Giuseppe Habib scite author profile

a b s t r a c tThis study addresses the mitigation of a nonlinear resonance of a mechanical system. In view of the narrow bandwidth of the classical linear tuned vibration absorber, a nonlinear absorber, termed the nonlinear tuned vibration absorber (NLTVA), is introduced in this paper. An unconventional aspect of the NLTVA is that the mathematical form of its restoring force is tailored according to the nonlinear restoring force of the primary system. The NLTVA parameters are then determined using a nonlinear generalization of Den Hartog's equal-peak method. The mitigation of the resonant vibrations of a Duffing oscillator is considered to illustrate the proposed developments.

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Performance, robustness and sensitivity analysis of the nonlinear tuned vibration absorber

Detroux

Habib

Masset

et al. 2015

Mechanical Systems and Signal Processing

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The nonlinear tuned vibration absorber (NLTVA) is a recently-developed nonlinear absorber which generalizes Den Hartog's equal peak method to nonlinear systems. If the purposeful introduction of nonlinearity can enhance system performance, it can also give rise to adverse dynamical phenomena, including detached resonance curves and quasiperiodic regimes of motion. Through the combination of numerical continuation of periodic solutions, bifurcation detection and tracking, and global analysis, the present study identifies boundaries in the NLTVA parameter space delimiting safe, unsafe and unacceptable operations. The sensitivity of these boundaries to uncertainty in the NLTVA parameters is also investigated.

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The tuned bistable nonlinear energy sink

2017

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A bistable nonlinear energy sink conceived to mitigate the vibrations of host structural systems is considered in this paper. The hosting structure consists\ud of two coupled symmetric linear oscillators (LOs), and the nonlinear energy sink (NES) is connected to one of them. The peculiar nonlinear dynamics of the resulting three-degree-of-freedom system is analytically described by means of its slow invariant manifold derived from a suitable rescaling, coupled with a harmonic balance procedure, applied to the governing equations transformed in modal coordinates. On the\ud basis of the first-order reduced model, the absorber is tuned and optimized to mitigate both modes for a broad\ud range of impulsive load magnitudes applied to the LOs. On the one hand, for low-amplitude, in-well, oscillations,\ud the parameters governing the bistable NES are tuned in order to make it functioning as a linear tuned\ud mass damper (TMD); on the other, for high-amplitude, cross-well, oscillations, the absorber is optimized on\ud the basis of the invariant manifolds features. The analytically predicted performance of the resulting tuned\ud bistable nonlinear energy sink (TBNES) is numerically validated in terms of dissipation time; the absorption\ud capabilities are eventually compared with either aTMD and a purely cubic NES. It is shown that, for a wide\ud range of impulse amplitudes, the TBNES allows the most efficient absorption even for the detuned mode,\ud where a single TMD cannot be effective

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A principle of similarity for nonlinear vibration absorbers

Habib

Kerschen

2016

Physica D: Nonlinear Phenomena

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This paper develops a principle of similarity for the design of a nonlinear absorber, the nonlinear tuned vibration absorber (NLTVA), attached to a nonlinear primary system. Specifically, for effective vibration mitigation, we show that the NLTVA should feature a nonlinearity possessing the same mathematical form as that of the primary system. A compact analytical formula for the nonlinear coefficient of the absorber is then derived. The formula, valid for any polynomial nonlinearity in the primary system, is found to depend only on the mass ratio and on the nonlinear coefficient of the primary system. When the primary system comprises several polynomial nonlinearities, we demonstrate that the NLTVA obeys a principle of additivity, i.e., each nonlinear coefficient can be calculated independently of the other nonlinear coefficients using the proposed formula

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Suppression of limit cycle oscillations using the nonlinear tuned vibration absorber

Habib

Kerschen

2015

Proc. R. Soc. A.

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The objective of this study is to mitigate, or even completely eliminate, the limit cycle oscillations in mechanical systems using a passive nonlinear absorber, termed the nonlinear tuned vibration absorber (NLTVA). An unconventional aspect of the NLTVA is that the mathematical form of its restoring force is not imposed a priori, as it is the case for most existing nonlinear absorbers. The NLTVA parameters are determined analytically using stability and bifurcation analyses, and the resulting design is validated using numerical continuation. The proposed developments are illustrated using a Van der Pol-Duffing primary system.

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Giuseppe Habib

Nonlinear generalization of Den Hartog׳s equal-peak method

Performance, robustness and sensitivity analysis of the nonlinear tuned vibration absorber

The tuned bistable nonlinear energy sink

A principle of similarity for nonlinear vibration absorbers

Suppression of limit cycle oscillations using the nonlinear tuned vibration absorber

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