Andreas Menzel
Titel
Professor
Organisation
046-222 79 88
Andreas [dot] Menzel [at] solid [dot] lth [dot] se
Publikationer (hämtat ur Lunds universitets publikationsdatabas)
författare
- 2013
- 2012
- A non-affine micro-sphere formulation for electroactive polymers
- An electromechanically coupled micro-sphere framework: application to the finite element analysis of electrostrictive polymers
- Anisotropic density growth of bone-A computational micro-sphere approach
- Ansätze zur Modellierung und Simulation des Innenrundschälschleifens
- Application of an anisotropic growth and remodelling formulation to computational structural design
- Electrostriction in electro-viscoelastic polymers
- Frontiers in growth and remodeling
- Implementation of numerical integration schemes for the simulation of magnetic SMA constitutive response
- Inverse Form Finding for Incompressible Electroelasticity
- Inverse-motion based modeling for electromechanics with applications to electrostrictive polyurethane
- Modelling of electromechanical behaviour of EAP materials
- Partially relaxed energy potentials for the modelling of microstructures - application to shape memory alloys
- Phase-transformations interacting with plasticity – a micro-sphere model applied to TRIP steel
- Phase-transformations interacting with plasticity – a micro-sphere model applied to TRIP steel
- Phenomenological modeling of viscous electrostrictive polymers
- Polygonal finite elements for three-dimensional Voronoi-cell-based discretisations
- The inverse motion problem for quasi-incompressible electroelasticity
- Voronoi-based three-dimensional polygonal finite elements for electromechanical problems
- Wärmeeintrag beim Hochleistungs-Innenrundschälschleifen beherrschen – Ermittlung der thermischen Werkstückbelastungen mittels FEM
- 2011
- A micro-sphere-based remodelling formulation for arterial tissue including residual stresses
- A one-dimensional computational model for the interaction of phase-transformations and plasticity
- Application of Polygonal Finite Elements to Two-Dimensional Mechanical and Electro-Mechanically Coupled Problems
- Electromechanics of polyurethane elastomers
- Electromechanics of polyurethane elastomers
- Experimental and computational investigation of machining processes for functionally graded materials
- Interaction of phase-transformations and plasticity – a multi-phase micro-sphere approach
- Micromechanical modelling of switching phenomena in polycrystalline piezoceramics: application of a polygonal finite element approach
- Modeling of electromechanical behavior of viscoelastic electrostrictive elastomers
- Simulation model for electromechanical behavior of polyurethane elastomers
- Thermodynamic and relaxation-based modeling of the interaction between martensitic phase transformations and plasticity
- Towards the simulation of grinding processes - a thermoplastic single grain approach
- 2010
- A computational micro-sphere model applied to the simulation of phase-transformations
- A micro-sphere approach applied to the modelling of phase-transformations
- A micro-sphere approach applied to the simulation of phase transformations interacting with plasticity
- A micromechanically motivated model for ferroelectrics combined with polygonal finite elements
- An anisotropic micro-sphere approach applied to the modelling of soft biological tissues
- Framework for deformation induced anisotropy in glassy
- On a micro-sphere based remodelling formulation for orthotropic soft biological tissue
- On the modelling of electro-viscoelastic response of electrostrictive polyurethane elastomers
- 2009
- A constitutive model for glassy polymers based on a chain orientation distribution function
- A microsphere-based remodelling formulation for anisotropic biological tissues
- Anisotropic micro-sphere-based finite elasticity applied to blood vessel modelling
- Enhanced Micromechanical Modelling of Martensitic Phase-Transitions Considering Plastic Deformations
- Modeling of Rate-Dependent Electrostrictive Polyurethane Elastomers
- On constitutive and configurational aspects of models for gradient continua with microstructure
- On constitutive and configurational aspects of models for gradient continua with microstructure
- On the use of non-linear transformations for the evaluation of anisotropic rotationally symmetric directional integrals. Application to the stress analysis in fibred soft tissues
- Two configurational approaches on the modelling of continuum dislocation inelasticity
- 2008
- A consistent time FE-method for large strain elasto-plasto-dynamics
- Aspects of bifurcation in an isotropic elastic continuum with orthotropic inelastic interface
- Galerkin-based mechanical integrators for finite elastodynamics formulated in principal stretches - pitfalls and remedies
- Investigation of microcracks in ferroelectric materials by application of a grain--boundary--motivated cohesive law
- Nonlinear piezoelectric effects - towards physics-based computational modelling of micro-cracking, fatigue, and switching
- On the simulation of cohesive fatigue effects in grain boundaries of a piezoelectric mesostructure
- Towards an orientation-distribution-based multi-scale approach for remodelling biological tissues
- Towards the computational homogenization of discrete microstructures
- Two models to simulate rate-dependent domain switching effects - application to ferroelastic polycrystalline ceramics
- 2007
- Computational modelling of interfacial fatigue effects in grain boundaries of functional ceramics
- Numerical investigations on cohesive-type fatigue in Grain Boundaries of ferroelectric ceramics
- On a computational orientation-distribution-function-based remodelling framework
- Towards a multi-scale approach for remodelling biological tissues
- Variational issues in the homogenization of discrete systems
