dr inż. Mohammad Malikan
Employment
- Assistant Professor at Katedra Wytrzymałości Materiałów
Research fields
- 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
Social media
Contact
- mohammad.malikan@pg.edu.pl
Adiunkt
- Workplace
-
Gmach Główny
room 160 open in new tab - Phone
- +48 58 348 61 49
Publication showcase
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Torsional stability capacity of a nano-composite shell based on a nonlocal strain gradient shell model under a three-dimensional magnetic field
This paper considers a single-walled composite nano-shell (SWCNS) exposed in a torsional critical stability situation. As the magnetic field affects remarkably nanostructures in the small size, a three-dimensional magnetic field is assessed which contains magnetic effects along the circumferential, radial and axial coordinates system. Based on the results of the nonlocal model of strain gradient small-scale approach and the first-order...
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Electro-mechanical shear buckling of piezoelectric nanoplate using modified couple stress theory based on simplified first order shear deformation theory
This paper studies the electro-mechanical shear buckling analysis of piezoelectric nanoplate using modified couple stress theory with various boundary conditions.In order to be taken electric effects into account, an external electric voltage is applied on the piezoelectric nanoplate. The simplified first order shear deformation theory (S-FSDT) has been employed and the governing differential equations have been obtained using...
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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...
Obtained scientific degrees/titles
General description
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