Andrzej Mitura scite author profile

An application of the nonlinear saturation control (NSC) algorithm for a self-excited strongly nonlinear beam structure driven by an external force is presented in the paper. The mathematical model accounts for an Euler-Bernoulli beam with nonlinear curvature, reduced to first mode oscillations. It is assumed that the beam vibrates in the presence of a harmonic excitation close to the first natural frequency of the beam, and additionally the beam is self-excited by fluid flow, which is modelled by a nonlinear Rayleigh term for self-excitation. The self- and externally excited vibrations have been reduced by the application of an active, saturation-based controller. The approximate analytical solutions for a full structure have been found by the multiple time scales method, up to the first-order approximation. The analytical solutions have been compared with numerical results obtained from direct integration of the ordinary differential equations of motion. Finally, the influence of a negative damping term and the controller's parameters for effective vibrations suppression are presented.

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Dynamics of a composite Timoshenko beam with delamination

Manoach

Warmiński

Mitura

et al. 2012

Mechanics Research Communications

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Energy recovery from a pendulum tuned mass damper with two independent harvesting sources

Kęcik

Mitura

2020

International Journal of Mechanical Sciences

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Andrzej Mitura

Energy harvesting from a magnetic levitation system

Vibration based damage detection in composite beams under temperature variations using Poincaré maps

Active Vibration Control of a Nonlinear Beam with Self- and External Excitations

Dynamics of a composite Timoshenko beam with delamination

Energy recovery from a pendulum tuned mass damper with two independent harvesting sources

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