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Assoc.Prof.Dr. SERDAR GÖKTEPE
FACULTY OF ENGINEERING
PublicationsResearchMembership & Awards
E-mail :  
Url :  http://www.metu.edu.tr/~sgoktepe/
Phone :  +90312210 2441
Fax :  +903122105401
Address :
 

Education

  Bachelor's, Middle East Technical University, Civil Eng.
  Master's, Universität Stuttgart, Computational Mechanics
  Doctorate, Universität Stuttgart, Applied Mechanics

Publications (INTERNATIONAL)

Journal Papers

  A.1 Miehe, C., Göktepe, S., and Lulei, F., A Micro--Macro Approach to Rubber--Like Materials. Part I: The Non--Affine Micro--Sphere Model of Rubber Elasticity, . "Journal of the Mechanics and Physics of Solids", 52, (2004), p.2617-2660.
  A.2 Miehe, C. and Göktepe, S., A Micro--Macro Approach to Rubber--Like Materials. Part II: The Micro-Sphere Model of Finite Rubber Viscoelasticity . "Journal of the Mechanics and Physics of Solids", 53, (2005), p.2231-2258.
  A.3 Göktepe, S. and Miehe, C., A Micro--Macro Approach to Rubber--Like Materials. Part III: The Micro--Sphere Model of Anisotropic Mullins--Type Damage . "Journal of the Mechanics and Physics of Solids", 53, (2005), p.2259-2283.
  A.4 Garikipati, K., Göktepe, S., and Miehe, C., Elastica-based Strain Energy Functions for Soft Biological Tissue. "Journal of the Mechanics and Physics of Solids", 56, (2008), p.1693-1713.
  A.5 Miehe, C., Göktepe, S., and Mendez, J., Finite Viscoplasticity of Glassy Polymers in the Logarithmic Strain Space. "International Journal of Solids and Structures", 46, (2009), p.181-202.
  A.6 Göktepe, S. and Kuhl, E., Computational Modeling of Cardiac Electrophysiology: A Novel Finite Element Approach. "International Journal for Numerical Methods in Engineering", 79, (2009), p.156-178.
  A.7 Kvitting, J-P. E., Bothe, W., Göktepe, S., Rausch, M. K., Swanson, J. C. et al., Anterior Leaflet Curvature During the Cardiac Cycle in the Normal Ovine Heart . "Circulation", 122, (2010), p.1683-1689.
  A.8 Kotikanyadanam, M., Göktepe, S. and Kuhl, E., Computational Modeling of Electrocardiograms: A Finite Element Approach Towards Cardiac Excitation. "International Journal for Numerical Methods in Biomedical Engineering", 26, (2010), p.524-533.
  A.9 Göktepe, S., Wong, J. and Kuhl, E., Atrial and Ventricular Fibrillation - Computational Simulation of Spiral Waves in Cardiac Tissue. "Archive of Applied Mechanics", 80, (2010), p.569-580.
  A.10 Bothe, W., Kvitting, J-P. E., Swanson, J. C., Göktepe, S., Vo, K. N. et al., How Do Annuloplasty Rings Affect Mitral Leaflet Dynamic Motion? . "European Journal of Cardio-thoracic Surgery", 38, (2010), p.340-349.
  A.11 Göktepe, S., Bothe, W., Kvitting, J-P. E., Swanson, J. C. et al., Anterior Mitral Leaflet Curvature in the Beating Ovine Heart: A Case Study Using Videoflouroscopic Markers and Subdivision Surfaces . "Biomechanics and Modeling in Mechanobiology", 9, (2010), p.281-293.
  A.12 Göktepe, S., Abilez, O. J., and Kuhl, E., A Generic Approach Towards Finite Growth with Examples of Athlete's Heart, Cardiac Dilation, and Cardiac Wall Thickening . "Journal of the Mechanics and Physics of Solids", 58, (2010), p.1661-1680.
  A.13 Göktepe, S. and Kuhl, E., Electromechanics of the Heart: A Unified Approach to the Strongly Coupled Excitation-Contraction Problem . "Computational Mechanics", 45, (2010), p.227-243.
  A.14 Göktepe, S., Abilez, O. J., Parker, K. K., and Kuhl, E., A Multiscale Model for Eccentric and Concentric Cardiac Growth Through Sarcomerogenesis . "Journal of Theoretical Biology", 265, (2010), p.433-442.
  A.15 Göktepe, S., Acharya, S. N. S., Wong, J., and Kuhl, E., Computational Modeling of Passive Myocardium. "International Journal for Numerical Methods in Biomedical Engineering", 27, (2011), p.1-12.
  A.16 Rausch, M. K., Dam, A., Göktepe, S., Abilez, O.J., and Kuhl, E., Computational Modeling of Growth: Systemic and Pulmonary Hypertension in the Heart. "Biomechanics and Modeling in Mechanobiology", 10, (2011), p.799-811.
  A.17 Rausch,M.K., Bothe, W.,Kvitting, J-P. E., Göktepe, S., Miller, D. C. and Kuhl, E, In Vivo Dynamic Strains of the Ovine Anterior Mitral Valve Leaflet. "Journal of Biomechanics", 44, (2011), p.1149-1157.
  A.18 Wong J., Göktepe, S. and Kuhl, E., Computational Modeling of Electrochemical Coupling: A Novel Finite Element Approach Towards Ionic Models for Cardiac Electrophysiology. "Computer Methods in Applied Mechanics and Engineering", 200, (2011), p.3139-3158.
  A.19 Miehe, C., Mendez, J., Göktepe, S., and Schaenzel, L-M., Coupled Thermoviscoplasticity of Glassy Polymers in the Logarithmic Strain Space Based on the Free Volume Theory. "International Journal of Solids and Structures", 48, (2011), p.1799-1817.
  A.20 Bothe, W., Kuhl, E., Kvitting, J-P. E., Rausch, M. K., Göktepe, S. et al., Rigid, Complete Annuloplasty Rings Increase Anterior Mitral Leaflet Strains in the Normal Beating Ovine Heart. "Circulation", 124, (2011), p.S81-S96.
  A.21 H. Dal, S. Goktepe, M. Kaliske, and E. Kuhl, A Fully Implicit Finite Element Method for Bidomain Models of Cardiac Electrophysiology. "Computer Methods in Biomechanics and Biomedical Engineering", 15, (2012), p.645–656.
  A.22 Dal, H, Göktepe, S, Kaliske, M, and Kuhl, E., A Fully Implicit Finite Element Method for Bidomain Models of Cardiac Electromechanics. "Computer Methods in Applied Mechanics and Engineering", 253, (2013), p.323–336.
  A.23 Wong, J, Göktepe, S, and Kuhl, E., Computational Modeling of Chemo-Electro-Mechanical Coupling: A Novel Implicit Monolithic Finite Element Approach. "International Journal for Numerical Methods in Biomedical Engineering", 29, (2013), p.1104–1133.
  A.24 Vogel,F. ,Goktepe, S., Steinmann, P., Kuhl, E., Modeling and Simulation of Viscous Electro-Active Polymers. "European Journal of Mechanics - A/Solids", 48, (2014), p.112–128.
  A.25 Goktepe, S., Menzel, A., Kuhl, E., The Generalized Hill Model: A Kinematic Apprach Towards Active Muscle Contraction. "Journal of the Mechanics and Physics of Solids", 72, (2014), p.20–39.
  A.26 Berberoglu, E., Solmaz, H.O., Goktepe, S., Computational Approaches to Coupled Cardiac Electromechanics Incorporating Dysfunctional Cases. "European Journal of Mechanics - A/Solids", 48, (2014), p.60–73.
  A.27 Kayan, S., Merdan, H., Yafia, R., Goktepe, S., Bifurcation Analysis of a Modified Tumor-Immune System Interaction Model Involving Time Delay. "Mathematical Modelling of Natural Phenomena", 12, (2017), p.120-145.
 

Conference Papers

  A.1 Göktepe, S. and Miehe, C., A New Micromechanically Based Approach for the Elastic Response of Rubber-like Materials at Large Strains. "Proceedings in Applied Mathematics and Mechanics PAMM", 3, (2003), p.174-175.
  A.2 Göktepe, S. and Miehe, C., The Micro-Sphere Model for Rubber Viscoelasticity: A Micromechanically Based Network Model for Polymers. "Proceedings in Applied Mathematics and Mechanics PAMM", 4, (2004), p. 191-192.
  A.3 Göktepe, S. and Miehe, C., A Micromechanically Based Network Model for Rubbery Polymers Incorporating Mullins-Type Stress Softening . "Proceedings of the XXI International Congress of Theoretical and Applied Mechanics ICTAM", (2005).
  A.4 Göktepe, S., Mendez, J., and Miehe, C., A Formulation of Finite Viscoplasticity for Amorphous Glassy Polymers in the Logarithmic Strain Space . "Proceedings in Applied Mathematics and Mechanics PAMM", 5, (2005), p.269-270.
  A.5 Göktepe, S. and Miehe, C., Coupled Finite Thermoviscoplasticity of Glassy Polymers. "Proceedings in Applied Mathematics and Mechanics PAMM", 6, (2006), p.437-438.
  A.6 Göktepe, S., Mendez, J., and Miehe, C., Finite Thermoviscoplasticity of Amorphous Glassy Polymers: Experiments, Modeling and Simulations . "Proceedings in Applied Mathematics and Mechanics PAMM", 7, (2007), p.4060041-406004.
  A.7 Göktepe, S. and Miehe, C., An Efficient Micro-Macro Approach to Finite Rubber Viscoelasticity. "Constitutive Models for Rubber V", 5, (2007), p.119--125.
  A.8 Ulerich, J., Göktepe, S., and Kuhl, E., First Attempts Towards the Computational Simulation of Novel Stem-Cell Based Post-Infarction Therapies . "Proceedings of the ASME Summer Bioengineering Conference", (2008).
  A.9 Göktepe, S., Ulerich, J., Abilez, Zarins, C.K., and Kuhl, E., Computational Design of Novel Stem Cell Based Therapies for Myocardial Infarction. "Proceedings of the XXII ICTAM", 12, (2008).
  A.10 Göktepe, S., Ulerich, J., and Kuhl, E., How to Treat the Loss of Beat: Modeling and Simulation of Growth and Remodeling and Novel Post-Infarction Therapies . "Proceedings of the ASME Summer Bioengineering Conference", (2008).
  A.11 Mendez, J., Göktepe, S., and Miehe, C., Temperature and Rate Effects in Finite Viscoplasticity of Glassy Polymers at Different Deformation Modes: Experiments and Simulations . "Proceedings in Applied Mathematics and Mechanics PAMM", 8, (2008), p. 10445-10446.
  A.12 Ulerich, J.,Göktepe, S., and Kuhl, E., Dilation and Hypertrophy -- A Cell-Based Continuum Mechanics Approach Towards Ventricular Growth and Remodeling . "Proceedings of the IUTAM Symposium on Cellular, Molecular and Tissue Mechanics", (2008).
  A.13 Göktepe, S., and Kuhl, E., Electromechanics of Cardiac Tissue: A Unified Approach to the Fully Coupled Excitation-Contraction Problem . "Proceedings in Applied Mathematics and Mechanics PAMM", 9, (2009), p.159-160.
  A.14 Göktepe, S., and Kuhl, E., A New Computational Approach to Fully Coupled Excitation- Contraction in Cardiac Electromechanics . "10. US National Congress on Computational Mechanics (USNCCM X),", (2009).
  A.15 Göktepe, S., and Kuhl, E., Consistent Computational Procedures for Fully Coupled Excitation- Contraction in Cardiac Electromechanics . "1st International Conference on Material Modelling", (2009).
  A.16 Vogel, F., Steinmann, P., Göktepe, S., and Kuhl, E., Application of a Viscoelastic Material Model in Electro-Mechanics. "Proceedings in Applied Mathematics and Mechanics PAMM", 10, (2010), p.387-388.
  A.17 Göktepe, S., Menzel, A., and Kuhl, E., Micro-Structurally Based Kinematic Approaches to Anisotropic Electro-Active Materials . "9th World Congress on Computational Mechanics (WCCM IX)", (2010).
  A.18 Dal, H., Göktepe, S., Kaliske, M. and Kuhl, E., A Three-Field, Bi-domain Based Approach to the Strongly Coupled Electromechanics of the Heart. "Proceedings in Applied Mathematics and Mechanics PAMM", 11, (2011), p.931-934.
  A.19 T. Tanfener, S. Goktepe, and I.O. Yaman, Finite Element Analysis of Differential Shrinkage-Induced Cracking in Centrifugally Cast Concrete Poles. "Proceedings of the 10th International Congress on Advances in Civil Engineering", 10, (2012).
  A.20 Göktepe, S and Berberoğlu, E, Computational Approaches to Coupled Cardiac Electromechanics Incorporating Electrical and Mechanical Dysfunctional Cases. "12. International Conference on Computational Plasticity (COMPLAS XII)", (2013).
  A.21 Berberoğlu, E, Solmaz, HO, and Göktepe, S, Computational Approaches to Coupled Cardiac Electromechanics Incorporating Dysfunctional Cases. "EUROMECH Colloquium 545 Frontiers in Finite Deformation Electromechanics", (2013).
  A.22 Berberoğlu, E and Göktepe, S, Computational Modeling of Coupled Cardiac Electromechanics Incorporating Cardiac Dysfunctions. "12. US National Congress on Computational Mechanics (USNCCM XII)", (2013).
  A.23 Göktepe, S, Menzel, A, and Kuhl, E, Micro-Structurally Based Kinematic Approaches to Electromechanics of the Heart. "IUTAM Symposium on Computer Models in Biomechanics: from Nano to Macro", (2013), p.175–187.
  A.24 Goktepe, S., Berberoglu, E.,, Computational Modeling of Cardiac Dysfunctions. "IUTAM Symposium on ”Mechanics of Soft Active Materials", (2014).
  A.25 Goktepe, S., Berberoglu, E.,, Computational Modeling of Cardiac Dysfunctions. "11th World Congress on Computational Mechanics (WCCM XI)", (2014).
  A.26 Ozdemir, I., Goktepe, S., A Microstructurally Based Constitutive Model for Shape-Memory Polymers Formulated in the Logarithmic Strain Space. "11th World Congress on Computational Mechanics (WCCM XI)", (2014).
  A.27 Berberoglu E, Goktepe S, Computational Modeling of Myocardial Infarction. "Procedia IUTAM", 12, (2015), p.52-61.
  A.28 Berberoglu E, Goktepe S, Multi-Physics Approaches to Computational Cardiology. "7. Workshop on Mathematical Models and Numerical Methods in Biology and Medicine", (2015).
  A.29 Goktepe S, Multi-Physics Approaches to Computational Cardiology. "European Conference on Numerical Mathematics and Advanced Applications", (2015).
  A.30 Berberoglu E, Goktepe S, In Silico Modeling of Electrical and Mechanical Disorders in Cardiac Tissue. "9. European Solid Mechanics Conference", (2015).
  A.31 Goktepe S, Berberoglu E, In Silico Modeling of Electrical and Mechanical Disorders in Cardiac Tissue. "2. International Workshop on Latest Advances in Cardiac Modeling", (2015).
  A.32 Paşaoğlu, Ö., Göktepe, S., Computational Approaches to Integrated Modeling of Electrophysiology of the Heart. "XIV International Conference on Computational Plasticity COMPLAS", (2017).
  A.33 Oktay, H.E.,Gürses, E., Göktepe, S., Micromechanically Motivated Modeling of Semicrystalline Polymers. "XIV International Conference on Computational Plasticity COMPLAS", (2017).

Book and Chapter in a Book

  A.1 Goktepe S, Fitzhugh-Nagumo Equation. "Encyclopedia of Applied and Computational Mathematics", (2015), p.553-556.

Publications (NATIONAL)

 

Conference Papers

  A.1 Tanfener, T., Göktepe, S. and Yaman, İ.Ö., Merkezkaç Dökümlü Beton Direklerde Oluşan Rötre Çatlaklarının Sonlu Elemanlar Yöntemi Kullanılarak İncelenmesi. "Proceedings of the National Congress on Concrete", 8, (2011), s.289-298.
  A.2 Goktepe, S., Eşyönsüz Mikro Yapıya Sahip Kalp Dokusundaki Büyümenin Modellenmesi Üzerine. "18. TUMTMK-Ulusal Mekanik Kongresi", 18, (2014), s.256-262.
  A.3 B. Alam, M. Ghasabeh,K. Toksoy,G. Dara, S. Goktepe, I.O. Yaman, An Experimental and Numerical Study of Ballistic Performance of SFRC Structures. "29th INTERNATIONAL SYMPOSIUM ON BALLISTICS", 1-2, (2016), s.2088-­2097.
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