We introduce solution methods capable of treating static bending and free vibration problems involving thermally loaded functionally graded annular and circular micro-plates. Formulation is based on modified couple stress theory; and related governing partial differential equations and boundary conditions are derived by means of Hamilton's principle. Displacement field is expressed in a unified way so as to produce numerical results in accordance with Kirchhoff, Mindlin, and third-order shear deformation theories. All material properties, including the length scale parameter, are assumed to be functions of the thickness coordinate. The static and dynamic problems are solved by means of differential quadrature method. Proposed procedures are...
This research has been conducted to approach second-order shear deformation theory (SSDT) to analysi...
In this work the deformations of a simply supported, functionally graded, rectangular plate subjecte...
This paper is aimed at studying the free vibration and thermal buckling behavior of moderately thick...
Modified couple stress based model is presented to investigate statics, dynamics and stability of fu...
This study presents strain gradient elasticity based procedures for static bending, free vibration a...
In this paper, a non-classical microplate model is developed for the axisymmetric nonlinear free vib...
The bending, buckling and free vibration of annular microplates made of functionally graded material...
A two-dimensional (2D) higher-order deformation theory is presented for the evaluation of displaceme...
In this paper, we derive a general closed-form solution for the static, axisymmetric bending of soli...
Axisymmetric bending and stretching of functionally graded solid and annular circular plates is stud...
In this paper, the free vibration behavior of post-buckled functionally graded (FG) Mindlin rectangu...
In the present article, static analysis of thin functionally graded micro-plates, based on Kirchhoff...
In this paper, the non-linear free axisymmetric vibration of a thin annular plate made of functional...
Functionally graded material (FGM) is an advanced, microscopically homogeneous material, mainly comp...
This paper is aimed at studying the free vibration and thermal buckling behavior of moderately thick...
This research has been conducted to approach second-order shear deformation theory (SSDT) to analysi...
In this work the deformations of a simply supported, functionally graded, rectangular plate subjecte...
This paper is aimed at studying the free vibration and thermal buckling behavior of moderately thick...
Modified couple stress based model is presented to investigate statics, dynamics and stability of fu...
This study presents strain gradient elasticity based procedures for static bending, free vibration a...
In this paper, a non-classical microplate model is developed for the axisymmetric nonlinear free vib...
The bending, buckling and free vibration of annular microplates made of functionally graded material...
A two-dimensional (2D) higher-order deformation theory is presented for the evaluation of displaceme...
In this paper, we derive a general closed-form solution for the static, axisymmetric bending of soli...
Axisymmetric bending and stretching of functionally graded solid and annular circular plates is stud...
In this paper, the free vibration behavior of post-buckled functionally graded (FG) Mindlin rectangu...
In the present article, static analysis of thin functionally graded micro-plates, based on Kirchhoff...
In this paper, the non-linear free axisymmetric vibration of a thin annular plate made of functional...
Functionally graded material (FGM) is an advanced, microscopically homogeneous material, mainly comp...
This paper is aimed at studying the free vibration and thermal buckling behavior of moderately thick...
This research has been conducted to approach second-order shear deformation theory (SSDT) to analysi...
In this work the deformations of a simply supported, functionally graded, rectangular plate subjecte...
This paper is aimed at studying the free vibration and thermal buckling behavior of moderately thick...