Carbon nanotube-based materials are gaining considerable attention as novel materials for
renewable energy conversion and storage. The novel optoelectronic properties of CNTs (eg …

The classical continuum mechanics assumes that a material is a composition of an infinite
number of particles each of which is a point that can only move and interact with its nearest …

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 …

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 …

It is an established paradigm in the emerging fields of nanoscience, nanotechnology and
molecular engineering that a very important domain of fundamental research is associated …

A nonlocal surface theory is proposed for interactions between surface and bulk media of
nanostructures. The nonlocal elasticity theory is generalized to account for nonlocal …

In this work the problem of the in-plane free vibrations (axial and bending) of a Bernoulli–
Euler nanobeam using the mixed local/nonlocal Eringen elasticity theory is studied. The …

The bending response of Bernoulli-Euler nanobeams made of a functionally graded (FG)
material with different cross-sectional shapes is investigated in this manuscript by a stress …

On the basis of the nonlocal strain gradient theory, a size-dependent Euler–Bernoulli beam
model is formulated and devoted to investigating the scaling effect on the post-buckling …

Size-dependent axial and flexural free vibrations of Bernoulli–Euler nano-beams are
investigated by the modified nonlocal strain gradient elasticity model presented in (Barretta …