In this paper, the forced resonance vibration analysis of curved micro-size beams made of
graphene nanoplatelets (GNPs) reinforced polymer composites is presented. The …

For the first time, forced resonance vibration of Graphene Nano-Platelets (GNPs) reinforced
Functionally Graded Polymer Composite (FG-PC) nanoplates is studied. The effective …

A non-classical Mindlin plate model is developed using a modified couple stress theory. The
equations of motion and boundary conditions are obtained simultaneously through a …

In this contribution, we study the free vibration of non-uniform nano-size beams in thermal
environment. In order to capture the size-dependent effects, we adopt nonlocal strain …

This paper develops a Mindlin microplate model based on the modified couple stress theory
for the free vibration analysis of microplates. This non-classical plate model contains an …

Featured by the two material length parameters in the nonlocal strain gradient theory, it is
still unknown that what are the boundary conditions of nonlocal strain gradient beams, since …

The stress-driven nonlocal integral model of elasticity for 1D nano-structures (Romano &
Barretta, 2017a) is extended in this paper to Kirchhoff axisymmetric nano-plates. The …

A size-dependent Kirchhoff micro-plate model is developed based on the strain gradient
elasticity theory. The model contains three material length scale parameters, which may …

This article deals with the static bending response of a functionally graded polymer
composite (FG-PC) curved beam reinforced with carbon nanotubes (CNTs) subjected to …

The prime aim of the present study is to predict the free vibration behavior of microplates
made of functionally graded materials (FGMs). The material properties of FGM microplates …