Denli F. A.; Gultekin, O.; Holzapfel, G.A.; Dal, H. [2020]: A phase-field model for fracture of unidirectional fiber-reinforced polymer matrix composites. Computational Mechanics, accepted
Gultekin, O.; Hager, S.P.; Dal, H., Holzapfel, G.A. [2019]: Computational modeling of progressive damage and rupture in fibrous biological tissues: application to aortic dissection. Biomechanics and Modeling in Mechanobiology 18, 1607-1628
Dal, H. [2019]: A quasi-incompressible and quasi-inextensible element formulation for transversely isotropic materials. International Journal for Numerical Methods in Engineering 117 (1), 118-140
Gultekin, O.; Dal, H.; Holzapfel, G.A. [2018]: On the quasi-incompressible finite element analysis of anisotropic hyperelastic materials Computational Mechanics 63, 443-453
Kandaz, M.; Dal, H.; [2018]: A comparative study of modified strain gradient theory and modified couple stress theory for gold microbeams. Archive of Applied Mechanics 88, 2051-2070
Dal, H.; Cansız, B.; Miehe, C. [2018]: A three‐scale compressible micro‐sphere model for hyperelastic materials. International Journal for Numerical Methods in Engineering 116 (6), 412-433
Nateghi, A.; Dal, H.; Keip,M.A.; Miehe, C. [2018]: An affine microsphere approach to modeling strain-induced crystallization in rubbery polymers. Continuum Mechanics and Thermodynamics 30, 485-507
Cansiz, B. ; Dal, H.; Kaliske, M. [2018]: Computational cardiology: the bidomain based Modified Hill model incorporating viscous effects for cardiac defibrillation. Computational Mechanics 62, 253-271.
Gultekin, O. ; Dal, H.; Holzapfel, G.A. [2018]: Numerical Aspects of Anisotropic Failure in Soft Biological Tissues Favor Energy-based Criteria: A Rate-dependent Anisotropic Crack Phase-field Model. Computer Methods in Applied Mechanics and Engineering 331, 23-52.
Dal, H.; Zopf, C.; Kaliske, M. [2018]: Micro-sphere based viscoplastic constitutive model for uncured green rubber. International Journal of Solids and Structures 132-133, 201-217
Dal, H. [2017]: Analysis of Gold Micro-beams with Modified Strain Gradient Theory. Anadolu University Journal of Science and Technology A – Applied Sciences and Engineering 18, 663–681
Cansiz, B. ; Dal, H.; Kaliske, M. [2017]: Computational cardiology: A modified Hill model to describe the electro-visco-elasticity of the myocardium. Computer Methods in Applied Mechanics and Engineering 315, 434–466.
Gultekin, O. ; Dal, H.; Holzapfel, G.A. [2016]: A phase-field approach to model fracture of arterial walls: Theory and finite element analysis. Computer Methods in Applied Mechanics and Engineering 312, 542–566.
Miehe, C. ; Dal, H.; Schaenzel, L.M. ; Raina, A. [2016]: A phase-field model for chemomechanical induced fracture in lithium-ion battery electrode particles. International Journal for Numerical Methods in Engineering 106,683–711
Dal, H.; Miehe, C. [2015]: Computational electro-chemo-mechanics of lithium-ion battery electrodes at finite strains. Computational Mechanics 55, 303–325.
Can Cansız, F. B.; Dal, H.; Kaliske, M. [2015]: An orthotropic viscoelastic material model for passive myocardium: Theory and algorithmic treatment. Computer Methods in Biomechanics and Biomedical Engineering 18, 1160–1172.
Dal, H.; Goktepe, S.; Kaliske, M.; Kuhl, E. [2013]: A fully implicit finite element method for bidomain models of cardiac electromechanics. Computer Methods in Applied Mechanics and Engineering 253, 323–336.
Fleischauer, R.; Dal, H.; Kaliske, M.; Schneider, K. [2012]: A constitutive model for finite deformation of amorphous polymers. International Journal of Mechanical Sciences 65, 48–63.
Dal, H.; Goktepe, S.; Kaliske, M.; Kuhl, E. [2012]: A fully implicit finite element method for bidomain models of cardiac electrophysiology. Computer Methods in Biomechanics and Biomedical Engineering 15,645–656.
Kaliske, M.; Dal, H.; Fleischhauer, R.; Jenkel, C.; Netzker, C. [2012]: Characterization of fracture processes by continuum and discrete modelling. Computational Mechanics 50, 303–320.
Netzker, C.; Dal, H.; Kaliske, M. [2010]: An Endochronic Plasticity Formulation for Filled Rubber. International Journal of Solids and Structures 47, 2371–2379.
Dal, H.; Kaliske, M. [2009]: A micro-continuum-mechanical material model for failure of rubber-like materials: Application to ageing induced fracturing. Journal of the Mechanics and Physics of Solids 57, 1340–1356.
Dal, H.; Kaliske, M. [2009]: Bergstrom-Boyce model for nonlinear finite rubber viscoelasticity: Theoretical aspects and algorithmic treatment for FE method. Computational Mechanics 44, 809–823.
Naser, B.; Kaliske, M.; Dal, H., Netzker, C. [2009]: Fracture mechanical behaviour of visco-elastic materials: Application to the so-called dwell-effect. Zeitschrift fur Angewandte Mathematik und Mechanik 89, 677–686.