Thomas Hochrainer
Thomas Hochrainer
Professor für Festigkeitslehre, TU Graz
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Cited by
Cited by
DAMASK–The Düsseldorf Advanced Material Simulation Kit for modeling multi-physics crystal plasticity, thermal, and damage phenomena from the single crystal up to the component …
F Roters, M Diehl, P Shanthraj, P Eisenlohr, C Reuber, SL Wong, T Maiti, ...
Computational Materials Science 158, 420-478, 2019
A three-dimensional continuum theory of dislocation systems: kinematics and mean-field formulation
T Hochrainer, M Zaiser, P Gumbsch
Philosophical Magazine 87 (8-9), 1261-1282, 2007
Continuum dislocation dynamics: towards a physical theory of crystal plasticity
T Hochrainer, S Sandfeld, M Zaiser, P Gumbsch
Journal of the Mechanics and Physics of Solids 63, 167-178, 2014
Continuum modeling of dislocation plasticity: Theory, numerical implementation, and validation by discrete dislocation simulations
S Sandfeld, T Hochrainer, M Zaiser, P Gumbsch
Journal of Materials Research 26 (5), 623-632, 2011
Numerical implementation of a 3D continuum theory of dislocation dynamics and application to micro-bending
S Sandfeld, T Hochrainer, P Gumbsch, M Zaiser
Philosophical Magazine 90 (27-28), 3697-3728, 2010
Thermodynamically consistent continuum dislocation dynamics
T Hochrainer
Journal of the Mechanics and Physics of Solids 88, 12-22, 2016
Multipole expansion of continuum dislocations dynamics in terms of alignment tensors
T Hochrainer
Philosophical Magazine 95 (12), 1321-1367, 2015
Some steps towards a continuum representation of 3d dislocation systems
M Zaiser, T Hochrainer
Scripta materialia 54 (5), 717-721, 2006
Dislocation multiplication by cross-slip and glissile reaction in a dislocation based continuum formulation of crystal plasticity
M Sudmanns, M Stricker, D Weygand, T Hochrainer, K Schulz
Journal of the Mechanics and Physics of Solids 132, 103695, 2019
Investigation of size-effects in machining with geometrically defined cutting edges
M Weber, T Hochrainer, P Gumbsch, H Autenrieth, L Delonnoy, V Schulze, ...
Machining Science and Technology 11 (4), 447-473, 2007
2D-simulation of material flow during infeed rotary swaging using finite element method
E Moumi, S Ishkina, B Kuhfuss, T Hochrainer, A Struss, M Hunkel
Procedia Engineering 81, 2342-2347, 2014
Twinning Models in Self‐Consistent Texture Simulations of TWIP Steels
A Prakash, T Hochrainer, E Reisacher, H Riedel
Steel research international 79 (8), 645-652, 2008
Modelling size effects using 3D density-based dislocation dynamics
M Zaiser, N Nikitas, T Hochrainer, EC Aifantis
Philosophical Magazine 87 (8-9), 1283-1306, 2007
Dislocation multiplication in stage II deformation of fcc multi-slip single crystals
M Stricker, M Sudmanns, K Schulz, T Hochrainer, D Weygand
Journal of the Mechanics and Physics of Solids 119, 319-333, 2018
Instability of dislocation fluxes in a single slip: Deterministic and stochastic models of dislocation patterning
R Wu, D Tüzes, PD Ispánovity, I Groma, T Hochrainer, M Zaiser
Physical Review B 98 (5), 054110, 2018
Diffuse interface modeling of void growth in irradiated materials. Mathematical, thermodynamic and atomistic perspectives
A El-Azab, K Ahmed, S Rokkam, T Hochrainer
Current opinion in solid state and materials science 18 (2), 90-98, 2014
Evolving systems of curved dislocation: mathematical foundations of a statistical theroy
T Hochrainer
Shaker-Verlag GmbH, 2007
Comparison of texture evolution in fcc metals predicted by various grain cluster homogenization schemes
P Eisenlohr, DD Tjahjanto, T Hochrainer, F Roters, D Raabe
International journal of materials research 100 (4), 500-509, 2009
Multiscale simulation of plasticity in bcc metals
D Weygand, M Mrovec, T Hochrainer, P Gumbsch
Annual Review of Materials Research 45, 369-390, 2015
Asymptotic and uncertainty analyses of a phase field model for void formation under irradiation
N Wang, S Rokkam, T Hochrainer, M Pernice, A El-Azab
Computational materials science 89, 165-175, 2014
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