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

In this article, a nonlocal strain gradient theory (NSGT) incorporating the thickness effect is
developed for dynamics and stability analysis of Y-shaped nanoscale tubes containing …

In this study, the dynamical stability of spinning axially graded micro and nanotubes
transporting fluid rested on the Kerr foundation is analyzed. A detailed parametric study is …

In this article, the flutter vibrations of fluid-conveying thin-walled nanotubes subjected to
magnetic field is investigated. For modeling fluid structure interaction, the nonlocal strain …

As a first attempt, the vibration and stability analysis of magnetically embedded spinning
axially functionally graded (AFG) nanotubes conveying fluid under axial loads is performed …

This study examines the dynamic and vibrational behavior of cylindrical nanotubes
conveying fluid and moving particle. The first-order shear deformation theory and the …

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 …

This paper develops three surface energy-enriched gradient elastic beam models,
respectively, in the contexts of Euler-Bernoulli, Timoshenko, and Levinson-Brickford-Reddy …

Fluid-conveying micro/nano tubes are key tools, which have great applications in biological
devices and especially smart drug delivery in order to target the cancer cells. Furthermore …

This paper analyzes the mechanical behavior of a Kirchhoff thin nanoplate with surface
stresses containing a thickness-through rigid line inclusion. Based on the bulk and surface …