dr inż. Mohammad Malikan
Zatrudnienie
- Adiunkt w Katedra Wytrzymałości Materiałów
Obszary badawcze
- nanocomposites
- functionaly graded materials
- composite structures
- laminated composites
- mathematical modelling
- mechanics of materials
- continuum mechanics
- plates and shells
- elasticity
- nonlinear elasticity
- solid mechanics
- smart materials
- piezoelectricity
- flexoelectricity
- flexomagneticity
- piezomagneticity
- hyperelasticity
- thermoelasticity
- viscoelasticity
- mechanical vibrations
- kinematic simulation
- structural stability
- analytical solution
- analytical modelling
- semi-analytical modelling
- numerical solution
- differential quadrature method
- finite element method
- cad
- cae
- matlab
- mathematica
- adams
- abaqus
- solidworks
Media społecznościowe
Kontakt
- mohammad.malikan@pg.edu.pl
Wybrane publikacje
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On mechanics of piezocomposite shell structures
This study presents an original and novel investigation into the mechanics of piezo-flexo-magneto-elastic nanocomposite doubly-curved shells (PFMDCSs) and the ability to detect the lower and higher levels of electro-magnetic fields. In this context, by utilizing the first-order shear deformation shell model, stresses and strains are acquired. By imposing Hamilton's principle and the von Kármán approach, the governing equations...
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On the non-linear dynamics of torus-shaped and cylindrical shell structures
In this study, the non-linear dynamic analysis of torus-shaped and cylindrical shell-like structures has been studied. The applied material is assumed as the functionally graded material (FGM). The structures are considered to be used for important machines such as wind turbines. The effects of some environmental factors on the analysis like temperature and humidity have been considered. The strain field has been calculated in...
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A new hyperbolic-polynomial higher-order elasticity theory for mechanics of thick FGM beams with imperfection in the material composition
A drawback to the material composition of thick functionally graded materials (FGM) beams is checked out in this research in conjunction with a novel hyperbolic‐polynomial higher‐order elasticity beam theory (HPET). The proposed beam model consists of a novel shape function for the distribution of shear stress deformation in the transverse coordinate. The beam theory also incorporates the stretching effect to present an indirect...
Uzyskane stopnie/tytuły naukowe
Opis ogólny
wyświetlono 20993 razy