Current affiliation: Max-Planck-Intitut für Eisenforschung GmbHSubject: Materials SciencePrimary location: Germany
Published in:Annual Review of Materials ResearchPublication date:2015-07-01
Multi-Disciplinary Overview on production and properties of Dual-Phase Steels
Published in:Acta MaterialiaPublication date:2016-01-01
Deformation of foam structures taking their crystalline elastic and plastic properties into account
Published in:Computational Materials SciencePublication date:2015-11-01
Deformation of foam structures taking their orientation dependen elastic properties into account
Published in:Microstructural Design of Advanced Engineering MaterialsPublication date:2013-07-31
Crystal plasticity modelling allows to model the deformation behavior of metals and other crystals
Published in:International Journal of PlasticityPublication date:2013-07-01
Coupling a numerical solving scheme to a general class of material point models
Published in:International Journal of PlasticityPublication date:2014-12-01
Investigating the strain partitioning among phases, grains, and subgrains in dual phase steel microstructures with experiments (digital image corre...
Published in:Acta MaterialiaPublication date:2014-12-01
Combining experiments and simulations to understand how dual phase steels deform
Published in:Procedia IUTAMPublication date:2012-01-01
A versatile tool to simulate the mechanical response of crystalline materials
Published in:International Journal of PlasticityPublication date:2015-03-01
Improving the spectral method to deal with general material models and properties
Published in:Acta MaterialiaPublication date:2014-11-01
Coupled numerical-experimental study on the deformation behavior of magnesium and magnesium-rare earth polycrystals
Published in:International Journal of PlasticityPublication date:2016-03-01
Starting from fundamental physics, we develop a crystal plasticity law for Tungsten
Published in:GAMM-MitteilungenPublication date:2015-09-01
Linking atomistic, kinetic Monte Carlo and crystal plasticity simulations of single-crystal tungsten strength
Development of a parameter-less crystal plasticity law for tungsten
Published in:MeccanicaPublication date:2015-10-28
An investigation on synthetic polycrystals with a robust spectral-based numerical method
The influence of subsurface structures on the observed behavior on a 2D region of interest for materials with 2 different phases
Published in:International Journal of PlasticityPublication date:2016-05-01
A conceptual study showing how expensive experiments can be replaced by simulations to obtain material parameters for sheet metal forming operations.
Published in:JOMPublication date:2017-03-16
Investigating the influence of pore shape and crystallographic orientation on crack nucleation and evolution
Published in:JOMPublication date:2017-03-14
Starting from statistical quantities, a polycrystal model is build and virtually deformed
Published in:Physical MesomechanicsPublication date:2017-07-01
Engineering materials have a complex internal microstructure, making it hard to predict how they deform under load. Still, many computer simulation...
Published in:Integrating Materials and Manufacturing InnovationPublication date:2017-03-01
An internal structure for an HDF5 file format is proposed that allows the efficient storage of heterogeneous data.
Published in:MRS CommunicationsPublication date:2017-10-16
Different simulation approaches suitable to describe phenomena occurring among the phases, grains, and subgrains in metallic microstructures are sh...
Published in:International Journal of PlasticityPublication date:2018-03-01
Here, a model is presented that allows to describe the main deformation modes of hexagonal metals, dislocation glide and twinning, in a unfified fa...