AbstractWe discuss methods to map crystallographic textures in crystal plasticity finite element simulations. Fourier-type series expansion methods which use spherical harmonic library functions as well as the direct pole figure inversion methods are not well suited to reproduce texture information in a sufficiently localized spherical form onto finite element grids. Mathematically compact Gauss-shaped spherical texture components represent a better approach for including textures in finite element models since they represent an excellent compromise between discreteness (spherical localization), compactness (simple functions), mathematical precision (very good approximation also of complex orientation distribution functions already with sma...
We present a method to map and track textures in crystal plasticity finite element simulations using...
Metals mostly occur in polycrystalline form where each grain has a different crystallographic orient...
Deformation of a grain in polycrystalline metals is restricted or forced by deformation of neighbor ...
This progress report introduces a crystal plasticity finite element method which includes and update...
The study discusses how crystal orientation distributions can be mapped on finite element grids for ...
We present a method to map and track textures in crystal plasticity finite element simulations using...
This Max-Planck project report presents a time efficient and at the same time physically based appro...
The study discusses how crystal orientation distributions can be mapped on finite element grids for ...
Scientists from the theory group in the Department for Microstructure Physics and Metal Forming at t...
This progress report introduces a crystal plasticity finite element method which includes and update...
This progress report introduces a crystal plasticity finite element method which includes and update...
The study discusses how crystal orientation distributions can be mapped on finite element grids for ...
This Max-Planck project report presents a time efficient and at the same time physically based appro...
Metals mostly occur in polycrystalline form where each grain has a different crystallographic orient...
This Max-Planck project report presents a time efficient and at the same time physically based appro...
We present a method to map and track textures in crystal plasticity finite element simulations using...
Metals mostly occur in polycrystalline form where each grain has a different crystallographic orient...
Deformation of a grain in polycrystalline metals is restricted or forced by deformation of neighbor ...
This progress report introduces a crystal plasticity finite element method which includes and update...
The study discusses how crystal orientation distributions can be mapped on finite element grids for ...
We present a method to map and track textures in crystal plasticity finite element simulations using...
This Max-Planck project report presents a time efficient and at the same time physically based appro...
The study discusses how crystal orientation distributions can be mapped on finite element grids for ...
Scientists from the theory group in the Department for Microstructure Physics and Metal Forming at t...
This progress report introduces a crystal plasticity finite element method which includes and update...
This progress report introduces a crystal plasticity finite element method which includes and update...
The study discusses how crystal orientation distributions can be mapped on finite element grids for ...
This Max-Planck project report presents a time efficient and at the same time physically based appro...
Metals mostly occur in polycrystalline form where each grain has a different crystallographic orient...
This Max-Planck project report presents a time efficient and at the same time physically based appro...
We present a method to map and track textures in crystal plasticity finite element simulations using...
Metals mostly occur in polycrystalline form where each grain has a different crystallographic orient...
Deformation of a grain in polycrystalline metals is restricted or forced by deformation of neighbor ...