Nanocomposites are making way for potential application in various fields of engineering.
The present article reviews the work carried out on vibration, static and buckling analysis of …

This study explores the linear and nonlinear solutions of sigmoid functionally graded
material (S-FGM) nanoplate with porous effects. A size-dependent numerical solution is …

In this work, the bending behavior of an advanced functionally graded ceramic–metal plate
subjected to a hygro-thermo-mechanical load and resting on a viscoelastic foundation is …

For the first time, a numerical isogeometric numerical solution based on the nonlocal strain
gradient elasticity theory for static bending, free vibration, and buckling of sigmoid …

Functionally graded materials are widely utilized in several industrial applications, and their
accurate modeling is challenging for researchers, principally for FGM nanostructures. This …

Due to the increasing usage of nanostructures in nanotechnology and nanodevice, the
following article aims to investigate the free vibration and buckling behaviours of a …

Nonclassical continuum theories of elasticity (NCTE) have been extensively used in the
mechanical analyses of small-sized structures due to their effective and tremendous ability …

In this work, a unified high-order nanobeam model considering various high-order shear
deformation beam theories is established to investigate the vibration response of nanobeam …

With the increasing use of coated functionally graded materials (FGMs) in various industrial
engineering, their accurate modeling is very theoretically challenging and therefore has …

This study focusses on establishing the finite element model based on a new hyperbolic
sheareformation theory to investigate the static bending, free vibration, and buckling of the …