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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Magnetorheological damping and semi-active control of an autoparametric vibration absorber

et al. 2014

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A numerical study of an application of magnetorheological (MR) damper for semi-active control is presented in this paper. The damper is mounted in the suspension of a Duffing oscillator with an attached pendulum. The MR damper with properties modelled by a hysteretic loop, is applied in order to control of the system response. Two methods for the dynamics control in the closed-loop algorithm based on the amplitude and velocity of the pendulum and the impulse on-off activation of MR damper are proposed. These concepts allow the system maintaining on a desirable attractor or, if necessary, to change a position from one attractor to another. Additionally, the detailed bifurcation analysis of the influence of MR damping on the number of periodic solutions and their stability is shown by continuation method. The influence of MR damping on the chaotic behavior is studied, as well.

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Dynamic control of kinematically excited laminated, thin-walled beam using macro fibre composite actuator

Gawryluk

Mitura

Teter

2020

Composite Structures

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Dynamics of a laminated composite beam with delamination and inclusions

Manoach

Warmiński

Mitura

et al. 2013

Eur. Phys. J. Spec. Top.

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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

Magnetorheological damping and semi-active control of an autoparametric vibration absorber

Dynamic control of kinematically excited laminated, thin-walled beam using macro fibre composite actuator

Dynamics of a laminated composite beam with delamination and inclusions

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