HASAN demirkoparan

Research (As of May 2018)

 

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 Elasticity104 (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 Mechanics56 (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 Analysis214 (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 Mechanics68 (2015) 87-95.

 

  H. Demirkoparan and T.J. Pence,  Finite stretching and shearing of an internally balanced elastic solid, Journal of Elasticity121 (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 Mathematics95 (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. Demirkoparan and J. Merodio,  Swelling and Axial Propagation of Bulging with Application to Aneurysm Propagation in Arteries (to appear). https://doi.org/10.1177/1081286517717127, Mathematics and Mechanics of Solids ?? (2018) ??-??.

 

  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 (submitted), Biomechanics and Modeling in Mechanobiology ?? (2018) ??-??.

 

  V. Zamani, T. J. Pence, H. Demirkoparan and H. Topol,  Hyperelastic Models for the Swelling of Soft Material Plugs in Confined Spaces (to appear), International Journal of Nonlinear Mechanics ?? (2018) ??-??.

 

 

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

 

 

GRANTS:

Current Grants

2008-2018: QF 930106 (Research Seed) Continuation of Boundary Value Problems in Nonlinear Elasticity When Solid Mechanics is Coupled With Other Effects, $113,371 (PI)

2016-2019: 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)

Older Grants

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)

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