Farid M. Nasrekani was born in Shahrood (Iran) in 1986. He received his Ph.D. in Mechanical Engineering (Solid Dynamics) in 2017 from Shahrood University of Technology. In 2014 he joined the University of Applied Science and Technology (Iran) as a lecturer and from 2015 to 2017 he served as program leader of the mechanical engineering department. At the University of Applied Science and Technology, he supervised UG projects in the field of solid mechanics and automotive engineering. From 2013 to 2018 he served as an R&D engineer in Abarsazandegan Shahvar Knowledge-Based Company in the field of renewable energies by planning and investigating the engineering designs using FEM. He joined the University of the South Pacific (USP) in 2019 and currently serves as a lecturer in the School of Information Technology, Engineering, Mathematics, and Physics (STEMP).

Undergraduate Courses:

• Vibrations
• Dynamics
• Solid Mechanics II
• Mechanisms, Statics

• Nonlinear Problems in Solid Mechanics
• Eigenvalue Problems in Solid Mechanics
• Vibration Monitoring of Structures
• Composite and Viscoelastic Materials

Members of organization:

ASME, shell buckling group: http://shellbuckling.com/people.php

• Mahboubi Nasrekani F. and Eipakchi H.R., 2012, Elastic buckling of axisymmetric cylindrical shells under axial load using first order shear deformation theory, Journal of Applied Mathematics and Mechanics (ZAMM), 92, No. 11 – 12, 937 – 944.
• Mahboubi Nasrekani F. and Eipakchi H.R., 2015, Nonlinear Analysis of Cylindrical Shells with Varying Thickness and Moderately Large Deformation under Non-uniform Compressive Pressure using First Order Shear Deformation Theory, Journal of Engineering Mechanics(ASCE), 141, No. 5.
• Mahboubi Nasrekani F. and Eipakchi H.R., 2017, An analytical procedure for buckling load determination of cylindrical shells with variable thickness using first order shear deformation theory, AUT Journal of Mechanical Engineering, Vol. 1, No. 2, 211-218.
• Mahboubi Nasrekani F. and Eipakchi H.R., 2019, Analytical solution for buckling analysis of cylinders with varying thickness subjected to combined axial and radial loads, International Journal of Pressure Vessels and Piping, 172, 220-226.
• Mahboubi Nasrekani F. and Eipakchi H.R., 2019, Axisymmetric Buckling of Cylindrical Shells with Non-uniform Thickness and Initial Imperfection, International Journal of Steel Structures, 19(2), 435-445.
• Eipakchi H.R., Mahboubi Nasrekani F., and Ahmadi S., 2020, An analytical approach for vibration behavior of viscoelastic cylindrical shells under internal moving pressure, Acta Mechanica, 231, 3405-3418.
• Eipakchi H.R. and Mahboubi Nasrekani F., 2020, Response investigation of viscoelastic cylindrical shells with geometrical nonlinearity effect under moving pressure; an analytical approach, Mechanics of Advanced Materials and Structures, DOI:10.1080/15376494.2020.1808916.
• Eipakchi H.R. and Mahboubi Nasrekani F., 2020, Vibrational behavior of composite cylindrical shells with auxetic honeycombs core layer subjected to a moving pressure, Composite Structures, DOI: https://doi.org/10.1016/j.compstruct.2020.112847.
• Eipakchi H.R. and Mahboubi Nasrekani F., 2020, Axisymmetric analysis of auxetic composite cylindrical shells with honeycomb core layer and variable thickness subjected to combined axial and non-uniform radial pressures, Mechanics of Advanced Materials and Structures, DOI: 10.1080/15376494.2020.1841346.
• Eipakchi H.R. and Mahboubi Nasrekani F., 2021, Analytical solution for buckling analysis of composite cylinders with honeycomb core layer, AIAA Journal, DOI: 10.2514/1.J060422.
• Eipakchi H.R. and Mahboubi Nasrekani F., 2021, Geometrically nonlinear frequency analysis of composite cylinders with metamaterial honeycomb layer and adjustable Poisson’s ratio using the multiple scale method, Thin-Walled Structures, 169, 108441.
• Eipakchi H.R. and Mahboubi Nasrekani F., 2022, A closed-form solution for asymmetric free vibration analysis of auxetic composite cylindrical shells with honeycomb core layer based on shear deformation theory, Mechanics Based Design of Structures and Machines, DOI: 10.1080/15397734.2022.2051183.

• Mahboubi Nasrekani F. and Eipakchi H.R., 2012, Mathematical analysis of a viscoelastic beam subjected to harmonic loading using perturbations techniques, International Conference on Mechanical Engineering and Advanced Technology (ICMEAT), Islamic Azad University-Majlesi Branch, Esfahan, Iran (Presented in Persian).
• Mahboubi Nasrekani F., Eipakchi H.R., and Jafari M., 2014, Nonlinear analysis a orthotropic composite shell under axial loading, First National Conference on Development of Civil Engineering, Architecture, Electricity and Mechanical, Golestan University, Gorgan, Iran (Presented in Persian).
• Mahboubi Nasrekani F. and Eipakchi H.R., 2014, Investigation the effect of thickness profile on displacement parameters of varying thickness cylindrical shell by using first order shear deformation theory, First National Conference on Development of Civil Engineering, Architecture, Electricity and Mechanical, Golestan University, Gorgan, Iran (Presented in Persian).
• Mahboobi Nasrekani F. and Eipakchi H.R., 2015, Effects of thickness profiles on buckling load of cylindrical shells with variable thickness,3rd National and first International conference in applied research on electrical, mechanical and mechatronics engineering, Malek ashtar university of technology, Tehran, Iran.
• Mahboobi Nasrekani F. and Eipakchi H.R., 2017, A mathematical method to investigate different profiles on deformation of cylindrical shells with variable thickness, The 2nd National Conference of Mathematics: Advanced Engineering with Mathematical Techniques, Islamic Azad University-Urmia Branch, Urmia, Iran.
• Mahboubi Nasrekani F., Shivneel Kumar S., and Narayan S. 2020, Structural Dynamic Modification of Cylindrical Shells With Variable Thickness, Pressure Vessels and Piping Division. Volume 3: Design and Analysis. Virtual, Online. August 3, 2020. V003T03A023. ASME. https://doi.org/10.1115/PVP2020-21118.

• Mahboobi Nasrekani F., Mohamadi M., 2016, Training ADVISOR software for simulation and optimization of hybrid, electric and conventional cars, Farsiran, Tehran, Iran (in Persian).