Wyniki wyszukiwania - BazTech

1

Dynamics and energy harvesting control of an autoparametric pendulum-like system

Mitura A., Kecik K., Augustyniak M.

Przegląd Elektrotechniczny

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2018

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R. 94, nr 7

82--85

EN

This paper describes experimental rig used to research system with a pendulum. The pendulum has a double functions. Firstly, it is applied as a non-linear vibration absorber for a simple oscillator. Secondly, an additional magnets-coil subsystem mounted inside a pendulum structure gives possibility of energy recovery. Influence of an oscillator suspension damping and stiffness control on effectiveness of both effects are presented.

PL

Praca opisuje stanowisko eksperymentalne wykorzystywane do badań systemu z wahadłem. Wahadło ma podwójną funkcję. Po pierwsze, jest zastosowane jako nieliniowy eliminator drgań prostego oscylatora. Dodatkowy podukład magnesów i cewki zamontowany na wahadle umożliwia odzyskiwanie energii z jego ruchu. Przedstawiono wpływ sterowania tłumieniem lub sztywnością zawieszenia na skuteczność obu efektów.

2

Effect of Magnet-Coil Conﬁguration on Energy Recovery from an Electromagnetic Harvester

Kecik K., Pawlak P.

Machine Dynamics Research

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2018

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Vol. 42, No. 2

35--43

EN

This paper presents a numerical and experimental analysis of a magnetic levitation (maglev) energy harvester. The motion of a magnet in a coil causes electromagnetic induction and energy harvesting. A new model of coupling electrical and mechanical systems depending on the coil position is proposed. The obtained results show that the magnet-coil conﬁguration strongly inﬂuences the energy harvesting level. The best position of a magnet oscillation is near the coil’s end. Moreover, the foldover effect can be ampliﬁed.

3

Influences of system parameters on energy harvesting from autoparametric absorber. Numerical research

Mitura A., Kecik K.

Vibrations in Physical Systems

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2016

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Vol. 27

281--286

EN

In the paper a numerical analysis of an autoparametric system is presented. The two main elements of a tested system are the pendulum (tuned mass absorber) and an energy harvester. The electromechanical model takes into account these both effects. Numerical simulations are made in a MATLAB software environment. The obtained results allowed estimation of influence of the system parameters on efficiency of energy harvesting.

4

Influences of system parameters on energy harvesting from autoparametric absorber. Experimental research

Mitura A., Kecik K.

Vibrations in Physical Systems

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2016

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Vol. 27

287--291

EN

In the paper an experimental analysis of an autoparametric system dedicated to vibration suppression and energy recovery is presented. The main part is an electromagnetic energy harvester. Its properties were defined by quasi static and dynamic tests. The obtained results show influence of selected parameters on energy recovery level. The experimentally identification of electromechanical coupling coefficient which couples mechanical and electrical systems is done.

5

Dynamics of composite materials cutting

Rusinek R., Kecik K., Warminski J.

Advances in Manufacturing Science and Technology

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2011

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Vol. 35, nr 3

31-37

EN

The paper presents stability analysis of milling process of epoxide polymer composite material with carbon fibres. In order to determine zones of stable milling, times series of cutting forces are applied. Next, recurrence quantification analysis is conducted which can define three stability indexes: recurrence rate, ratio of recurrence rate to determinism, and recurrence time. Finally, stability lobs diagram for the composite material is proposed.

PL

W pracy zaprezentowano wyniki badania stabilności procesu frezowania kompozytu epoksydowo-polimerowego wzmacnianego włóknem węglowym. Określono obszary skrawania stabilnego. Prowadzono analizę przebiegów czasowych sił skrawania opartą na kwantyfikatorach wykresów rekurencyjnych. Stosowano trzy z nich: recurrence rate, proporcję recurrence rate i determinizmu oraz czas rekurencji. Opracowano wykres stabilności frezowania materiału kompozytowego.