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Publikationen

 

[1] Romana Piat, Felix Fritzen, Martin Roser, and Eckard Schnack. Numerische Modellierung des Rissfortschritts in porösen CVI-CFC Verbundwerkstoffen. MP Materialprüfung, 49(4):170-176, 2007.
[2] Felix Fritzen, Thomas Böhlke, and Eckard Schnack. Modeling of latent energy storage effects in thermoplasticity of metals. PAMM, 7:4080017-4080018, 2007. [ DOI ]
[3] Katja Jöchen, Thomas Böhlke, and Felix Fritzen. On estimates for the effective shear modulus of cubic crystal aggregates. PAMM, 8:10551-10552, 2008. [ DOI ]
[4] Felix Fritzen, Thomas Böhlke, and Eckard Schnack. Periodic three-dimensional mesh generation for crystalline aggregates based on Voronoi tessellations. PAMM, 8(4):10545-10546, 2008. [ DOI ]
[5] Felix Fritzen, Thomas Böhlke, and Eckard Schnack. Periodic three-dimensional mesh generation for crystalline aggregates based on Voronoi tessellations. Computational Mechanics, 43(5):701-713, 2009. [ DOI ]
[6] Felix Fritzen and Thomas Böhlke. Homogenization of the physically nonlinear properties of three-dimensional metal matrix composites using the nonuniform transformation field analysis. Proceedings of the 17th International Conference on Composite Materials, Edinburgh, UK, 2009.
[7] Felix Fritzen and Thomas Böhlke. Analytical inversion of the Jacobian for a class of generalized standard materials. PAMM, 9(1):407-408, 2009. [ DOI ]
[8] Felix Fritzen and Thomas Böhlke. Homogenization Of Three-Dimensional Micro-Heterogeneous Materials Using Nonuniform Transformation Fields. Proceedings of 7th EUROMECH Solid Mechanics Conference, Lisbon, Portugal, 2009.
[9] Thomas Böhlke, Felix Fritzen, Katja Jöchen, and Rumena Tsotsova. Numerical methods for the quantification of the mechanical properties of crystal aggregates with morphologic and crystallographic texture. International Journal for Material Forming, 2:915-917, 2009. [ DOI ]
[10] Katja Jöchen, Thomas Böhlke, and Felix Fritzen. Influence of the crystallographic and the morphological texture on the elastic properties of fcc crystal aggregates. Solid State Phenomena, 160:83-86, 2010. [ DOI ]
[11] Felix Fritzen and Thomas Böhlke. Three-dimensional finite element implementation of the nonuniform transformation field analysis. International Journal for Numerical Methods in Engineering, 84(7):803-829, 2010. [ DOI ]
[12] Felix Fritzen and Thomas Böhlke. Influence of the type of boundary conditions on the numerical properties of unit cell problems. Technische Mechanik, 30(4):354-363, 2010.
[13] Barthel Brylka, Felix Fritzen, Thomas Böhlke, and Kay Weidenmann. Study of Experimental Methods for Interface Problems Based on Virtual Testing. PAMM, 10(1):109-110, 2010. [ DOI ]
[14] Johannes Wippler, Stefan Fünfschilling, Felix Fritzen, Thomas Böhlke, and Michael J. Hoffmann. Homogenization of the thermoelastic properties of silicon nitride. Acta Materialia, 59(15):6029-6038, 2011. [ DOI ]
[15] Felix Fritzen and Thomas Böhlke. Nonlinear homogenization using the nonuniform transformation field analysis. PAMM, 11(1):519-522, 2011. [ DOI ]
[16] Felix Fritzen and Thomas Böhlke. Homogenized elasto-plastic response of high volume fraction metal ceramic composites based on nonuniform transformation fields, pages 606-615. Schriftenreihe Werkstoffe und werkstofftechnische Anwendungen. Bernhard Wielage, 2011.
[17] Felix Fritzen and Thomas Böhlke. Nonuniform transformation field analysis of materials with morphological anisotropy. Composites Science and Technology, 71(4):433-442, 2011. [ DOI ]
[18] Felix Fritzen and Thomas Böhlke. Periodic three-dimensional mesh generation for particle reinforced composites with application to metal matrix composites. International Journal of Solids and Structures, 48(5):706-718, 2011. [ DOI ]
[19] Felix Fritzen. Microstructural modeling and computational homogenization of the physically linear and nonlinear constitutive behavior of micro-heterogeneous materials. Schriftenreihe Kontinuumsmechanik im Maschinenbau, Band 1. KIT Scientific Publishing, Karlsruhe, 2011.
[20] Barthel Brylka, Felix Fritzen, Thomas Böhlke, and Kay Weidenmann. Influence of micro-structure on fibre push-out tests. PAMM, 11(1):141-142, 2011. [ DOI ]
[21] Felix Fritzen, Samuel Forest, Thomas Böhlke, Djimedo Kondo, and Toufik Kanit. Computational homogenization of elasto-plastic porous metals. International Journal of Plasticity, 29:102-119, 2012. [ DOI ]
[22] Felix Fritzen and Matthias Leuschner. Reduced basis hybrid computational homogenization based on a mixed incremental formulation. Computer Methods in Applied Mechanics and Engineering, 260:143-154, 2013. [ DOI ]
[23] Felix Fritzen, Samuel Forest, Djimedo Kondo, and Thomas Böhlke. Computational homogenization of porous materials of Green type. Computational Mechanics, 52(1):121-134, 2013. [ DOI ]
[24] Felix Fritzen and Thomas Böhlke. Reduced basis homogenization of viscoelastic composites. Composites Science and Technology, 76(4):84-91, 2013. [ DOI ]
[25] Felix Fritzen and Dennis Kochmann. Material instability-induced extreme damping in composites: a computational study. International Journal of Solids and Structures, 51(23-24):4101-4112, 2014. [ DOI ]
[26] Felix Fritzen, Max Hodapp, and Matthias Leuschner. GPU accelerated computational homogenization based on a variational approach in a reduced basis framework. Computer Methods in Applied Mechanics and Engineering, 278:186-217, 2014. [ DOI ]
[27] Matthias Leuschner, Felix Fritzen, J.A.W. van Dommelen, and J.P.M. Hoefnagels. Potential-based constitutive models for cohesive interfaces: Theory, implementation and examples. Composites Part B: Engineering, 68:38-50, 2015. [ DOI ]
[28] Felix Fritzen, Sonia Marfia, and Valentina Sepe. Reduced order modeling in nonlinear homogenization: A comparative study. Computers & Structures, 157:114-131, 2015. [ DOI ]
[29] Felix Fritzen and Matthias Leuschner. Nonlinear reduced order homogenization of materials including cohesive interfaces. Computational Mechanics, 56(1):131-151, 2015. [ DOI ]
[30] Liang Xia, Felix Fritzen, and Piotr Breitkopf. Evolutionary topology optimization of elastoplastic structures. Structural and Multidisciplinary Optimization (accepted), -:-, 2016.
[31] Felix Fritzen, Liang Xia, Matthias Leuschner, and Piotr Breitkopf. Topology optimization of multiscale elastoviscoplastic structures. International Journal for Numerical Methods in Engineering, 106(6):430-453, 2016. [ DOI ]
[32] Felix Fritzen and Oliver Kunc. Homogenization of hyper-elastic solids using data-driven homogenization and reduced order modeling. in preparation, -(-):-, 2016.
[33] Felix Fritzen and Max Hodapp. The Finite Element Square Reduced (FE2R) method with GPU acceleration: towards three-dimensional two-scale simulations. International Journal for Numerical Methods in Engineering, 107(10):853-881, 2016. [ DOI ]
[34] Felix Fritzen, Bernard Haasdonk, Sebastian Schöps, and David Ryckelynck. An algorithmic comparison of the hyper-reduction and the discrete empirical interpolation method for a nonlinear thermal problem. ZAMM (preprint via http://arxiv.org/abs/1610.05029), -(-):1 - 19, 2016. Submitted; arXiv: http://arxiv.org/abs/1610.05029. [ http ]
[35] Matthias Leuschner and Felix Fritzen. Reduced order homogenization for viscoplastic composite materials including dissipative imperfect interfaces. Mechanics of Materials, 104:121-138, 2017. [ DOI | http ]