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Mass-manufacturable metamaterials with passive and smart inclusions for broadband noise and vibration attenuation performance

Grant number: 21/05510-3
Support Opportunities:Regular Research Grants
Duration: April 01, 2022 - March 31, 2025
Field of knowledge:Engineering - Mechanical Engineering - Mechanics of Solids
Convênio/Acordo: Research Foundation - Flanders (FWO)
Principal Investigator:Leopoldo Pisanelli Rodrigues de Oliveira
Grantee:Leopoldo Pisanelli Rodrigues de Oliveira
Principal researcher abroad: Elke Deckers
Institution abroad: University of Leuven, Leuven (KU Leuven), Belgium
Host Institution: Escola de Engenharia de São Carlos (EESC). Universidade de São Paulo (USP). São Carlos , SP, Brazil
Associated researchers:Carlos de Marqui Junior ; Claus Claeys ; Jaime Alberto Mosquera Sánchez ; Lucas Van Belle
Associated scholarship(s):23/00687-8 - Performance improvement of smart metastructures for broadband vibroa-coustic control, BP.PD

Abstract

An increasing awareness of the negative impact of noise and vibration exposure on our health along with ever tightening ecological and economic demands has led to an intensive search for innovative lightweight noise and vibration solutions. Metamaterials have emerged and shown strong potential to outperform traditional solutions. Although promising, the manufacturing of metamaterials is currently far from mature: current state-of-the-art approaches rely on ad-hoc or one-off realizations, while their sub-wavelength and often intricate inclusions pose significant challenges for mass-production. Moreover, their predominantly narrowband performance forms an important hurdle in view of becoming broadly applicable engineering solutions. The focus of this project is to create novel mass-manufacturable metamaterials with passive and smart inclusions for broadband noise and vibration attenuation performance. To reach this challenging goal, a new framework to create mass-manufacturable metamaterials will be developed which combines the mass-production capabilities of injection insert moulding with the high versatility of additive manufacturing to enable integrated complex passive and smart resonant inclusions. An efficient multi-physical metamaterial modeling framework will be developed and built upon to optimize the inclusion parameters and spatial configurations in order to achieve broadband vibro-acoustic performance, which will be validated on manufactured demonstrators. (AU)

Articles published in Agência FAPESP Newsletter about the research grant:
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Scientific publications
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
JANSSEN, STEFAN; VAN BELLE, LUCAS; DE MELO FILHO, NOE GERALDO ROCHA; DESMET, WIM; CLAEYS, CLAUS; DECKERS, ELKE. Improving the noise insulation performance of vibro-acoustic metamaterial panels through multi-resonant design. APPLIED ACOUSTICS, v. 213, p. 11-pg., . (21/05510-3)

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