Fluid-conveying nanotubes are important components in nano-electromechanical systems
requiring strict static and dynamic stiffness designs. The nonlinear bending and forced …

The divergence and flutter instabilities of the thin-walled spinning pipes reinforced by single-
walled carbon nanotubes in thermal environment are investigated. The material properties …

In the current analysis, an attempt is made to develop a nonlinear size-dependent fluid-
structure interaction model for the chaotic motion of nanofluid-conveying nanotubes subject …

In this paper, a hybrid method which combines reverberation-ray matrix method and wave
propagation method is developed to investigate the stability of multi-span viscoelastic …

The free vibration and instability characteristics of nanoshells made of functionally graded
materials (FGMs) with internal fluid flow in thermal environment are studied in this paper …

Fluid-conveying tubes in nano scale present different mechanical behaviors from the macro
tubes. A higher-order size-dependent beam model is developed coupling with the nonlocal …

In this paper, a new size-dependent inhomogeneous plate model is constructed to analyze
the nonlinear buckling and postbuckling characteristics of multilayer functionally graded …

This paper studies the nonlinear buckling and postbuckling characteristics of piezoelectric
cylindrical nanoshells subjected to an axial compressive mechanical load and an electrical …

Nano/Micro tubes are extensively used in fluidic nano/micro circuits, biochemical industries
and nano/micro electromechanical systems. In order to investigate the influence of length …

A nonlinear surface-stress-dependent nanoscale shell model is developed on the base of
the classical shell theory incorporating the surface stress elasticity. Nonlinear free vibrations …