Recently, the mechanical behavior of micro-/nano-structures has sparked an ongoing
debate, which leads to a fundamental question: what steps can be taken to investigate the …

In this study, the dynamic behavior of composite beams reinforced by carbon nanotubes
(CNTs) exposed to a mass moving is investigated. By considering the external potential …

This study aimed to model the thermomechanical vibration behavior of sandwich nanoplates
consisting of a foam or solid core layer and smart surface layers. The sandwich plate's …

The present investigation involved the modeling and analysis of the thermomechanical
buckling behavior of sandwich nanoplates with foam core layers. The study employed the …

Since the classical continuum theories are insufficient to account the small size effects of
nanobeams, the nonlocal continuum theories such as Eringen's nonlocal elasticity theory …

In the present manuscript, based on the nonlocal strain gradient theory, a nonclassical
dynamic finite element model is developed to study and analyze the dynamic behavior of …

As a first endeavor, the dynamic analysis of functionally graded graphene nanoplatelets
reinforced composite (FG-GNPRC) cylindrical nanoshell subjected to a moving harmonic …

This study investigates the free vibration and thermal buckling behavior of functionally
graded porous nanobeams in magnetic and thermal fields using high-order trigonometric …

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 …

In this article, the dynamic behavior of functionally graded (FG) microbeams with different
porosity distributions and acted by a moving harmonic load is studied. A bi-dimensional FG …