Jaan-Willem Simon
Jaan-Willem Simon
Prof. Dr.-Ing. habil., Institute of Applied Mechanics, RWTH Aachen University
Verified email at rwth-aachen.de
TitleCited byYear
Numerical lower bound shakedown analysis of engineering structures
JW Simon, D Weichert
Computer Methods in Applied Mechanics and Engineering 200 (41-44), 2828-2839, 2011
Meso-and micro-scale modeling of damage in plain weave composites
BA Bednarcyk, B Stier, JW Simon, S Reese, EJ Pineda
Composite Structures 121, 258-270, 2015
Shakedown analysis of engineering structures with limited kinematical hardening
JW Simon, D Weichert
International Journal of Solids and Structures 49 (15-16), 2177-2186, 2012
Direct evaluation of the limit states of engineering structures exhibiting limited, nonlinear kinematical hardening
JW Simon
International Journal of Plasticity 42, 141–167, 2013
Shakedown analysis with multidimensional loading spaces
JW Simon, D Weichert
Computational Mechanics 49 (4), 477-485, 2012
Comparing experimental results to a numerical meso-scale approach for woven fiber reinforced plastics
B Stier, JW Simon, S Reese
Composite Structures 122, 553-560, 2015
Finite element analysis of layered fiber composite structures accounting for the material’s microstructure and delamination
B Stier, JW Simon, S Reese
Applied Composite Materials 22 (2), 171-187, 2015
Meso-mechanically motivated modeling of layered fiber reinforced composites accounting for delamination
JW Simon, D H÷wer, B Stier, S Reese
Composite Structures 122, 477-487, 2015
A selective strategy for shakedown analysis of engineering structures
JW Simon, M Kreimeier, D Weichert
International Journal for Numerical Methods in Engineering 94, 985-1014, 2013
Shakedown analysis combined with the problem of heat conduction
JW Simon, M Chen, D Weichert
Journal of Pressure Vessel Technology 134 (2), 021206, 2012
Shakedown Analysis Combined with the Problem of Heat Conduction
JW Simon, M Chen, D Weichert
ASME 2010 Pressure Vessels and Piping Conference, Vol. 2, pp. 133-142, 2010
Computational homogenisation from a 3D finite element model of asphalt concrete—linear elastic computations
J Wimmer, B Stier, JW Simon, S Reese
Finite Elements in Analysis and Design 110, 43-57, 2016
Interior-Point Method for Lower Bound Shakedown Analysis of von Mises-Type Materials
JW Simon, D Weichert
Limit State of Materials and Structures - Direct Methods 2, 103-128, 2013
Anisotropic elastic-plastic deformation of paper: In-plane model
Y Li, SE Stapleton, S Reese, JW Simon
International Journal of Solids and Structures 100, 286-296, 2016
The effect of fiber misalignment on the homogenized properties of unidirectional fiber reinforced composites
Y Li, B Stier, B Bednarcyk, JW Simon, S Reese
Mechanics of Materials 92, 261-274, 2016
A regularized orthotropic continuum damage model for layered composites: intralaminar damage progression and delamination
JW Simon, D H÷wer, B Stier, S Reese, J Fish
Computational Mechanics 60 (3), 445-463, 2017
Displacement-based multiscale modeling of fiber-reinforced composites by means of proper orthogonal decomposition
A Radermacher, BA Bednarcyk, B Stier, J Simon, L Zhou, S Reese
Advanced Modeling and Simulation in Engineering Sciences 3 (1), 29, 2016
Numerical analysis of layered fiber composites accounting for the onset of delamination
JW Simon, B Stier, S Reese
Advances in Engineering Software 80, 4-11, 2015
Interior-point method for the computation of shakedown loads for engineering systems
JW Simon, D Weichert
ASME 2010 10th Biennial Conference on Engineering Systems Design andá…, 2010
Experimental and numerical study of paperboard interface properties
Y Li, SE Stapleton, JW Simon, S Reese
Experimental Mechanics 56 (8), 1477-1488, 2016
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