The vibration behavior of multilayers piezoelectric nanobeam is investigated in this study.
The governing equations of rotating piezoelectric beams are obtained by utilizing the …

It is a fact that size effects appear when studying the mechanical behavior of
nano/microscopic materials. This paper, for the first time, applies an analytical method to …

In the present study, the finite element method is developed for the static analysis of nano-
beams under the Winkler foundation and the uniform load. The small scale effect along with …

In this paper, the snap-buckling behaviors of functionally graded (FG) porous curved
nanobeams resting on three parameters elastic foundations are studied for the first time. The …

This study proposes a new fractional model to show how heat transfers through
nanomaterials by considering the thermoelastic vibration of one-dimensional nanostructures …

Nonlocal strain gradient continuum mechanics is a methodology widely employed in the
literature to assess size effects in nano-structures. Notwithstanding this, improper higher …

In this study, nonlocal strain gradient theory (NSGT) is applied to examine the dynamic
instability of embedded viscoelastic graphene sheet under periodic axial load including …

In this study, we investigate the mechanical properties of armchair phosphorene nanotubes
using a combination of density functional theory (DFT) and the finite element method (FEM) …

In this study, the free axial vibration of Rayleigh nanorods with axial restraints is studied via
Eringens' nonlocal elasticity theory. This higher order elasticity theory takes into account the …

In this article, a size-dependent generalized thermoelasticity model is established to
appraise the small-scale effect on thermoelastic vibrations of Euler-Bernoulli nanobeams …