Comments on nonlinear dynamics asymmetric behavior in bi-stable energy harvesters

In this work, we explore the nonlinear dynamics for capturing energy from a device, which is considered support with cantilever beam ferromagnetic containing piezoceramic patches connected to an electrical circuit that collects energy for capture. The free end of the ferromagnetic cantilever beam is...

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Veröffentlicht in:	Archive of applied mechanics (1991) 2023-12, Vol.93 (12), p.4273-4278
Hauptverfasser:	Ribeiro, Mauricio A., Daum, Hilson H., Tusset, Angelo M., Balthazar, Jose M., Silva, Rodrigo N., Machado, Raphaela C., Litak, Grzegorz
Format:	Artikel
Sprache:	eng
Schlagworte:	Asymmetry Cantilever beams Circuits Classical Mechanics Dynamic characteristics Energy Energy consumption Energy distribution Energy harvesting Engineering Ferromagnetism Human motion Magnetic poles Nonlinear dynamics Potential energy Technical Notes Theoretical and Applied Mechanics
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container_title	Archive of applied mechanics (1991)
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creator	Ribeiro, Mauricio A. Daum, Hilson H. Tusset, Angelo M. Balthazar, Jose M. Silva, Rodrigo N. Machado, Raphaela C. Litak, Grzegorz
description	In this work, we explore the nonlinear dynamics for capturing energy from a device, which is considered support with cantilever beam ferromagnetic containing piezoceramic patches connected to an electrical circuit that collects energy for capture. The free end of the ferromagnetic cantilever beam is under the effect of two magnetic poles, and we consider an asymmetric potential for the magnetic poles. However, the influence of asymmetry in bi-stable energy collectors can change the potential well and adjust the distribution of its potential energy. Charging in the potential well also modifies the unstable equilibrium positions thus altering the dynamic characteristics of the device and thus benefiting the use of energy under various excitation conditions. Furthermore, asymmetric potentials combine with the movement of human lower limbs for applications in energy harvesting devices in such displacement. As numerical results, we explored the nonlinear dynamics and established the sets of parameters for the convergence of the trajectories and the regions of maximum average output power.
doi_str_mv	10.1007/s00419-023-02507-z
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subjects	Asymmetry Cantilever beams Circuits Classical Mechanics Dynamic characteristics Energy Energy consumption Energy distribution Energy harvesting Engineering Ferromagnetism Human motion Magnetic poles Nonlinear dynamics Potential energy Technical Notes Theoretical and Applied Mechanics
title	Comments on nonlinear dynamics asymmetric behavior in bi-stable energy harvesters
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