| A theory of finite viscoelasticity and numerical aspects S Reese, S Govindjee International journal of solids and structures 35 (26-27), 3455-3482, 1998 | 870 | 1998 |
| A note on enhanced strain methods for large deformations P Wriggers, S Reese Computer Methods in Applied Mechanics and Engineering 135 (3-4), 201-209, 1996 | 261 | 1996 |
| Model-free data-driven inelasticity R Eggersmann, T Kirchdoerfer, S Reese, L Stainier, M Ortiz Computer Methods in Applied Mechanics and Engineering 350, 81-99, 2019 | 238 | 2019 |
| On the theoretical and numerical modelling of Armstrong–Frederick kinematic hardening in the finite strain regime W Dettmer, S Reese Computer Methods in Applied Mechanics and Engineering 193 (1-2), 87-116, 2004 | 223 | 2004 |
| A new locking-free brick element technique for large deformation problems in elasticity S Reese, P Wriggers, BD Reddy Computers & Structures 75 (3), 291-304, 2000 | 222 | 2000 |
| A reduced integration solid‐shell finite element based on the EAS and the ANS concept—Geometrically linear problems M Schwarze, S Reese International Journal for Numerical Methods in Engineering 80 (10), 1322-1355, 2009 | 220 | 2009 |
| A reduced integration solid‐shell finite element based on the EAS and the ANS concept—Large deformation problems M Schwarze, S Reese International Journal for Numerical Methods in Engineering 85 (3), 289-329, 2011 | 219 | 2011 |
| Theoretical and numerical aspects in the thermo-viscoelastic material behaviour of rubber-like polymers S Reese, S Govindjee Mechanics of Time-Dependent Materials 1, 357-396, 1997 | 217 | 1997 |
| Finite deformation pseudo-elasticity of shape memory alloys–Constitutive modelling and finite element implementation S Reese, D Christ International Journal of Plasticity 24 (3), 455-482, 2008 | 210 | 2008 |
| A large deformation solid‐shell concept based on reduced integration with hourglass stabilization S Reese International Journal for Numerical Methods in Engineering 69 (8), 1671-1716, 2007 | 206 | 2007 |
| On the modelling of non‐linear kinematic hardening at finite strains with application to springback—Comparison of time integration algorithms IN Vladimirov, MP Pietryga, S Reese International Journal for Numerical Methods in Engineering 75 (1), 1-28, 2008 | 186 | 2008 |
| Anisotropic finite elastoplasticity with nonlinear kinematic and isotropic hardening and application to sheet metal forming IN Vladimirov, MP Pietryga, S Reese International Journal of Plasticity 26 (5), 659-687, 2010 | 183 | 2010 |
| A stabilization technique to avoid hourglassing in finite elasticity S Reese, P Wriggers International Journal for Numerical Methods in Engineering 48 (1), 79-109, 2000 | 183 | 2000 |
| A presentation and comparison of two large deformation viscoelasticity models S Govindjee, S Reese | 156 | 1997 |
| A micromechanically motivated material model for the thermo-viscoelastic material behaviour of rubber-like polymers S Reese International Journal of Plasticity 19 (7), 909-940, 2003 | 153 | 2003 |
| Finite element modelling of orthotropic material behaviour in pneumatic membranes S Reese, T Raible, P Wriggers International journal of solids and structures 38 (52), 9525-9544, 2001 | 144 | 2001 |
| A new stabilization technique for finite elements in non‐linear elasticity S Reese, M Küssner, BD Reddy International Journal for Numerical Methods in Engineering 44 (11), 1617-1652, 1999 | 133 | 1999 |
| A finite element model for shape memory alloys considering thermomechanical couplings at large strains D Christ, S Reese International Journal of solids and Structures 46 (20), 3694-3709, 2009 | 127 | 2009 |
| On a physically stabilized one point finite element formulation for three-dimensional finite elasto-plasticity S Reese Computer Methods in Applied Mechanics and Engineering 194 (45-47), 4685-4715, 2005 | 127 | 2005 |
| Meso-macro modelling of fibre-reinforced rubber-like composites exhibiting large elastoplastic deformation S Reese International Journal of Solids and Structures 40 (4), 951-980, 2003 | 124 | 2003 |
Stephan WulfinghoffProfessor for Computational Materials Science, Institute for Materials Science, Kiel University在 tf.uni-kiel.de 的电子邮件经过验证
