Many engineering structures are composed of weakly coupled sectors assembled
in a cyclic and ideally symmetric configuration, which can be simplified as
forced Duffing oscillators. In this paper, we study the emergence of localized
states in the weakly nonlinear regime. We show that multiple spatially
localized solutions may exist, and the resulting bifurcation diagram strongly
resembles the snaking pattern observed in a variety of fields in physics, such
as optics and fluid dynamics. Moreover, in the transition from the linear to
the nonlinear behaviour isolated branches of solutions are identified.
Localization is caused by the hardening effect introduced by the nonlinear
stiffness, and occurs at large excitation levels. Contrary to the case of
mistuning, the presented localization mechanism is triggered by the
nonlinearities and arises in perfectly homogeneous systems

Ciavarella, M.

Fontanela, F.

Grolet, A.

Hoffmann, N.

Papangelo, A.

Journal of Sound and Vibration

English

arXiv

Papangelo, A

Fontanela, F

Grolet, A

Ciavarella, M

Hoffmann, N

Spiral - Imperial College Digital Repository

Multistability and localization in forced cyclic symmetric structures modelled by weakly-coupled Duffing oscillators

Many engineering structures are composed of weakly coupled sectors assembled in a cyclic and ideally symmetric configuration, which can be simplified as forced Duffing oscillators. In this paper, we study the emergence of localized states in the weakly nonlinear regime. We show that multiple spatially localized solutions may exist, and the resulting bifurcation diagram strongly resembles the snaking pattern observed in a variety of fields in physics, such as optics and fluid dynamics. Moreover, in the transition from the linear to the nonlinear behaviour isolated branches of solutions are identified. Localization is caused by the hardening effect introduced by the nonlinear stiffness, and occurs at large excitation levels. Contrary to the case of mistuning, the presented localization mechanism is triggered by the nonlinearities and arises in perfectly homogeneous systems

PAPANGELO, Antonio

FONTANELA, Filipe

GROLET, Aurélien

CIAVARELLA, Michele

HOFFMANN, Norbert

SAM;  the Arts et Métiers ParisTech open access repository

SAM : Science Arts et Métiers

International audienceMany engineering structures are composed of weakly coupled sectors assembled in a cyclic and ideally symmetric configuration, which can be simplified as forced Duffing oscillators. In this paper, we study the emergence of localized states in the weakly nonlinear regime. We show that multiple spatially localized solutions may exist, and the resulting bifurcation diagram strongly resembles the snaking pattern observed in a variety of fields in physics, such as optics and fluid dynamics. Moreover, in the transition from the linear to the nonlinear behaviour isolated branches of solutions are identified. Localization is caused by the hardening effect introduced by the nonlinear stiffness, and occurs at large excitation levels. Contrary to the case of mistuning, the presented localization mechanism is triggered by the nonlinearities and arises in perfectly homogeneous systems

Papangelo, Antonio

Fontanela, Filipe

Grolet, Aurelien

Ciavarella, Michele

Hoffmann, Norbert

HAL: Hyper Article en Ligne

Multistability and localization in forced cyclic symmetric structures
  modelled by weakly-coupled Duffing oscillators

Multistability and localization in forced cyclic symmetric structures modelled by weakly-coupled Duffing oscillators

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Spiral - Imperial College Digital Repository

SAM; the Arts et Métiers ParisTech open access repository

SAM : Science Arts et Métiers

HAL: Hyper Article en Ligne