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 …

This research is organized to carry out the Natural Frequency Factors (NFFs) coupled with
the most functional structure employed in the various fields of engineering and one of the …

In this work, we provide an analysis of the bending and buckling properties of functionally
graded (FG) nanobeams with trigonometric function-dependent porosity distribution. Herein …

Surface effects usually remarkably affect the mechanical response of ultra-thin micro-/nano-
structures. However, the mechanisms of surface effects on the fracture characteristics of ultra …

The primary objective of this paper is to examine the free vibration behaviors of functionally
graded nanobeams with porosity while considering nonlocal parameters. The nanobeams …

An efficient numerical quasi-3D beam model is introduced to analyze the effect of carbon
nanotube (CNT) agglomeration on the nonlinear dynamical stability characteristics of …

A new type of functionally graded material (FGM) with material properties varying in two or
three directions is needed to obtain materials with better mechanical properties and high …

Advances in human-cyber-physical system (HCPS) requires multiple and multimodal
sensory network to address the challenge of human-machine relationships, posing …

Purpose To reveal the dynamic behaviors and electromechanical coupling characteristics of
rotating nonuniform nanocomponents in nanoelectromechanical system, we investigate the …

In this paper, a novel numerical approach is proposed to study the geometrically nonlinear
large-amplitude vibrations of circular plates subjected to hygrothermal loading resting on an …