Recently, small-sized structures including micro/nanobeams, micro/nanoplates,
micro/nanotubes, micro/nanowires, etc. have received great attention among researchers in …

Size-dependent vibrational behavior of functionally graded (FG) Timoshenko nano-beams is
investigated by strain gradient and stress-driven nonlocal integral theories of elasticity …

Nonlocal formulations are currently adopted to assess size effects in nanostructures. The
Eringen differential constitutive model, due to its simplicity, is widely used to investigate the …

Nonlinear and linear vibrations of fluid conveying carbon nanotubes considering thermal
effects are studied. It is assumed that the nanotube conveying fluid flow has a general type …

Size-dependent structural behavior of nano-beams under torsion is investigated by two-
phase integral elasticity. An effective torsional model is proposed by convexly combining the …

In this article, the free vibration of a functionally graded Euler–Bernoulli beam with a tip
nanoparticle and a nonlinear/linear spring constraint is presented for the first time using …

Various discontinuities and boundary conditions affect natural frequencies of nanobeams. In
this paper, free lateral vibration of Euler-Bernoulli nanobeam with multiple discontinuities is …

In this paper, an analytical model based on the modified couple stress theory and
Timoshenko beam theory is developed to study the vibrational power flow of a microbeam …

Reflection, propagation and energy analysis are crucially important in designing structures,
especially plates. A thick plate is considered based on first order shear deformation theory …

In this paper, the wave propagation method and the differential constitutive law consequent
(not equivalent) to the Eringen strain-driven integral nonlocal elasticity model are utilized to …