A rotating pre-twisted and inclined cantilever beam model (RPICBM) with the flapwise-
chordwise-axial-torsional coupling is established with the Hamilton principle and the finite …

A clamped rotating thin-walled composite elastic blade subjected to periodic base excitation
is considered in this paper. The mathematical model of the structure captures the complex …

In the transportation domain, on-board rotors in bending are subjected not only to rotating
mass unbalance but also to several movements of their base. The main objective of this …

A finite element model is presented to study the static and dynamic stability of a pre-twisted
Timoshenko beam having asymmetric aerofoil cross-section subjected to an axial periodic …

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 …

The finite element method is applied to study the static and dynamic stability of an aerofoil
cross-section rotating blade subjected to an axial periodic force. The effects of coupling due …

Dynamic instability analysis of doubly-tapered cantilever composite beams rotating with
periodic rotational velocity is conducted in the present work for out-of-plane bending (flap) …

This study is concerned with the stability analysis for various vibrational motions of tow-
steered variable angle fibres based composite rotating beam with time varying speed. The …

This paper presents a finite element model for the static and dynamic stability study of a
pretwisted aerofoil cross-section rotating blade subjected to an axial periodic force. The …

Static and dynamic stability of a blade having asymmetric aerofoil cross-section subjected to
an axial periodic force is studied by using the finite element method. The effects of shear …