2022
DOI: 10.1016/j.engstruct.2022.114939
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Enhanced vibration suppression using diatomic acoustic metamaterial with negative stiffness mechanism

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Cited by 23 publications
(2 citation statements)
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“…Zhang et al [23] obtained an ultrawide low-frequency bandgap in acoustic metamaterials through an optimized system topology method. By investigating the bandgap characteristics of acoustic metamaterials, Liu et al [24] demonstrated the superiority of the bandgaps generated by the proposed configuration, and realized ultra-low-frequency vibration control. Wang et al [25] improved a bifocal piezoelectric metamaterial beam, and the co-operative effect of vibration isolation and energy harvesting was verified through simulations.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Zhang et al [23] obtained an ultrawide low-frequency bandgap in acoustic metamaterials through an optimized system topology method. By investigating the bandgap characteristics of acoustic metamaterials, Liu et al [24] demonstrated the superiority of the bandgaps generated by the proposed configuration, and realized ultra-low-frequency vibration control. Wang et al [25] improved a bifocal piezoelectric metamaterial beam, and the co-operative effect of vibration isolation and energy harvesting was verified through simulations.…”
Section: Introductionmentioning
confidence: 99%
“…Das et al [36] studied the bandgap characteristics of cells with different shapes through a combination of experiments and simulations and confirmed that cell shape can affect the bandgap. Liu et al [24] presented an I-shaped radial elastic metamaterial and found that the material can generate ultra-low-frequency wide bandgaps under quasi-static conditions. Moreover, Bae [37], Yang [38], Bera [39], and Muhammad [40] et al have investigated the influence of geometric and material parameters on bandgap properties.…”
Section: Introductionmentioning
confidence: 99%