HASAN Demirkoparan |
Research (As of September 2021)
Papers:
• H. Demirkoparan and T.J. Pence, Swelling of an internally pressurized nonlinearly elastic tube with fiber reinforcing, International Journal of Solids and Structures 44 (2007) 4009-4029.
• H. Demirkoparan and T.J. Pence, The effect of fiber recruitment on the swelling of a pressurized anisotropic nonlinearly elastic tube, International Journal of Nonlinear Mechanics 42 (2007) 258-270.
• H. Demirkoparan and T.J. Pence, Torsional swelling of a hyperelastic tube with helically wound reinforcement, Journal of Elasticity 92 (2008) 61-90.
• H. Demirkoparan, T.J. Pence and A. Wineman, On dissolution and reassembly of filamentary reinforcing networks in hyperelastic materials, Proceedings of the Royal Society A 465 (2009) 867-894.
• H. Demirkoparan, T.J. Pence and A. Wineman, Emergence of fibrous fan morphologies in deformation directed reformation of hyperelastic filamentary networks, Journal of Engineering Mathematics 68 (2010) 37-56.
• H. Demirkoparan, T.J. Pence and A. Wineman, Torsion of a fiber reinforced hyperelastic cylinder for which the fibers can undergo dissolution and reassembly, International Journal of Engineering Science 48 (2010) 1179-1201.
· H. Demirkoparan, T.J. Pence and A. Wineman, Fiber remodeling during torsion of a fiber reinforced hyperelastic cylinder - Unloading behavior, Journal of Elasticity 104 (2011) 163-185.
· H. Demirkoparan, T.J. Pence, and A. Wineman, Chemomechanics and Homeostasis in Active Strain Stabilized Hyperelastic Fibrous Microstructures, International Journal of Nonlinear Mechanics 56 (2013) 86-93.
· H. Topol, H. Demirkoparan, T.J. Pence, and A. Wineman, A theory for deformation dependent evolution of continuous fibre distribution applicable to collagen remodelling, IMA Journal of Applied Mathematics 79 (2014) 947-977.
· H. Demirkoparan, T.J. Pence, and H. Tsai, Hyperelastic Internal Balance by Multiplicative Decomposition of the Deformation Gradient, Archive for Rational Mechanics and Analysis 214 (2014) 923-970.
· H. Demirkoparan and T.J. Pence, Magic Angles for Fiber Reinforcement in Rubber-Elastic Tubes subject to Pressure and Swelling, International Journal of Nonlinear Mechanics 68 (2015) 87-95.
· H. Demirkoparan and T.J. Pence, Finite stretching and shearing of an internally balanced elastic solid, Journal of Elasticity 121 (2015) 1-23.
· H. Topol, H. Demirkoparan, T. J. Pence and A. Wineman, Uniaxial load analysis under stretch dependent fiber remodeling applicable to collageneous tissue, Journal of Engineering Mathematics 95 (2015) 325-345.
· A. Hadoush, H. Demirkoparan and T. J. Pence, Simple shearing and azimuthal shearing of an internally balanced compressible elastic material, International Journal of Nonlinear Mechanics 79 (2016) 99-114.
· A. Hadoush, H. Demirkoparan and T. J. Pence, A Constitutive Model for an Internally Balanced Compressible Elastic Material, Mathematics and Mechanics of Solids 22 (2017) 372-400.
· H. Demirkoparan and J. Merodio, Bulging Bifurcation of Inflated Circular Cylinders of Doubly Fiber-Reinforced Hyperelastic Material under Axial Loading and Swelling, Mathematics and Mechanics of Solids 22 (2017) 581-635.
· H. Topol, H. Demirkoparan, T. J. Pence and A. Wineman, Time-Evolving Collagen-Like Structural Fibers in Soft Tissues: Biaxial Loading and Spherical Inflation, Mechanics of Time-Dependent Materials 21 (2017) 1-29.
· A. Hadoush, H. Demirkoparan and T. J. Pence, Finite Element Analysis of Internally Balanced Elastic Materials, Computer Methods in Applied Mechanics and Engineering 322 (2017) 373-395.
· H. Demirkoparan and T.J. Pence, Swelling-Twist Interaction in Fiber Reinforced Hyperelastic Materials: The Example of Azimuthal Shear, Journal of Engineering Mathematics 109 (2018) 63-84.
· H. Topol, K. Gou, H. Demirkoparan and T. J. Pence, Hyperelastic modeling of the combined effects of tissue swelling and deformation-related collagen renewal in fibrous soft tissue, Biomechanics and Modeling in Mechanobiology 17 (2018) 1543-1567.
· V. Zamani, T. J. Pence, H. Demirkoparan and H. Topol, Hyperelastic Models for the Swelling of Soft Material Plugs in Confined Spaces, International Journal of Nonlinear Mechanics 106 (2018) 297-309.
· H. Topol, H. Demirkoparan and T. J. Pence, Morphoelastic fiber remodeling in pressurized thick-walled cylinders with application to soft tissue collagenous tubes, European Journal of Mechanics A/Solids 77 (2019) 103800.
· H. Demirkoparan and J. Merodio, Swelling and Axial Propagation of Bulging with Application to Aneurysm Propagation in Arteries. Mathematics and Mechanics of Solids 25 (2020) 1459-1471.
· H. Demirkoparan and T.J. Pence, Swelling induced twisting and shearing in fiber composites: the effect of the base matrix mechanical response, Emergent Materials 3 (2020) 87-101.
· H. Topol, K. Gou, H. Demirkoparan and T. J. Pence, Stress-swelling finite element modeling of cervical response with homeostatic collagen fiber distribution ASME Journal of Biomechanical Engineering 142 (2020) 081002.
· H. Topol, H. Demirkoparan and T. J. Pence, On Collagen Fiber Morphoelasticity and Homeostatic Remodeling Tone Journal of the Mechanical Behavior of Biomedical Materials 113 (2021) 104154.
· H. Topol, M. J. Al-Chlaihawi, H. Demirkoparan and T. J. Merodio, Bulging initiation and propagation in fiber reinforced swellable Mooney-Rivlin membranes Journal of Engineering Mathematics 128 / 8 (2021) 104154.
· H. Topol, H. Demirkoparan and T. J. Pence, Modeling Stretch-Dependent Collagen Fiber Density Remodeling Mechanics Research Communications 116 (2021) 103740.
· H. Topol, H. Demirkoparan and T. J. Pence, Fibrillar collagen: a review of the mechanical modeling of strain mediated enzymatic turnover (submitted) (2021).
MEMBERSHIP: American Mathematical Society, The Society for Natural Philosophy, European Mechanics Society
Journal Reviewer for: · Journal of Elasticity · International Journal of Nonlinear Mechanics · The Journal of Strain Analysis for Engineering Design · IMA Journal of Applied Mathematics · Journal of Mechanics of Materials and Structures · Acta Mechanica · Mathematical Reviews · Journal of Biomechanical Engineering · Mechanics of Materials · Jordan Journal of Mechanical and Industrial Engineering · Frontiers in Bioengineering and Biotechnology · Mathematics and Mechanics of Complex Systems
GRANTS: 2008-2020: QF 930106 (Research Seed) Continuation of Boundary Value Problems in Nonlinear Elasticity When Solid Mechanics is Coupled With Other Effects, $113,371 (PI) 2016-2020: QNRF NPRP 8-2424-1-477 New mathematical models for the large strain swelling response of biological tissues: Applications to Edema, Inflammation, and Pregnancy, $803,829 (Co-PI) 2012-15: QNRF NPRP 4-1333-1-214 Complex material response described by continuum mechanics with a deformation gradient product that has novel hyperelastic implications, $819,068 (Co-PI) 2012-15: QNRF NPRP 4-1138-1-178 New mathematical models for the large strain swelling response of biological tissues, $864,669 (Co-PI) 2006-2008: QF 930106 Boundary Value Problems in Nonlinear Elasticity When Solid Mechanics is Coupled With Other Effects, $55,029 (PI) |