In this paper, a variational approach for the wave dispersion in anisotropic doubly-curved
nanoshells is presented. To study the doubly-curved nanoshell as a continuum model, a …

For the first time, buckling behavior of functionally graded (FG) nanoplates made of
anisotropic material (beryllium crystal as a hexagonal material) is investigated. Also, it is the …

In this paper, a higher order shear deformation theory for bending analysis of functionally
graded plates resting on Pasternak foundation and under various boundary conditions is …

Due to rapid development of process manufacturing, composite materials with porosity have
attracted commercial attention in promoting engineering applications. For this regard, in this …

This work presents an efficient and original high-order shear and normal deformation theory
for the static and free vibration analysis of functionally graded plates. The Hamilton's …

The bending responses of porous functionally graded (FG) single-layered and sandwich
thick rectangular plates are investigated according to a quasi-3D shear deformation theory …

In this paper, three-dimensional (3D) elasticity theory in conjunction with nonlocal strain
gradient theory (NSGT) is developed for mechanical analysis of anisotropic nanoparticles …

In this article, we present for the first time a research analysis for the size-dependent effects
on thermal buckling and post-buckling behaviors of functionally graded material micro …

Nonlocal strain gradient models are being used more and more extensively in examining
the size-dependent effects on the statical and dynamical behaviors of micro/nano-structures …

The present study is dealt with the applicability of shifted Chebyshev polynomial-based
Rayleigh–Ritz method and Navier's technique on free vibration of functionally graded (FG) …