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paul steinmann
paul steinmann
professor of mechanical engineering, university of erlangen-nuremberg, germany
Adresă de e-mail confirmată pe ltm.uni-erlangen.de
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Mechanical properties of gray and white matter brain tissue by indentation
S Budday, R Nay, R De Rooij, P Steinmann, T Wyrobek, TC Ovaert, ...
Journal of the mechanical behavior of biomedical materials 46, 318-330, 2015
6722015
Mechanical characterization of human brain tissue
S Budday, G Sommer, C Birkl, C Langkammer, J Haybaeck, J Kohnert, ...
Acta biomaterialia 48, 319-340, 2017
5422017
Hyperelastic models for rubber-like materials: consistent tangent operators and suitability for Treloar’s data
P Steinmann, M Hossain, G Possart
Archive of Applied Mechanics 82, 1183-1217, 2012
4192012
Fifty shades of brain: a review on the mechanical testing and modeling of brain tissue
S Budday, TC Ovaert, GA Holzapfel, P Steinmann, E Kuhl
Archives of Computational Methods in Engineering 27, 1187-1230, 2020
3432020
Physical biology of human brain development
S Budday, P Steinmann, E Kuhl
Frontiers in cellular neuroscience 9, 257, 2015
3422015
A finite element method for the computational modelling of cohesive cracks
J Mergheim, E Kuhl, P Steinmann
International Journal for Numerical Methods in Engineering 63 (2), 276-289, 2005
3062005
The role of mechanics during brain development
S Budday, P Steinmann, E Kuhl
Journal of the Mechanics and Physics of Solids 72, 75-92, 2014
2562014
Application of material forces to hyperelastostatic fracture mechanics. I. Continuum mechanical setting
P Steinmann
International Journal of Solids and Structures 37 (48-50), 7371-7391, 2000
2532000
Numerical modelling of non‐linear electroelasticity
DK Vu, P Steinmann, G Possart
International Journal for Numerical Methods in Engineering 70 (6), 685-704, 2007
2472007
Brain stiffness increases with myelin content
J Weickenmeier, R de Rooij, S Budday, P Steinmann, TC Ovaert, E Kuhl
Acta biomaterialia 42, 265-272, 2016
2462016
Application of material forces to hyperelastostatic fracture mechanics. II. Computational setting
P Steinmann, D Ackermann, FJ Barth
International Journal of Solids and Structures 38 (32-33), 5509-5526, 2001
2312001
Aspects of computational homogenization at finite deformations: a unifying review from Reuss' to Voigt's bound
S Saeb, P Steinmann, A Javili
Applied Mechanics Reviews 68 (5), 050801, 2016
2212016
A micropolar theory of finite deformation and finite rotation multiplicative elastoplasticity
P Steinmann
International Journal of Solids and Structures 31 (8), 1063-1084, 1994
2191994
On the continuum formulation of higher gradient plasticity for single and polycrystals
A Menzel, P Steinmann
Journal of the Mechanics and Physics of Solids 48 (8), 1777-1796, 2000
2142000
Thermomechanics of solids with lower-dimensional energetics: on the importance of surface, interface, and curve structures at the nanoscale. A unifying review
A Javili, A McBride, P Steinmann
Applied Mechanics Reviews 65 (1), 010802, 2013
2112013
Frame‐indifferent beam finite elements based upon the geometrically exact beam theory
P Betsch, P Steinmann
International journal for numerical methods in engineering 54 (12), 1775-1788, 2002
2112002
Geometrically nonlinear higher-gradient elasticity with energetic boundaries
A Javili, F Dell'Isola, P Steinmann
Journal of the Mechanics and Physics of Solids 61 (12), 2381-2401, 2013
1972013
Views on multiplicative elastoplasticity and the continuum theory of dislocations
P Steinmann
International Journal of Engineering Science 34 (15), 1717-1735, 1996
1961996
Computational modelling of isotropic multiplicative growth
G Himpel, E Kuhl, A Menzel, P Steinmann
Comp Mod Eng Sci 8, 119-134, 2005
1812005
On higher gradients in continuum-atomistic modelling
R Sunyk, P Steinmann
International Journal of Solids and Structures 40 (24), 6877-6896, 2003
1772003
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