Supervised Ph.D. theses

  • Constitutive Modeling and Numerical Simulation of Damage and Healing Phenomena in Self-Healing Polymers at Finite Deformation, 2016.
  • Constitutive modeling of temperature and strain rate dependent behavior of rubbers at finite deformations with combined physical-phenomenological approach, 2013.
  • Constitutive modeling, synthesis and characterization of ionic-polymer nanocomposites, 2013.
  • Molecular dynamic simulation of nano diamond synthesis by shock wave, 2013.
  • Theoretical, numerical and experimental deformation analysis of solids under impact loading using continuum damage mechanics, 2012.
  • Constitutive modeling and numerical implementation of shape memory polymers at large deformations based on continuum thermodynamics, 2012.
  • Thermomechanical behavior of shape memory alloys under multiaxial loadings; Constitutive modeling and numerical implementation at small and finite stains, 2010.
  • Kinematic and constitutive modeling of Elastic and thermoelastic continua with finite deformation using multiplicative decomposition of deformation gradient, 2010.
  • Mechanical behavior analysis of carbon nanotube-based polymer composites using multiscale modeling, 2010.
  • Multi-scale nonlinear finite element analysis of nanostructured materials based on equivalent continuum mechanics, 2009.
  • Constitutive modeling of large elastic and elastic-plastic deformations with isotropic and kinematic hardenings in micropolar (Cosserat) continua, 2008.
  • A corotational updated Lagrangian finite element formulation for geometrical nonlinear analysis of functionally graded plates and shells, 2007.
  • Stress tensors conjugate to rates of two point, Eulerian and Lagrangian kinematic tensors in nonlinear continuum mechanics, 2007.
  • Corotational modeling of large deformation elastic-plastic materials with induced anisotropy, 2006.
  • Corotational Lagrangian formulation for large deformation elastic and elastic-plastic problems by finite element method, 2004.
  • Objective constitutive equations for large rigid plastic and elastic-plastic deformations of hardening materials, 2003.

Ph.D. theses under supervision

  • Constitutive Modeling and Numerical Implementation of Responsive Hydrogels at Finite Deformation Due to Environmental Conditions.
  • Constitutive modeling and numerical simulation of coronary arteries mechanical behavior in stenting and succeeding growth and remodeling

Some of the Supervised M.Sc. Theses 

  • Buckling analysis of stiffened plates by FEM.
  • Buckling and vibration analysis of stiffened shells by FEM.
  • Dynamic analysis of offshore structures by FEM
  • Modeling curves and surfaces using optimization techniques.
  • Modeling crack propagation in rotary devices by FEM.
  • Modeling side-pressing of cylinders by FEM.
  • Studying effect of friction in cold and hot rolling by FEM.
  • Geometric and material nonlinear analysis of shells by FEM.
  • Large deformation analysis of laminated composite shells by FEM.
  • Large deformation analysis of stiffened shells by FEM.
  • Dynamic buckling and modal analysis of shells based on a first order deformation theory by FEM.
  • Subsequent yield surfaces determination by corotational constitutive equations for large deformation of rigid plastic hardening materials.
  • The stress conjugates to Eulerian logarithmic strain measures.
  • Analysis of 3-D thermo-elastic-plastic cutting with large deformations.
  • Studying effect of cutout on buckling load of stiffened cylindrical shells by FEM.
  • Dynamic analysis of shells with large deformation by FEM.
  • Geometric and material fuzzy (interval) FE analysis of plates.
  • Large deformation analysis of cylindrical of functionally graded material with FEM.
  • Analysis of elastic wave propagation in functionally graded materials.
  • High strain rate plastic deformation analysis based on additive decomposition of strain rate tensor.
  • Developing of element free Galerkin (EFG) method to 2-D geometric nonlinear analysis of solids.
  • Multiaxial cyclic loading analysis based on logarithmic kinematic hardening model.
  • Optimization of extrusion die with B-spline function by FEM.
  • Large deformation analysis of superelastic shape memory alloy beams by FEM.
  • An elasto-plastic model based on variable material property for determining residual stresses using hole-drilling technique.
  • Constitutive equations for hyperelastic materials in terms of logarithmic strains.
  • Swift effect analysis in large elastic-plastic torsion of solid circular bars with the Eulerian rate and logarithmic strain tensor.
  • Finite element analysis of nanostructures.
  • Vibration analysis of a multi-layered graphene sheet in nanoscale using constitutive modeling based on equivalent continuum modeling.
  • Constitutive modeling of carbon nano structures and their defects.
  • Elasto-plastic analysis of functionally graded sphere and cylinder subjected to internal pressure and thermal loading
  • Elastic-fracture analysis of  carbon nanotubes under axial tension and compression