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Undergraduate Students:

  1. Finite Element Analysis of Residual Stresses in Railroad Wheel during the Manufacturing Process, E. Tadayon, 2014, Islamic Azad University of Najafabad, Isfahan, Iran.
  2. Finite Element Modeling of Contact Interaction between Wheel and Rail by Ansys Software, Y. Kalbali, 2014, Islamic Azad University of Najafabad, Isfahan, Iran.
  3. Finite Element Analysis of Residual Stresses in Welding Process, A. Sheykhan, 2014, Islamic Azad University of Najafabad, Isfahan, Iran.
  4. Simulation of Fatigue Crack Growth by FRANC3D Software, H.S. Farahani, 2014, Islamic Azad University of Najafabad, Isfahan, Iran.
  5. Investigation of Laser Drilling Processing Methods. S. Saberian, 2014, Islamic Azad University of Najafabad, Isfahan, Iran.
  6. Failure Analysis of Rolls of Rolling Mill in Steel Plants, J. Y. Mohammadi, 2014, Islamic Azad University of Najafabad, Isfahan, Iran.
  7. Numerical Study on the Effect of Overload Parameters on Fatigue Life, A. A. Kamyab, 2014, Islamic Azad University of Najafabad, Isfahan, Iran.
  8. Design a 10kW Solar Chimney Power Plant: A Case Study-Isfahan Project, H. Ghafaripour, 2014, Islamic Azad University of Najafabad, Isfahan, Iran.
  9. The design and construction of a solar concentrator system for rural zones, M. J. Minakar, 2017, Foolad Institute of Technology, Isfahan, Iran.
  10. Design and Optimization of   a solar concentrator system, A. M. Zamani, 2017, Foolad Institute of Technology, Isfahan, Iran.
  11. The design and construction of a routing robot, M. Shafati, 2017, Foolad Institute of Technology, Isfahan, Iran.
  12. A numerical study of fatigue crack growth path under uniaxial cyclic loading, A. Sayyah, 2017, Foolad Institute of Technology, Isfahan, Iran.
  13. Investigation on the Effects of Process Parameters on Laser Drilling Using FEM, M.K. Alirezaei, 2017, Foolad Institute of Technology, Isfahan, Iran.
  14. Stress analysis of various types of flanged joint using ANSYS software, F. Ganjali, 2017, Foolad Institute of Technology, Isfahan, Iran.
  15. Stress analysis of rail/wheel contact using ANSYS software, A.H. Heydari, 2017, Foolad Institute of Technology, Isfahan, Iran.
  16. The design and construction of a coffee roasting machine, H. Jannesar, M. Rajaei and A. Shirmohammadi, 2017, Foolad Institute of Technology, Isfahan, Iran.
  17. Finite element analysis of welding process in a large thin-plate panel structure, H. Ashoory, 2017, Foolad Institute of Technology, Isfahan, Iran.
  18. The design and construction of a 10kW Solar Chimney Power Plant, H. Balali, 2017, Foolad Institute of Technology, Isfahan, Iran.
  19. Rolling contact fatigue analysis in railroad wheel under the influence of wear, M. Salimi, 2017, Foolad Institute of Technology, Isfahan, Iran.
  20. Development of finite element model for analysis of Fatigue Crack growth in Rails, A. H. Lotfi, 2017, Foolad Institute of Technology, Isfahan, Iran.
  21. Welding simulations of steel joints by finite element analysis, O. Gholami, 2017, Foolad Institute of Technology, Isfahan, Iran.
  22. Monorail system and structures: a case study-Qom monorail project, M. Bolfakke, 2017, Foolad Institute of Technology, Isfahan, Iran.
  23. Simulation of residual stresses in railroad wheel during the quenching process, M. R. Salmani, 2018, Foolad Institute of Technology, Isfahan, Iran.
  24. A survey on MEMS piezoresistive pressure sensor, H. Abbasifard,  2018, Foolad Institute of Technology, Isfahan, Iran.    

Graduate Students

M.Sc.

  1. Analytical solution of vibration, wave propagation and energy reflection of Mindlin-Reissner’s higher order shear deformation theory of plate using extended wave propagation method, H. Bedashti, 2017, Foolad Institute of Technology, Isfahan, Iran.
  2. Numerical and experimental investigation of bending angle sheet metals using in laser forming process of composite two layered copper-aluminum, S. Z. Hoseini, 2017, Foolad Institute of Technology, Isfahan, Iran.
  3. Numerical and experimental investigation on fatigue crack growth behavior in thick-walled pressure vessels, H. Ghasemi, 2018, Foolad Institute of Technology, Isfahan, Iran.
  4. Numerical and experimental investigation on fatigue life in standard specimens under the influence of overload parameters, J. Ali Babaei, Foolad Institute of Technology, Isfahan, Iran, in progress.
  5. Numerical and experimental study on fatigue life in rail specimens under the influence of overload parameters, A. Gholami, Foolad Institute of Technology, Isfahan, Iran, in progress.
  6. Numerical analysis of fatigue crack in the working rolls under influence of the stress field due to hot rolling process, P. Noroozian, Foolad Institute of Technology, Isfahan, Iran, in progress.
  7. A study on the fatigue crack growth in railway rails under the influence of impact loading, S. M. Hashemi, Foolad Institute of Technology, Isfahan, Iran, in progress.
  8. Fatigue life prediction of 2024-T3 aluminum alloy adhesively bonded T jonits, M. Hadi, Foolad Institute of Technology, Isfahan, Iran, in progress.
  9. An investigation on fatigue crack growth behavior and fatigue life estimation of riveted joints in Al-alloy 2024 plates, M.R. Tohidi, Foolad Institute of Technology, Isfahan, Iran, in progress.
  10. Modeling of creep in ethane cracking gas furnaces under the influence of thermal stress field, B. Niknam, Foolad Institute of Technology, Isfahan, Iran, in progress.

Ph.D.

 

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Fatigue life prediction of 2024-T3 aluminum alloy adhesively bonded T jonits