Mechanical metamaterials for wave-based SHM and vibration isolation

Rui Zhu; Guoliang Huang; Fuh Gwo Yuan

doi:10.1016/B978-0-443-15476-8.00010-1

Mechanical metamaterials for wave-based SHM and vibration isolation

Rui Zhu, Guoliang Huang, Fuh Gwo Yuan

School of Aerospace Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

In this chapter, a surface-bonded mechanical metamaterial (MMM) array is first designed to focus ultrasonic Lamb waves and increase signal-to-noise ratio for improved damage detection ability in an aluminum plate. Then, an attachable MMM is proposed based on kirigami technique for the directional flexural wave propagation and the attachable elastic hyperlens which offers superresolution possibility for small damage detection. Finally, a chiral-lattice-based MMM beam with multiple local resonators is numerically and experimentally studied for the broadband vibration suppression, which demonstrates the great potential of MMM in low-frequency vibration control of lightweight engineering structures.

Original language	English
Title of host publication	Structural Health Monitoring/Management (SHM) in Aerospace Structures
Publisher	Elsevier
Pages	353-388
Number of pages	36
ISBN (Electronic)	9780443154768
ISBN (Print)	9780443191497
DOIs	https://doi.org/10.1016/B978-0-443-15476-8.00010-1
Publication status	Published - 1 Jan 2024

Keywords

Lamb waves
Mechanical metamaterials
Superresolution
Vibration isolation
Wave focusing

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10.1016/B978-0-443-15476-8.00010-1

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abstract = "In this chapter, a surface-bonded mechanical metamaterial (MMM) array is first designed to focus ultrasonic Lamb waves and increase signal-to-noise ratio for improved damage detection ability in an aluminum plate. Then, an attachable MMM is proposed based on kirigami technique for the directional flexural wave propagation and the attachable elastic hyperlens which offers superresolution possibility for small damage detection. Finally, a chiral-lattice-based MMM beam with multiple local resonators is numerically and experimentally studied for the broadband vibration suppression, which demonstrates the great potential of MMM in low-frequency vibration control of lightweight engineering structures.",

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AU - Zhu, Rui

AU - Huang, Guoliang

AU - Yuan, Fuh Gwo

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N2 - In this chapter, a surface-bonded mechanical metamaterial (MMM) array is first designed to focus ultrasonic Lamb waves and increase signal-to-noise ratio for improved damage detection ability in an aluminum plate. Then, an attachable MMM is proposed based on kirigami technique for the directional flexural wave propagation and the attachable elastic hyperlens which offers superresolution possibility for small damage detection. Finally, a chiral-lattice-based MMM beam with multiple local resonators is numerically and experimentally studied for the broadband vibration suppression, which demonstrates the great potential of MMM in low-frequency vibration control of lightweight engineering structures.

AB - In this chapter, a surface-bonded mechanical metamaterial (MMM) array is first designed to focus ultrasonic Lamb waves and increase signal-to-noise ratio for improved damage detection ability in an aluminum plate. Then, an attachable MMM is proposed based on kirigami technique for the directional flexural wave propagation and the attachable elastic hyperlens which offers superresolution possibility for small damage detection. Finally, a chiral-lattice-based MMM beam with multiple local resonators is numerically and experimentally studied for the broadband vibration suppression, which demonstrates the great potential of MMM in low-frequency vibration control of lightweight engineering structures.

KW - Lamb waves

KW - Mechanical metamaterials

KW - Superresolution

KW - Vibration isolation

KW - Wave focusing

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DO - 10.1016/B978-0-443-15476-8.00010-1

M3 - Chapter

AN - SCOPUS:85199046168

SN - 9780443191497

SP - 353

EP - 388

BT - Structural Health Monitoring/Management (SHM) in Aerospace Structures

PB - Elsevier

ER -

Mechanical metamaterials for wave-based SHM and vibration isolation

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Keywords

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