2013T. WaffenschmidtModelling and simulation of adaptation and degradation in anisotropic biological tissuesInstitut für Mechanik, 2013
2017B. Kiefer, T. Waffenschmidt, L. Sprave and A. MenzelA gradient-enhanced damage model coupled to plasticity—multi-surface formulation and algorithmic conceptsInternational Journal of Damage Mechanics, International Journal of Damage Mechanics, doi:10.1177/1056789516676306, 2017C. Polindara, T. Waffenschmidt and A. MenzelA computational framework for modelling damage-induced softening in fibre-reinforced materials – Application to balloon angioplastyInternational Journal of Solids and Structures, 118-119, 235-256, 2017 2016C. Polindara, T. Waffenschmidt and A. MenzelSimulation of balloon angioplasty in residually stressed blood vessels-Application of a gradient-enhanced fibre damage model.Journal of Biomechanics, 49, 12, 2341-2348, 2016T. Waffenschmidt, M. Cilla, P. Sáez, M. Pérez, M. Martínez, A. Menzel and E. PeñaTowards the modelling of ageing and atherosclerosis effects in ApoE(-/-) mice aortic tissue.Journal of Biomechanics, 49, 12, 2390-2397, 2016 2015T. Waffenschmidt, C. Polindara and A. MenzelA Gradient-Enhanced Continuum Damage Model for Residually Stressed Fibre-Reinforced Materials at Finite StrainsBiomedical Technology, 74, 19-40, 2015 2014T. Waffenschmidt and A. MenzelExtremal states of energy of a double-layered thick-walled tube – Application to residually stressed arteriesJ Mech Behav Biomed Mater, Journal of the Mechanical Behavior of Biomedical Materials, 29, 635-654, 2014T. Waffenschmidt, C. Polindara, A. Menzel and S. BlancoA gradient-enhanced large-deformation continuum damage model for fibre-reinforced materialsComputer Methods in Applied Mechanics and Engineering, 268, 801-842, 2014 2012T. Waffenschmidt, A. Menzel and E. KuhlAnisotropic density growth of bone—A computational micro-sphere approachInternational Journal of Solids and Structures, 49, 14, 1928-1946, 2012T. Waffenschmidt and A. MenzelApplication of an anisotropic growth and remodelling formulation to computational structural designMechanics Research Communications, 42, 77-86, 2012 2009A. Menzel and T. WaffenschmidtA microsphere-based remodelling formulation for anisotropic biological tissuesPhilos Trans A Math Phys Eng Sci, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 367, 1902, 3499-3523, 2009
2016B. Kiefer, T. Waffenschmidt, L. Sprave and A. MenzelA Comparison of Algorithmic Approaches to Damage-Plasticity Modeling in the Context of Gradient-EnhancementPAMM, 16, 1, 147-148, 2016 2014T. Waffenschmidt, C. Polindara and A. MenzelA gradient-enhanced continuum damage model for fibre-reinforced materials at finite strainsPAMM, 14, 1, 153-154, 2014 2012T. Waffenschmidt and A. MenzelApplication of an anisotropic growth formulation to computational structural designPAMM, 12, 1, 285-286, 2012 2011T. Waffenschmidt and A. MenzelA micro-sphere-based remodelling formulation for arterial tissue including residual stressesPAMM, 11, 1, 131-132, 2011 2010A. Menzel, T. Waffenschmidt and V. AlastruéAn anisotropic micro-sphere approach applied to the modelling of soft biological tissuesIn: G. Kreiss et al. (eds.), Numerical Mathematics and Advanced Applications, 2, 637-644, 2010T. Waffenschmidt and A. MenzelOn a micro-sphere based remodelling formulation for orthotropic soft biological tissuePAMM, 10, 1, 747-748, 2010 2009T. Waffenschmidt and A. MenzelA micro-sphere-based remodelling formulation for anisotropic biological tissuesPAMM, 9, 1, 151-152, 2009A. Menzel and T. WaffenschmidtRemodelling of anisotropic biological tissues. A computational micro-sphere approachProceedings of the International Conference on Computational Plasticity COMPLAS X, 2009A. Menzel and T. WaffenschmidtRemodelling of anisotropic soft biological tissues. A computational micro-sphere approachX International Conference on Computational Plasticity, 2009
