Analysis of dry friction dynamics in a vibro-impact energy harvester
Analysis of dry friction dynamics in a vibro-impact energy harvester
Vibro-impact (VI) systems provide a promising nonlinear mechanism for energy harvesting (EH) in many engineering applications. Here, we consider a VI-EH system that consists of an inclined cylindrical capsule that is externally forced and a bullet that is allowed to move inside the capsule, and analyze its dynamics under the presence of dry friction. Dry friction introduces a switching manifold corresponding to zero relative velocity where the bullet sticks to the capsule, appearing as sliding in the model. We identify analytical conditions for the occurrence of non-stick and sliding motions, and construct a series of nonlinear maps that capture model solutions and their dynamics on the switching and impacting manifolds. An interplay of smooth (period-doubling) and non-smooth (grazing) bifurcations characterizes the transition from periodic solutions with alternating impacts to solutions with an additional impact on one end of the capsule per period. This transition is preceded by a sequence of grazing-sliding, switching-sliding and crossing-sliding bifurcations on the switching manifold that may reverse period doubling bifurcations for larger values of the dry friction coefficient. In general, a larger dry friction coefficient also results in larger sliding intervals, lower impact velocities yielding lower average energy outputs, and a shift in the location of some bifurcations. Surprisingly, we identify parameter regimes in which higher dry friction maintains higher energy output levels, as it shifts the location of grazing bifurcations.
math.DS, 37G15, 74H60, 74H45, 74M20, 70K50, 34A36
Athanasouli, Christina
c8c3dae0-a729-4929-a7a2-a2bc59c47c68
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Kuske, Rachel
bc23aa89-d93d-4210-921c-20cf31931417
17 February 2025
Athanasouli, Christina
c8c3dae0-a729-4929-a7a2-a2bc59c47c68
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Kuske, Rachel
bc23aa89-d93d-4210-921c-20cf31931417
[Unknown type: UNSPECIFIED]
Abstract
Vibro-impact (VI) systems provide a promising nonlinear mechanism for energy harvesting (EH) in many engineering applications. Here, we consider a VI-EH system that consists of an inclined cylindrical capsule that is externally forced and a bullet that is allowed to move inside the capsule, and analyze its dynamics under the presence of dry friction. Dry friction introduces a switching manifold corresponding to zero relative velocity where the bullet sticks to the capsule, appearing as sliding in the model. We identify analytical conditions for the occurrence of non-stick and sliding motions, and construct a series of nonlinear maps that capture model solutions and their dynamics on the switching and impacting manifolds. An interplay of smooth (period-doubling) and non-smooth (grazing) bifurcations characterizes the transition from periodic solutions with alternating impacts to solutions with an additional impact on one end of the capsule per period. This transition is preceded by a sequence of grazing-sliding, switching-sliding and crossing-sliding bifurcations on the switching manifold that may reverse period doubling bifurcations for larger values of the dry friction coefficient. In general, a larger dry friction coefficient also results in larger sliding intervals, lower impact velocities yielding lower average energy outputs, and a shift in the location of some bifurcations. Surprisingly, we identify parameter regimes in which higher dry friction maintains higher energy output levels, as it shifts the location of grazing bifurcations.
Text
2502.12288v1
- Author's Original
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Published date: 17 February 2025
Keywords:
math.DS, 37G15, 74H60, 74H45, 74M20, 70K50, 34A36
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Local EPrints ID: 501818
URI: http://eprints.soton.ac.uk/id/eprint/501818
PURE UUID: e49f6ae2-7784-4772-9e16-7b86a43fd382
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Date deposited: 10 Jun 2025 16:54
Last modified: 11 Jun 2025 02:08
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Author:
Christina Athanasouli
Author:
Daniil Yurchenko
Author:
Rachel Kuske
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