Pré-Publication, Document De Travail Année : 2025

Increasing dynamic range of NESs by using geometric nonlinear damping

Résumé

The paper deals with the passive control of resonant systems using nonlinear energy sink (NES). The objective is to highlight the benefits of adding nonlinear geometrical damping in addition to the cubic stiffness nonlinearity. The behaviour of the system is investigated theoretically by using the mixed harmonic balance multiple scales method. Based on the obtained slow flow equations, a design procedure that maximizes the dynamic range of the NES is presented. Singularity theory is used to express conditions for the birth of detached resonance cure independently of the forcing frequency. It is shown that the presence of a detached resonance curve is not necessarily detrimental to the performance of the NES. Moreover, the detached resonance curve can be completely suppressed by adding nonlinear damping. The results of the design procedure are then compared to numerical simulations.

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Dates et versions

hal-05044676 , version 1 (25-03-2024)
hal-05044676 , version 2 (05-09-2024)
hal-05044676 , version 3 (23-04-2025)
hal-05044676 , version 4 (24-04-2025)
hal-05044676 , version 5 (16-03-2026)

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  • HAL Id : hal-05044676 , version 3

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Etienne Gourc, Pierre-Olivier Mattei, Renaud Côte, Matteo Capaldo. Increasing dynamic range of NESs by using geometric nonlinear damping. 2025. ⟨hal-05044676v3⟩
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