Research Interests:
My research interest is to use analytical and computational methods on the basis of structural and nonlinear dynamics theories to study the vibration and stability of flexible structures. I am particularly interested in identifying various nonlinear phenomena to avoid or exploit them to improve performances.
Selected Publications:
Mahmoudkhani, Saeed. (2018). A Semi-Analytical Method for Calculation of Strongly Nonlinear Normal Modes of Mechanical Systems. Journal of Computational and Nonlinear Dynamics. 13. 10.1115/1.4039192.
S. Mahmoudkhani, “Nonlinear vibration and mode shapes of FG cylindrical shells”, Latin American Journal of Solids and Structures, Vol. 14, No. 3, pp 422-440, 2017
S. Mahmoudkhani, M. Sadeghmanesh and H. Haddadpour, “Aero-thermo-elastic stability analysis of sandwich viscoelastic cylindrical shells in supersonic airflow”, Composite Structures, Vol. 147, pp 185-196, July 2016
Mohammad Ebrahim Torki, Mohammad Taghi Kazemi, Junuthula N. Reddy, Hassan Haddadpour and Saeed Mahmoudkhani, “Dynamic stability of functionally graded cantilever cylindrical shells under distributed axial follower forces”, Journal of Sound and Vibration, Vol. 333, No. 3, pp 801-817, February 2014
Mohammad Ebrahim Torki, Mohammad Taghi Kazemi, Hassan Haddadpour and Saeed Mahmoudkhani, “Dynamic stability of cantilevered functionally graded cylindrical shells under axial follower forces”, Thin-Walled Structures, Vol. 79, pp 138-146, 2014
Mohammad Ebrahim Torki (1), Mohammad Taghi Kazemi (1) and Saeed Mahmoudkhani (2)
“Diversity between shell-like and beam-like regions for a cantilever cylindrical shell under follower forces”, International Journal of Advanced Structural Engineering 2012, 4:9
S. Mahmoudkhani, H.M. Navazi, H. Haddadpour, An analytical study of the non-linear vibrations of cylindrical shells, International Journal of Non-Linear Mechanics 46 (2011) 1361–1372
Mahmoudkhani S, Haddadpour H, Navazi HM (2010) Supersonic flutter prediction of functionally graded conical shells. Compos Struct 92:377–386
Haddadpour H, Mahmoudkhani S, Navazi HM. Supersonic flutter prediction of functionally graded cylindrical shells. J Composite Struct, Elsevier 2008;83 (4):391–8.
Haddadpour, H., Mahmoudkhani, S., Navazi, H. M. (2007). Free vibration analysis of functionally graded cylindrical shells including thermal effects. Thin-Walled Structures 45: 591–599
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