (17)
Continuum approximation of the Peach-Koehler force on dislocations in a slip plane ⋮ Texture evolution and mechanical behaviour of irradiated face-centred cubic metals ⋮ A stochastic solver based on the residence time algorithm for crystal plasticity models ⋮ A continuum model for dislocation dynamics in three dimensions using the dislocation density potential functions and its application to micro-pillars ⋮ Linking atomistic, kinetic Monte Carlo and crystal plasticity simulations of single‐crystal tungsten strength ⋮ A dislocation density-based single crystal constitutive equation ⋮ A perspective on trends in multiscale plasticity ⋮ Size effects and idealized dislocation microstructure at small scales: predictions of a phenomenological model of mesoscopic field dislocation mechanics. I. ⋮ Modeling plasticity of cubic crystals using a nonlocal lattice particle method ⋮ Gradient crystal plasticity modelling of anelastic effects in particle strengthened metallic thin films ⋮ Energetic dislocation interactions and thermodynamical aspects of strain gradient crystal plasticity theories ⋮ Homogenization of a Row of Dislocation Dipoles from Discrete Dislocation Dynamics ⋮ Shocks and slip systems: predictions from a mesoscale theory of continuum dislocation dynamics ⋮ Study of size effects in thin films by means of a crystal plasticity theory based on DiFT ⋮ Cross-sectional nano-indentation of ion-irradiated steels: finite element simulations based on the strain-gradient crystal plasticity theory ⋮ Non-local crystal plasticity model with intrinsic SSD and GND effects ⋮ Crystal plasticity based modeling of time and scale dependent behavior of thin films
Uses Software
Cites Work
- Strain localization in ductile single crystals
- Modeling crystallographic texture evolution with finite elements over neo-Eulerian orientation spaces
- On plastic deformation and the dynamics of 3D dislocations
- Grain-size effect in viscoplastic polycrystals at moderate strains
- Indentation size effects in crystalline materials: a law for strain gradient plasticity
- On modelling the elasto-viscoplastic response of metals using polycrystal plasticity
- Application of polycrystal plasticity to sheet forming
- Elasto-viscoplastic constitutive equations for polycrystalline metals: Application to tantalum
- Strain gradient crystal plasticity: Size-dependent deformation of bicrystals
- Study of work hardening models for single crystals using three-dimensional finite element analysis
- A physically-based constitutive model for BCC crystals with application to polycrystalline tantalum
- Dislocation dynamics and the theory of the plasticity of single crystals
- Latent hardening in single crystals. II. Analytical characterization and predictions
- Elasto-viscoplastic constitutive equations for polycrystalline fcc materials at low homologous temperatures
This page was built for publication: Modeling the evolution of crystallographic dislocation density in crystal plasticity
