A review on nonlinear energy sinks: designs, analysis and applications of impact and rotary types

Saeed, Adnan S.; Nasar, Rafath Abdul; AL-Shudeifat, Mohammad A.

doi:10.1007/s11071-022-08094-y

Cited by 80 publications

(15 citation statements)

References 253 publications

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“…𝑎 𝑟𝑃 is the r th -order modal static displacement. Substituting ( 4), ( 5), ( 6), ( 7), ( 8), (9), and ( 14) into ( 10), ( 11), ( 12) and ( 13) leads to…”

Section: / 36mentioning

confidence: 99%

“…The characteristic frequency of TMD is tuned to a specific structural mode frequency, at which a significant portion of the vibration energy entering the structure is captured. However, in practical applications, TMD has been found to possess poor robustness due to the detuned frequency induced by unexpected actions, aging, and extreme loading conditions [9].…”

Section: Introductionmentioning

confidence: 99%

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Supplementary force effect of nonlinear energy sink inerter on vortex-induced vibration mitigation in a multiple-span structure

Xie,

Xu,

Gao

et al. 2024

Preprint

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Nonlinear energy sinks (NESs) with broad energy absorption and inerters with substantial mass amplification effect have found widespread investigation for vortex-induced vibration (VIV) control in recent years. However, these studies commonly overlook the sensitivity of vertical nonlinear vibration systems to additional loading effect, especially in terms of weight variations. To this end, the present study delves into the examination of the influence exerted by weighty nonlinear energy sink inerters (NESIs), specifically the bistable nonlinear energy sink inerter (BNESI) and the cubic stiffness nonlinear energy sink inerter (CNESI), on the control efficacy of VIV in structures. Universal models for the NESI-beam system, accounting for the effects of weight, have been established and numerically solved. It has been found that VIV is more sensitive to weight effects compared to harmonic forced vibration (HFV), as under weight, VIV vibrations generate more transient resonance capture (TRC) frequency ratio components, leading to a decrease in vibration control capability. The degradation of the VIV control capability is essentially due to the variation in the effective control parameter range of NESI caused by weight effects. The adoption of inerters with small inertance coefficients and large spacing between ends can significantly overcome this limitation. Moreover, the enhanced NESI system balances weight by positive linear stiffness elements, thus circumventing the impact of weight on the nonlinear stiffness system. It not only eliminates weight effects but also restricts static displacement of the mass block.

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“…𝑎 𝑟𝑃 is the r th -order modal static displacement. Substituting ( 4), ( 5), ( 6), ( 7), ( 8), (9), and ( 14) into ( 10), ( 11), ( 12) and ( 13) leads to…”

Section: / 36mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Supplementary force effect of nonlinear energy sink inerter on vortex-induced vibration mitigation in a multiple-span structure

Xie,

Xu,

Gao

et al. 2024

Preprint

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show abstract

“…with possible feedback (named active control in this scientific literature) to increase its performance [236].…”

Section: Joint Clearance (Dynamic Backlash)mentioning

confidence: 99%

Modeling, analysis and control of robot–object nonsmooth underactuated Lagrangian systems: A tutorial overview and perspectives

Brogliato

2023

Annual Reviews in Control

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“…There are comprehensive reviews of state-of-the-art researches on NESs [6,7,8,9], monographs [8,10], and numerous articles on this problem [3,11,12,13]. The recent review is presented in [14].…”

Section: Introductionmentioning

confidence: 99%

Vibro-impact damper dynamics depending on system parameters

Lizunov

Pogorelova

Postnikova

2023

Preprint

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Purpose The considered vibro-impact damper corresponds to the scheme of single-sided vibro-impact nonlinear energy sink (SSVI NES). Although the vibration engineering has been studying the problem of mitigation the undesirable vibrations for many years, it remains relevant today. The dynamic behavior and efficiency of many different NES types are strongly dependent on system parameters and initial conditions. The present research aims to show the rich complex dynamics of vibro-impact damper with optimized parameters and its effectiveness when changing parameters both its own and periodic exciting force. Methods We assume that an impact has a finite duration and simulate it using nonlinear Hertz contact force. The direct numerical integration of stiff differential motion equations is carried out using the software Octave. The optimization of the damper parameters is performed by the Octave and MatLab solvers. We analyze the displacements and velocities time histories, the phase trajectories, the topological structure of numerical Poincaré maps, the contact forces graphs for the oscillatory regimes diagnostics. Results Two dampers versions with optimized parameters mitigate the primary structure vibrations; the absorber with a larger mass reduces them more strongly. The system motion with a lighter damper is almost periodic with rare bursts of irregular movement, but the system motion with a heavier damper is essentially irregular with complex dynamics. The vibrations mitigation occurs in a wide range of the exciting force amplitudes, but in the range of its frequencies only above the resonant one; the damper presence shifts the resonant peak. Conclusions The efficiency of SSVI NES with optimized parameters is demonstrated when changing the exciting force parameters. The parameters ranges where the vibrations mitigation occurs are shown. The results of damper parameters optimization may be ambiguous and should be checked and analyzed. They can determine such parameters values that provide good vibrations reduction, but create irregular motion regimes with complex dynamics; this should be taken into account when designing a SSVI NES.

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A review on nonlinear energy sinks: designs, analysis and applications of impact and rotary types

Cited by 80 publications

References 253 publications

Supplementary force effect of nonlinear energy sink inerter on vortex-induced vibration mitigation in a multiple-span structure

Supplementary force effect of nonlinear energy sink inerter on vortex-induced vibration mitigation in a multiple-span structure

Modeling, analysis and control of robot–object nonsmooth underactuated Lagrangian systems: A tutorial overview and perspectives

Vibro-impact damper dynamics depending on system parameters

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