This article reviews, for the first time, the mechanical behaviour of functionally graded
structures at small-scale levels. Functionally graded nanoscale and microscale structures …

Understanding the mechanical behaviour of nanostructures is of great importance due to
their applications in nanodevices such as in nanomechanical resonators, nanoscale mass …

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 …

In this paper, a new size-dependent plate model is developed based on the higher-order
nonlocal strain gradient theory. The influences of higher-order deformations in conjunction …

In this paper, an efficient computational approach based on refined plate theory (RPT)
including the thickness stretching effect, namely quasi-3D theory, in conjunction with …

Insight into the mechanical characteristics of nanoscopic structures is of fundamental interest
and indeed poses a great challenge to the research communities around the world. These …

In this article, the free vibration behavior of circular and annular graphene sheet is studied.
Using the nonlocal elasticity theory, the governing equations are derived for single-layered …

The vibration behavior of the rotating viscoelastic nanobeam embedded in the visco-
Pasternak foundation is studied. The governing equation is extracted by using the surface …

In this contribution, a nonlocal integral model is formulated to investigate the twisting static
behaviors of through-radius functionally graded (FG) nanotubes based on Eringen's …

In this study, the buckling behavior of orthotropic rectangular nanoplate is studied. Nonlocal
elasticity theory has been implemented to investigation the shear buckling of orthotropic …