Enhancement of low-frequency vibration suppression in reconfigurable multiphase negative Poisson's ratio metamaterials

IF 2.3 3区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY Physics Letters A Pub Date : 2024-11-26 DOI:10.1016/j.physleta.2024.130113

Yuxin Liu , Yanping Du , Shanshan Tan , Shuihai Dou , Zhaoyong Sun , Jun Yang

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Abstract

In this study, we design reconfigurable multi-phased negative Poisson's ratio metamaterial (NPM) for low-frequency vibration reduction. The designed NPMs consist of a concave hexagonal skeleton and horizontal diamond-shaped counterweights, which incorporate a base material and replaceable metal cores. By replacing these metal cores, the bandgap can be reconfigured and adjusted as needed. Finite element simulations and excitation experiments are employed to investigate the vibration suppression effects of these NPMs. The results show that the three-phase NPM has more advantages in low-frequency vibration reduction, compared with the single-phase and two-phase NPMs. When the metal core of the three-phase NPM is made of a higher-density material (lead), the lower edge of the bandgap is as low as 471.4 Hz, and the bandgap coverage below 1000 Hz reaches 36.1 %. These findings provide new ideas for low-frequency vibration reduction in engineering practice.

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可重构多相负泊松比超材料对低频振动抑制的增强

在这项研究中，我们设计了可重构的多相负泊松比超材料（NPM）用于低频减振。设计的npm由凹面六边形骨架和水平菱形配重组成，配重包括基础材料和可更换的金属芯。通过更换这些金属芯，可以根据需要重新配置和调整带隙。采用有限元模拟和激励实验对这些npm的减振效果进行了研究。结果表明，与单相和两相NPM相比，三相NPM在低频减振方面更具优势。当三相NPM的金属芯由高密度材料（铅）制成时，带隙下缘低至471.4 Hz， 1000 Hz以下的带隙覆盖率达到36.1%。这些发现为工程实践中的低频减振提供了新的思路。

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来源期刊

Physics Letters A 物理-物理：综合

CiteScore

5.10

自引率

3.80%

发文量

493

审稿时长

30 days

期刊介绍： Physics Letters A offers an exciting publication outlet for novel and frontier physics. It encourages the submission of new research on: condensed matter physics, theoretical physics, nonlinear science, statistical physics, mathematical and computational physics, general and cross-disciplinary physics (including foundations), atomic, molecular and cluster physics, plasma and fluid physics, optical physics, biological physics and nanoscience. No articles on High Energy and Nuclear Physics are published in Physics Letters A. The journal''s high standard and wide dissemination ensures a broad readership amongst the physics community. Rapid publication times and flexible length restrictions give Physics Letters A the edge over other journals in the field.

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