IFL/Publikationen/Literatur
Christian Celigoj Ein hybrides 4-Knoten-Schalenelement unter Berücksichtigung der NormalenverzerrungEin hybrides 4-Knoten-Schalenelement unter Berücksichtigung der Normalenverzerrung1-13
Christian Celigoj Ein geometrisch nichtlineares finites Verzerrungs-Weggrößen-Schalenelement
Christian Celigoj A strain-and-displacement-based variational method applied to geometrically non-linear shells
Christian Celigoj An assumed enhanced displacement gradient ring-element for finite deformation axisymmetric and torsional problems
Christian Celigoj 'Generalized standard materials' and finite deformation coupled thermo-elastoviscoplasticity including damage
Christian Celigoj Finite deformation coupled thermomechanical problems and 'generalized standard materials'
Christian Celigoj On strong discontinuities in anelastic solids. A finite element approach taking a frame indifferent gradient of the discontinuous displacements
Christian Celigoj An improved 'assumed enhanced displacement gradient' ring-element for finite deformation axisymmetric and torsional problems
Christian Celigoj Finite strain thermoelasto-Thermoviscoplasticity formulated in F_vp_-1 (inverse viscoplastic deformation gradient), xi (accumulated viscoplastiv strain) and eta_vp (viscoplastic entropy) as internal variables
J. Kotschenreuther, L. Delonnoy, Thomas Hochrainer, J. Schmidt, J. Fleischer, V. Schulze, D. Löhe and P. Gumbsch Modelling, simulation and experimental tests for process scaling of processes with geometrically defined edge Modelling, simulation and experimental tests for process scaling of processes with geometrically defined edge 121-136
Christian Celigoj Thermomechanical homogenization analysis of axisymmetric solids at finite strains via numerical (forward Euler method) overall macro-tangent-moduli
J. Kotschenreuther, L. Delonnoy, Thomas Hochrainer, J. Schmidt, J. Fleischer, V. Schulze, D. Löhe and P. Gumbsch Influences of process scaling in metal cutting with geometrically defined cutting edges Influences of process scaling in metal cutting with geometrically defined cutting edges 173-174
Thomas Hochrainer A continuum theory of dislocation motion A continuum theory of dislocation motion 210-212
Manfred Hannes Ulz Vibration Control of Plate- like Structures using Cut- Outs
Christian Celigoj An augmented Lagrange multiplier approach to continuum multislip single crystal thermo-elasto-viscoplasticity
M. Klemenz, Thomas Hochrainer, L. Delonnoy, V. Schulze, O. Vöhringer and P. Gumbsch Similarity Rules for the Shot Peening Process Based on Finite Element Simulations Similarity Rules for the Shot Peening Process Based on Finite Element Simulations 94-99
J. Kotschenreuther, L. Delonnoy, Thomas Hochrainer, M. Weber, J. Schmidt, J. Fleischer, V. Schulze, D. Löhe and P. Gumbsch Modellierung und experimentelle Untersuchungen von Grösseneffekten beim Stirndrehen von 90MnCrV8 in vergütetem Zustand Modellierung und experimentelle Untersuchungen von Grösseneffekten beim Stirndrehen von 90MnCrV8 in vergütetem Zustand 219-240
Thomas Hochrainer, L. Delonnoy, J. Kotschenreuther, V. Schulze, D. Löhe, P. Gumbsch and J. Fleischer An integrated approach to the modeling of size-effects in machining with geometrically defined cutting edges An integrated approach to the modeling of size-effects in machining with geometrically defined cutting edges 123-130
Lionel Delonnoy, Thomas Hochrainer, Volker Schulze, Detlef Löhe and Peter Gumbsch Similarity considerations on the simulation of turning processes of steels
Manfred Hannes Ulz and S. Eren Semercigil Passive Control of a Rectangular Plate using Strategic Cut-Outs Passive Control of a Rectangular Plate using Strategic Cut-Outs
Thomas Hochrainer and M. Zaiser Fundamentals of a continuum theory of dislocations Fundamentals of a continuum theory of dislocations
J. Kotschenreuther, J. Fleischer, L. Delonnoy, V. Schulze, D. Löhe, T. Hochrainer, M. Weber and P. Gumbsch Modeling and experimental analyses of size effects in turning of quenched and tempered AISI O2 Modeling and experimental analyses of size effects in turning of quenched and tempered AISI O2 156-159
Michael Zaiser and Thomas Hochrainer Some steps towards a continuum representation of 3D dislocation systems
Michael Hammer h-adaptives Verfahren für ebene finite Elemente basierend auf dem Fehlerschätzer nach Zienkiewicz und Zhu
Christian Celigoj and Peter Außerlechner A total ALE FE formulation for axisymmetric and torsional problems (including viscoplasticity, thermodynamic coupling and dynamics)
Ferenc F. Csikor, István Groma, Thomas Hochrainer, D. Weygand and Michael Zaiser On the range of 3D dislocations pair correlations On the range of 3D dislocations pair correlations 271-276
A. Prakash, Thomas Hochrainer, H. Riedel, D. Helm and Eduard Reisacher Twinning models in selfconsistent simulations of TWIP Steels Twinning models in selfconsistent simulations of TWIP Steels 355-361
Thomas Hochrainer Evolving systems of curved dislocation: mathematical foundations of a statistical theroy
M. Zaiser, N. Nikitas, T. Hochrainer and E. C. Aifantis Modelling size effects using 3D density-based dislocation dynamics
T. Hochrainer, M. Zaiser and P. Gumbsch A three-dimensional continuum theory of dislocation systems
M. Weber, T. Hochrainer, P. Gumbsch, H. Autenrieth, L. Delonnoy, V. Schulze, D. Löhe, J. Kotschenreuther and J. Fleischer Investigation of size-effects in machining with geometrically defined cutting edges
Christian Celigoj Thermomechanical homogenization analysis of axisymmetric inelastic solids at finite strains based on an incremental minimization principle
Thomas Hochrainer, P. Gumbsch and M. Zaiser A Non-Linear Multiple Slip Theory in Continuum Dislocation Dynamics A Non-Linear Multiple Slip Theory in Continuum Dislocation Dynamics 115-118
D. Helm, Thomas Hochrainer and A. Prakash Modellierung und Simulation höher- und höchstfester Stähle
Aruna Prakash, Thomas Hochrainer, Eduard Reisacher and Hermann Riedel Twinning models in self-consistent texture simulations of TWIP steels
Manfred Hannes Ulz and S. Eren Semercigil Vibration control for plate-like structures using strategic cut-outs
Christian Celigoj The buckling of carbon nanotubes under axial compression
Manfred Hannes Ulz A Green-Naghdi approach to finite anisotropic rate-independent and rate-dependent thermo-plasticity in logarithmic Lagrangean strain-entropy space
Manfred Hannes Ulz A Green-Naghdi approach to finite anisotropic rate-independent and rate-dependent thermo-plasticity in logarithmic Lagrangean strain-entropy space
H. Autenrieth, L. Delonnoy, M. Weber, Thomas Hochrainer, M. Deuchert, J. Kotschenreuther, V. Schulze and P. Gumbsch Experimentelle und numerische Untersuchung von Größeneffekten bei der Skalierung des Mikrozerspanprozesses Experimentelle und numerische Untersuchung von Größeneffekten bei der Skalierung des Mikrozerspanprozesses 415-467
S. Sandfeld, M. Zaiser and T. Hochrainer Expansion of Quasi-discrete dislocation loops in the context of a 3D continuum theory of curved dislocations Expansion of Quasi-discrete dislocation loops in the context of a 3D continuum theory of curved dislocations 1148-1151
T. Hochrainer, M. Zaiser and P. Gumbsch Dislocation transport and line length increase in averaged descriptions of dislocations Dislocation transport and line length increase in averaged descriptions of dislocations 1133-1136
P. Eisenlohr, D. D. Tjahjanto, Thomas Hochrainer, F. Roters and D. Raabe Texture prediction from a novel grain cluster-based homogenization scheme
P. Eisenlohr, D.D. Tjahjanto, Thomas Hochrainer, F. Roters and D. Raabe Comparison of texture evolution in fcc metals predicted by various grain cluster homogenization schemes
Manfred Hannes Ulz A formulation of additive finite anisotropic thermo-plasticity in logarithmic lagrangean strain-entropy space
Stefan Sandfeld, Thomas Hochrainer and Michael Zaiser Application of a 3d-continuum theory of dislocations to a problem of constrained plastic flow Application of a 3d-continuum theory of dislocations to a problem of constrained plastic flow 143-148
S. Sandfeld, Thomas Hochrainer, P. Gumbsch and M. Zaiser Numerical implementation of a 3D continuum theory of dislocation dynamics and application to micro-bending
Stefan Hollerer Buckling analysis of carbon nanotubes
Michael Hammer Mortar-Based Contact Formulation for Large Deformations
Stefan Sandfeld and Thomas Hochrainer Towards Frank-Read sources in the continuum dislocation dynamics theory Towards Frank-Read sources in the continuum dislocation dynamics theory 1531-1534
P. Gumbsch, S. Sandfeld, J. Senger, D. Weygand and T. Hochrainer Continuum modeling of dislocation plasticity Continuum modeling of dislocation plasticity 7-15
S. Sandfeld, Thomas Hochrainer, P. Gumbsch and M. Zaiser Continuum modeling of dislocation plasticity: theory, numerical implementation and validation by discrete dislocation simulations
Michael Hammer Structural contact problems for large deformations - Comparison of steady and non steady normal field
Manfred Hannes Ulz A finite isoclinic elasto-plasticity model with orthotropic yield function and notion of plastic spin
Stefan Hollerer Buckling analysis of carbon nanotubes - a molecular mechanics approach using the finite element framework
Manfred Hannes Ulz An isoclinic elasto-plasticity model at finite strains with the notion of plastic spin
Sean James Moran and Manfred Hannes Ulz Data-driven estimation of atomistic support for continuum stress using the Gaussian mixture model
Manfred Hannes Ulz, Kranthi Kiran Mandadapu and Panayiotis Papadopoulos On the atomistic definition of local stress in continuum mechanics
Michael Hammer Non-Regularized Frictional Mortar Contact for Finite Deformation Problems - Synthetic Contact Kinematics Non-Regularized Frictional Mortar Contact for Finite Deformation Problems - Synthetic Contact Kinematics 1-2
Stefan Hollerer Buckling analysis of carbon nanotubes – a molecular statics investigation into the influence of non-bonded interactions
Manfred Hannes Ulz and Sean James Moran A Gaussian mixture modelling approach to the data-driven estimation of atomistic support for continuum stress
Sean James Moran and Manfred Hannes Ulz Data-driven estimation of atomistic support for continuum stress using the Gaussian mixture model
Michael Hammer Frictional mortar contact for finite deformation problems with synthetic contact kinematics
Manfred Hannes Ulz Invariance of Parrinello-Rahman molecular dynamics and its relation to continuum mechanics
Thomas Hochrainer Higher order alignment tensors for continuum dislocation dynamics Higher order alignment tensors for continuum dislocation dynamics 1-7
Thomas Hochrainer Moving dislocations in finite plasticity: a topological approach
Michael Hammer Frictional mortar contact for finite deformation problems with synthetic contact kinematics
Manfred Hannes Ulz Comments on a continuum-related Parrinello-Rahman molecular dynamics formulation
Walter Ochensberger, Christian Celigoj and Manfred Hannes Ulz Amendment to the Galin plane elasto-plastic solution
Stefan Hollerer and Christian Celigoj Buckling analysis of carbon nanotubes by a mixed atomistic and continuum model
Manfred Hannes Ulz, Kranthi Kiran Mandadapu and Panayiotis Papadopoulos On the estimation of spatial averaging volume for determining stress using atomistic methods
Manfred Hannes Ulz and Sean James Moran Optimal kernel shape and bandwidth for atomistic support of continuum stress
Manfred Hannes Ulz On a Deformation-Driven Continuum-Related Parrinello-Rahman Molecular Dynamics
Alireza Ebrahimi, Mehran Monavari and Thomas Hochrainer Numerical implementation of continuum dislocation dynamics with the discontinuous-Galerkin method
Thomas Hochrainer Continuum dislocation dynamics based on the second order alignment tensor
Eric Moumi, Svetlana Ishkina, Bernd Kuhfuss, Thomas Hochrainer, Adrian Struss and Martin Hunkel 2D-simulation of material flow during infeed rotary swaging using finite element method
A. El-Azab, K. Ahmed, S. Rokkam and Thomas Hochrainer Diffuse interface modeling of void growth in irradiated materials. Mathematical, thermodynamic and atomistic perspectives
Thomas Hochrainer, S. Sandfeld, M. Zaiser and P. Gumbsch Continuum dislocation dynamics: towards a physically theory of plasticity
N. Wang, S. Rokkam, Thomas Hochrainer, M. Pernice and A. El-Azab Asymptotic and uncertainty analyses of a phase field model for void formation under irradiation
Peter Loidolt, Manfred Hannes Ulz, Werner Mitter and Christof Sommitsch Beschreibung der Subkornmissorientierung in der Nähe von harten Teilchen von plastisch verformten Metallen
Peter Loidolt, Manfred Hannes Ulz, Werner Mitter and Christof Sommitsch Beschreibung der Subkornmissorientierung in der Nähe von harten Teilchen von plastisch verformten Metallen Beschreibung der Subkornmissorientierung in der Nähe von harten Teilchen von plastisch verformten Metallen 108-114
Stefan Hollerer Buckling Analysis of Carbon Nanotubes – Application of a concurrent atomistic-continuum multiscale approach
Manfred Hannes Ulz The heterogeneous multiscale method as a framework for coupling the finite element method and molecular dynamics
Stefan Hollerer Numerical validation of a concurrent atomistic-continuum multiscale method and its application to the buckling analysis of carbon nanotubes
Peter Loidolt, Manfred Hannes Ulz, Werner Mitter and Christof Sommitsch Beschreibung der Subkornmissorientierung in der Nähe von harten Teilchen von plastisch verformten Metallen
Peter Loidolt, Manfred Hannes Ulz, Werner Mitter and Christof Sommitsch Beschreibung der Subkornmissorientierung in der Nähe von harten Teilchen von plastisch verformten Metallen
Thomas Hochrainer, D. Weygand, M. Mrovec and P. Gumbsch Multiscale Simulation of Plasticity in bcc Metals
Thomas Hochrainer and A. El-Azab A sharp interface model for void growth in irradiated materials
Thomas Hochrainer Multipole expansion of continuum dislocation dynamics in terms of alignment tensors
Manfred Hannes Ulz and Patrick Wurm On the Use of Stochastic Approximation for Coupling the FEM and MD in Quasi-Static Isothermal Problems
Manfred Hannes Ulz Coupling the finite element method and molecular dynamics in the framework of the heterogeneous multiscale method for quasi-static isothermal problems
Manfred Hannes Ulz A Multiscale Molecular Dynamics Method for Isothermal Dynamic Problems using the Seamless Heterogeneous Multiscale Method
Thomas Hochrainer Relative Helicity and Jog Densities in Continuum Descriptions of Dislocations Relative Helicity and Jog Densities in Continuum Descriptions of Dislocations 1847-1852
Alireza Ebrahimi and Thomas Hochrainer Crysal Plasticity Finite Element Simulations based on Continuum Dislocation Dynamics Crysal Plasticity Finite Element Simulations based on Continuum Dislocation Dynamics 325-326
P. D. Krummich, P. Schneider and Thomas Hochrainer Experimental Validation of RVE Based Failure Simulations of Macro-Porous Materials Experimental Validation of RVE Based Failure Simulations of Macro-Porous Materials 365-366
Thomas Hochrainer Thermodynamically consistent continuum dislocation dynamics
Peter Loidolt, Manfred Hannes Ulz and Johannes Khinast Multi-particle finite element method of powder compaction
Patrick Wurm and Manfred Hannes Ulz Improving the convergence behavior of hierarchical atomistic-to-continuum multiscale models using stochastic approximation
Manfred Hannes Ulz Application of the string method to compute minimum energy paths for a chain of bi-stable elements using the finite element method and molecular dynamics
Thomas Ebner, Ulrich Hirn, Wolfgang Johann Fischer, Franz J. Schmied, Robert Schennach and Manfred Hannes Ulz A Proposed Failure Mechanism for Pulp Fiber-Fiber Joints
Patrick Wurm and Manfred Hannes Ulz A stochastic approximation approach to improve the convergence behavior of hierarchical atomistic-to-continuum multiscale models
Manfred Hannes Ulz Atomistic-on-continuum coupling with applications to spatial averaging of atomistic stress and hierarchical multiscale methods
Alireza Ebrahimi and Thomas Hochrainer Three-Dimensional Continuum Dislocation Dynamics Simulations of Dislocation Structure Evolution in Bending of a Micro-Beam Three-Dimensional Continuum Dislocation Dynamics Simulations of Dislocation Structure Evolution in Bending of a Micro-Beam 1791-1796
Thomas Hochrainer On the Derivation of Boundary Conditions for Continuum Dislocation Dynamics
Manfred Hannes Ulz, Thomas Ebner and Ulrich Hirn Failure mechanism for pulp inter-fibre joints