Research
- Biomechanics
- Novel Biopolymer Hydrogels for Understanding Complex Soft Tissue Biomechanics
- BRAIn mechaNIcs ACross Scales: Linking microstructure, mechanics and pathology
- Multiscale modeling of nervous tissue: comprehensively linking microstructure, pathology, and mechanics
- Modelling and simulation of nonlinear electro-thermo-visco-elastic EAPs(Electronic Electro-Active Polymers)
- Modeling and computation of growth in soft biological matter
- Contact mechanics
- Material modelling of sheet-layered lamination stacks
- Reduced order modelling of non-linear gyroscopic systems in ALE formulation with frictional contact
- A coupled MD-FE simulation method accounting for interphases in nanoparticle filled thermoplastics.
- C1: Constitutive friction law for the description and optimization of tailored surfaces
- Material Mechanics
- On the Formulation and the Micromechanical Origin of Non-Classical Models of Diffusion
- Mehrskalenmodellierung und -simulation der Mechanik von Materialien mit Faserstruktur
- BRAIn mechaNIcs ACross Scales: Linking microstructure, mechanics and pathology
- A coupled MD-FE simulation method accounting for interphases in nanoparticle filled thermoplastics.
- A coupled MD-FE simulation method accounting for interphases in nanoparticle filled thermoplastics.
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- Uncertainty Quantification
- C3: Parameter and shape optimization in finite elastoplasticity
- Fuzzy-arithmetical modeling of processes with uncertain prarameters
- A hybrid Sampling-Stochastic-Finite-Element-Method for polymorphic, microstructural uncertainties in heterogeneous materials
- A hybrid Sampling-Stochastic-Finite-Element-Method for polymorphic, microstructural uncertainties in heterogeneous materials
- Multiscale mechanics
- BRAIn mechaNIcs ACross Scales: Linking microstructure, mechanics and pathology
- BRAIn mechaNIcs ACross Scales: Linking microstructure, mechanics and pathology
- BRAIn mechaNIcs ACross Scales: Linking microstructure, mechanics and pathology
- Teilprojekt P6 – Fracture in Thermoplastics: Discrete-to-Continuum
- Teilprojekt P6 – Fracture in Thermoplastics: Discrete-to-Continuum
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- Process Simulation
- Experimentell basierte Modellierung, Simulation und Kompensation thermischer Einflüsse beim Drehen mesoheterogener Werkstoffe aus Al-MMC.
- Macroscopic modeling, simulation, and optimization of the selective beam melting process (C3)
- Simulations- und versuchsbasierte Untersuchung der Wechselwirkung zwischen Zerspanprozess und Maschinenstruktur beim Hochleistungsflachschleifen
- Experimentell basierte Modellierung, Simulation und Kompensation thermischer Einflüsse beim Drehen mesoheterogener Werkstoffe aus Al-MMC. Phase 2
- Structural dynamics
- Reduced order modelling of non-linear gyroscopic systems in ALE formulation with frictional contact
- Reduced order modelling of non-linear gyroscopic systems in ALE formulation with frictional contact
- Vibration reduction by energy transfer using shape adaption
- Structural dynamics of rotating systems
- Investigation and reduction of nonlinear oscillation systems using modal approaches
- Optimization
- Teilprojekt P11 – Fracture Control by Material Optimization
- Teilprojekt P11 – Fracture Control by Material Optimization
- Teilprojekt P11 – Fracture Control by Material Optimization
- Teilprojekt P8 – Fracture in Polymer Composites: Meso to Macro
- Teilprojekt P8 – Fracture in Polymer Composites: Meso to Macro
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- Other Projects
- A numerical model of translational and rotational momentum transfer of small on-spherical rigid particles in fluid dominated two-phase flows
- Fracture Across Scales and Materials, Processes and Disciplines
- Fracture across Scales: Integrating Mechanics, Materials Science, Mathematics, Chemistry, and Physics (FRASCAL)
- Numerical and experimental study of the deposition of micro-sized non-spherical solid particles in the nasal cavity