Microelectromechanical systems (MEMS) is a very vast field and has been identified as lots
of potential in tiny instruments. Because of their unique and exciting properties such as small …

Abstract This paper highlights Li-He's approach in which the enhanced perturbation method
is linked with the parameter expansion technology in order to obtain frequency amplitude …

In the present article, free vibration behavior of carbon nanotube‐reinforced composite
(CNTRC) microbeams is investigated. Carbon nanotubes (CNTs) are distributed in a …

Nonlocal elastic models have attracted an increasing amount of attention in the past years,
due to the promising feature of providing a viable simulation for scale effects in nano …

Complex mechanical systems usually include nonlinear interactions between their
components which can be modeled by nonlinear equations describing the sophisticated …

In the current research, the free vibrational behavior of the FG nano-beams integrated in the
hygro-thermal environment and reposed on the elastic foundation is investigated using a …

In the strain-driven model of nonlocal elasticity proposed by Eringen, the elastic strain is
defined by a Fredholm integral equation in which the stress is the output of a convolution …

The frequency of a nonlinear vibration system is nonlinearly related to its amplitude, and this
relationship is critical in the design of a packaging system and a microelectromechanical …

Abstract Nonlocal theories of Continuum Mechanics are widely used in order to assess size
effects in nano-structures. In this paper, free vibrations of nano-beams are investigated by …

The buckling properties of a single-layered graphene sheet (SLGS) are examined using
nonlocal integral first shear deformation theory (FSDT) by incorporating the influence of …