In this paper, the transverse free vibration and stability are analyzed for spinning pipes
conveying fluid as a typical example of doubly gyroscopic systems. The partial differential …

This paper deals with the dynamic analysis of rotating laminated shafts. A new multi-layer
finite element for rotating laminated shaft based on layerwise and shaft theories is …

This paper studies the free vibration of an axially functionally graded beam spinning with
constant angular speed about its longitudinal axis. Material properties of the beam are …

Modern life is marked with the extensive use of machine tools. The latter stand for high
consumers of electrical energy which increase carbon emissions. For this reason, various …

This paper analytically studies the effect of functionally graded materials (FGMs) on the
primary resonances of large amplitude flexural vibration of in-extensional rotating shafts with …

Carbon-based nanocomposite drive shafts have received considerable attention because of
their excellent material and mechanical properties, with applications in modern aerospace …

This article deals with the finite element (FE) modeling and dynamics analysis of
bidirectional functionally graded (2D-FG) rotating shaft system considering temperature …

In this paper the dynamic analysis of a shaft rotor whose support is mobile is studied. For the
calculation of kinetic energy and stiffness energy, the beam theory of Euler Bernoulli was …

In this paper, we analyze the dynamic behavior of a functionally graded (FG) rotor-blade
system using the classical version of the finite element method (h-FEM). The Euler-Bernoulli …

Purpose The main aim of this work is to investigate the free vibration of functionally graded
rotating nanotubes using the Euler–Bernoulli beam theory under the assumptions of …