Abstract Magneto-electro-elastic (MEE) materials have been receiving a special attention
from the research community owing to their specialized performance and coupled behavior …

In this study, the free vibration and buckling responses of functionally graded nanoplates
with magneto-electro-elastic coupling are studied for the first time using a nonlocal modified …

This study models and examines the thermal vibration and buckling behaviours of a porous
nanoplate made of functional grading of barium-titanate and cobalt-ferrite. The porosity in …

In this paper, we introduce a novel size-dependent meshfree approach for analyzing free
vibrations of magneto-electro-elastic (MEE) functionally graded (FG) nanoplates. This …

In this study, a nonlocal strain gradient isogeometric model, which includes the higher-order
shear deformation theory, nonlocal strain gradient theory and isogeometric analysis method …

The classical continuum mechanics theory is inadequate for modeling the mechanical
responses of the microstructures due to its failure to account for size effects. Instead …

This article aims to study bending, buckling, and free vibration behaviors of the functionally
graded porous (FGP) nanoshell resting on an elastic foundation (EF) including static …

In the present work, a nonlocal continuum model is developed for the nonlinear free
vibration of size-dependent magneto-electro-elastic nanoplates subjected to external …

This article presents the finite element method (FEM) used four-unknown shear deformation
theory for the static bending and hygro-thermo-mechanical vibration analysis of sandwich …

The objective of this investigation is to predict the size-dependent dynamic stability of
truncated conical microshells made of a functionally graded material (FGM) integrated with …