2022
DOI: 10.1016/j.ymssp.2021.108706
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The periodically extended stiffness nonlinear energy sink

Abstract: Conventional nonlinear energy sinks (NES) are considered to be a more robust alternative to linear vibration absorbers such as the tuned-mass-damper (TMD). While the conventional NES has a larger efficient frequency bandwidth than the TMD, it is only really efficient for a small energy range. This implies a deterioration of the NES's mitigation properties if the primary system's amplitude varies. To overcome this issue, other researchers resort to increasing the complexity of the NES by adding degrees-of-freed… Show more

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Cited by 35 publications
(12 citation statements)
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“…In Type I, II and III, the high performance is only achieved at or near the input energy used for optimization of the NES parameters which limits their application. Therefore, stiffness-based NESs performance has been enhanced by employing hardening and softening in the nonlinear coupling element [68], employing unsymmetrical nonlinear coupling force [69,70], or by including negative linear or nonlinear stiffness content in the coupling nonlinear force [71][72][73][74][75][76][77]. This has resulted in substantial enhancement in the performance of the NES even at high intensity impulsive loadings [73].…”
Section: Stiffness-based Nessmentioning
confidence: 99%
“…In Type I, II and III, the high performance is only achieved at or near the input energy used for optimization of the NES parameters which limits their application. Therefore, stiffness-based NESs performance has been enhanced by employing hardening and softening in the nonlinear coupling element [68], employing unsymmetrical nonlinear coupling force [69,70], or by including negative linear or nonlinear stiffness content in the coupling nonlinear force [71][72][73][74][75][76][77]. This has resulted in substantial enhancement in the performance of the NES even at high intensity impulsive loadings [73].…”
Section: Stiffness-based Nessmentioning
confidence: 99%
“…its natural frequency tends to a constant value. Considering possible practical realizations of a softening NES, in [25,36,38] a device was presented that can tailor-make stiffness characteristics. It would not be able to achieve sgn(x a ) 3 |x a | because of its infinity derivative; therefore, to facilitate computation and future experimental works, the softening and saturation arctan function will be used later on to showcase inverted resonance cascade, as its frequency-energy relation is very similar to the sgn(x a ) 3 |x a | function.…”
Section: Frequency-amplitude Plot Of An Nes With Softening Stiffnessmentioning
confidence: 99%
“…where A h (T ), B j (T ) ∈ C, * stands for complex conjugate and z j is the contribution of mode j to z. Deriving 2A h (T )e iω h T = q h − i qh /ω h and 2B j (T )e jωj T = z j − i żj /ω j yields, after some steps [36]:…”
Section: Slow Invariant Manifold and Stabilitymentioning
confidence: 99%
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“…Consequently, NES has recently attracted the continuous attention of many researchers [11]. Dekemele et al proposed a periodically extended stiffness NES; their results demonstrated that the periodically extended stiffness could overcome the disadvantage of the small effective energy range of the traditional NES [12]. The instantaneous model makes the system coupled with the vibro-impact (VI) NES fall into nonphysical chaotic states.…”
Section: Introductionmentioning
confidence: 99%