Publikationen
- 2013
- B. Stier, J. W. Simon and S. Reese, "Experimental and numerical investigation of woven carbon fiber reinforced plastics" in Proceedings of the Composites Week @ Leuven and TexComp-11 Conference, Sep. 2013.
- J. W. Simon and D. Weichert, "Interior-point method for lower bound shakedown analysis of von Mises-type materials" in Proceedings of the Limit State of Materials and Structures: Direct Methods 2, 2013, pp. 103-128.
- B. Stier, J. W. Simon and S. Reese, "Meso-mechanical investigation of woven carbon fiber reinforced plastics" in Proceedings of the International Conference on Composite Materials 2013: (ICCM-19), Jul. 2013, pp. 6229-6236.
- J. W. Simon, B. Stier and S. Reese, "Multiscale Modeling of Layered Fiber Composites Accounting for Delamination" in Proceedings of the 8th German-Greek-Polish Symposium Recent advances in mechanics; book of abstracts, 2013, pp. 71-72.
- J. W. Simon, "On the restrictions of kinematical hardening laws in lower bound shakedown analysis" in Proceedings of the EUROMECH - Colloquium 548, Amboise, France, Jun. 2013.
- J. W. Simon, B. Stier and S. Reese, "Predicting the onset of delamination in layered fiber-reinforced composites", Proceedings in Applied Mathematics and Mechanics, vol. 13, pp. 177-178, 2013.
- 2012
- J. W. Simon, B. Stier and S. Reese, "A solid-shell finite element for fibre reinforced composites", Proceedings in Applied Mathematics and Mechanics, vol. 12, no. 1, pp. 329-330, 2012.
- J. Wimmer and S. Reese, "Applying the Solid-shell Concept to Sandwich Structures" in Proceedings of the ECCM15 - 15th European Conference on Composite Materials, Sep. 2012, pp. I.
- J. W. Simon, B. Stier and S. Reese, "Applying the solid-shell concept to thin fibre composite structures" in Proceedings of the IASS IACM 2012: 7th International Conference on Computational Mechanics for Spatial Structures, Apr. 2012, pp. 336-337.
- J. W. Simon, B. Stier and S. Reese, "Determination of the initiation of delamination in fiber composites" in Computational Mechanics 2012 Proceedings: 10th World Congress on Computational Mechanics; WCCM 2012, Sao Paulo, Jul. 2012, pp. Paper 18367, 15 S..
- J. W. Simon, B. Stier and S. Reese, "Evaluating fibre composite structures using the solid-shell concept" in Proceedings of the First ECCOMAS Young Investigators Conference on Computational Methods in Applied Sciences, YIC2012, Apr. 2012.
- J. W. Simon, B. Stier and S. Reese, "Numerical analysis of the initiation of delamination in fibre composites" in Proceedings of the 11th International Conference on Computational Structures Technology, CST2012, Sep. 2012, pp. Paper 46, 1-18.
- J. W. Simon, M. Chen and D. Weichert, "Shakedown Analysis Combined with the Problem of Heat Conduction", Journal of Pressure Vessel Technology, vol. 134, no. 2, pp. 02120, 2012.
- J. W. Simon, "Shakedown analysis in n-dimensional loading spaces with kinematical hardening" in Proceedings of the 11th International Conference on Computational Structures Technology, CST2012, Dubrovnik (Croatia), Sep. 2012, pp. Paper 269, 1-20.
- J. W. Simon and D. Weichert, "Shakedown analysis of engineering structures with limited kinematical hardening", International Journal of Solids and Structures, vol. 49, no. 15/16, pp. 2177-2186, 2012.
- B. Stier, J. W. Simon and S. Reese, "Solid-shell concept applied to thin fibre composite structures" in Composites at Venice: Proceedings of the 15th European Conference on Composite Materials, ECCM 15, Jun. 2012, pp. Paper 71, 1-8.
- J. Wimmer and S. Reese, "Solid-shell finite elements for tesselated geometries" in Proceedings in Applied Mathematics and Mechanics, 2012, pp. 225-226.
- 2011
- J. W. Simon and D. Weichert, "Shakedown analysis with multidimensional loading spaces", Computational Mechanics, vol. 49, no. 4, pp. 477-485, 2011.
- 2010
- H. Schmid, P. N. Watton, M. M. Maurer, J. Wimmer, P. Winkler, Y. K. Wang, O. Röhrle and M. Itskov, "Impact of transmural heterogeneities on arterial adaptation", Biomechanics and Modeling in Mechanobiology, vol. 9, pp. 295-315, 2010.
zuletzt bearbeitet am: 16.02.2023