Many of his studies on Linguistics apply to Imperfect and Stress (linguistics) as well. In most of his Stress (linguistics) studies, his work intersects topics such as Linguistics. His Classical mechanics research covers fields of interest such as Equations of motion and Mechanics. M. Shariyat integrates many fields in his works, including Equations of motion and Classical mechanics. M. Shariyat undertakes multidisciplinary studies into Mechanics and Thermodynamics in his work. His Thermodynamics study frequently involves adjacent topics like Buckling. M. Shariyat connects relevant research areas such as Wave propagation and Isotropy in the realm of Optics. He integrates many fields, such as Wave propagation and Optics, in his works. Isotropy and Quantum mechanics are commonly linked in his work.
In the field of Plate theory and Constitutive equation M. Shariyat studies Finite element method. His Quantum mechanics research is linked to Nonlinear system and Material properties. He undertakes multidisciplinary investigations into Nonlinear system and Finite element method in his work. His work in Material properties is not limited to one particular discipline; it also encompasses Quantum mechanics. In the subject of Linguistics, he integrates adjacent academic fields such as Stress (linguistics) and Imperfect. His study on Stress (linguistics) is mostly dedicated to connecting different topics, such as Linguistics. His work on Structural engineering is being expanded to include thematically relevant topics such as Transverse plane. Much of his study explores Transverse plane relationship to Structural engineering. His Viscoelasticity research extends to the thematically linked field of Composite material.
His studies link Composite number with Composite material. Many of his studies involve connections with topics such as Composite material and Composite number. M. Shariyat integrates Mechanics with Optics in his study. He integrates many fields in his works, including Optics and Mechanics. As part of his studies on Structural engineering, he often connects relevant subjects like Transverse plane. His Structural engineering research extends to the thematically linked field of Transverse plane. His Galerkin method research extends to the thematically linked field of Quantum mechanics. His Galerkin method study often links to related topics such as Quantum mechanics. His research ties Hyperelastic material and Nonlinear system together.
Vibration is intertwined with Acoustics and Natural frequency in his study. M. Shariyat integrates several fields in his works, including Acoustics and Vibration. His Natural frequency study typically links adjacent topics like Quantum mechanics. Much of his study explores Quantum mechanics relationship to Nonlinear system. In his papers, he integrates diverse fields, such as Nonlinear system and Finite element method. His Plate theory research extends to Finite element method, which is thematically connected. His Composite material study frequently draws connections to other fields, such as Elasticity (physics). His research brings together the fields of Shock wave and Mechanics. Shock wave is closely attributed to Mechanics in his work.
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Thermal buckling analysis of rectangular composite plates with temperature-dependent properties based on a layerwise theory
Thin-walled Structures (2007)
DYNAMIC THERMAL BUCKLING OF SUDDENLY HEATED TEMPERATURE-DEPENDENT FGM CYLINDRICAL SHELLS, UNDER COMBINED AXIAL COMPRESSION AND EXTERNAL PRESSURE
International Journal of Solids and Structures (2008)
A generalized global-local high-order theory for bending and vibration analyses of sandwich plates subjected to thermo-mechanical loads
International Journal of Mechanical Sciences (2010)
Dynamic buckling of imperfect laminated plates with piezoelectric sensors and actuators subjected to thermo-electro-mechanical loadings, considering the temperature-dependency of the material properties
Composite Structures (2009)
Differential transform vibration and modal stress analyses of circular plates made of two-directional functionally graded materials resting on elastic foundations
M. Shariyat;M. M. Alipour.
Archive of Applied Mechanics (2011)
Dynamic buckling of suddenly loaded imperfect hybrid FGM cylindrical shells with temperature-dependent material properties under thermo-electro-mechanical loads
International Journal of Mechanical Sciences (2008)
Vibration and dynamic buckling control of imperfect hybrid FGM plates with temperature-dependent material properties subjected to thermo-electro-mechanical loading conditions
Composite Structures (2009)
Non-linear dynamic analysis of a sandwich beam with pseudoelastic SMA hybrid composite faces based on higher order finite element theory
S. M. R. Khalili;M. Botshekanan Dehkordi;Erasmo Carrera;M. Shariyat.
Composite Structures (2013)
A generalized high-order global–local plate theory for nonlinear bending and buckling analyses of imperfect sandwich plates subjected to thermo-mechanical loads
Composite Structures (2010)
A nonlinear Hermitian transfinite element method for transient behavior analysis of hollow functionally graded cylinders with temperature-dependent materials under thermo-mechanical loads
International Journal of Pressure Vessels and Piping (2009)
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