Rotating composite beams and blades have a wide range of applications in various
engineering structures such as wind turbines, industrial fans, and steam turbines. Therefore …

A CENTRAL design problem for wind turbine rotors is the question of vibrations due to the
flexibility of the blades and the support. The vibration modes involve coupling between the …

The influence of the nonlinear bi-stable attachment on the vibration suppression of a pre-
twisted rotating cantilever beam is investigated in this study. The kinetic and potential …

A new strategy for vibration suppression of a rotating beam using a time-increasing internal
tensile force is proposed in this paper. Nonlinear coupled longitudinal and bending …

Structural modeling of rotating pre-twisted thin-walled composite beams with embedded
macro fiber composite (MFC) actuators and sensors using higher shear deformation theory …

Rotating structures, like eg wind turbine blades, may be prone to vibrations associated with
particular modes of vibration. It is demonstrated, how this type of vibrations can be reduced …

Optimal control of a thin-walled rotating beam is considered using a higher-order shear
deformation theory (HSDT). The beam is pretwisted, doubly tapered, and carries a tip rotor. It …

The aim of this article is to analyze classical flutter and active control of single‐cell thin‐
walled composite wind turbine blade beam based on piezoelectric actuation. Effects of …

The problem of rotating blade vibrations has been recognized as one of the major causes of
the system failure in many applications of engineering systems such as turbine blades of …

The dynamics of a system consisting of a rotating rigid hub and a thin-walled composite
beam with embedded active element is presented. The beam comprises of a generally …