METAmaterials for VIbration and Sound reductION

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-DNID: 101072415
EC Contribution
€26,448
Consortium Size
14 orgs
Start Year
2023
Summary

METAVISION aims to reconcile two conflicting trends. On the one hand, people become increasingly aware of the negative health impact of excessive noise and vibration exposure. On the other hand, every kilogram of mass removed from the logistics chain has a direct economic and ecological benefit. Current noise and vibration solutions still require too much mass or volume to be practically feasible, particularly for lower frequencies. There is thus a strong need for low mass, compact material solutions with excellent noise and vibration characteristics, for which recently emerged so-called metamaterials (MM) have shown immense potential. The goal of METAVISION is to provide high-quality training on these innovative solutions to a new generation of high achieving doctoral candidates and to provide them with the scientific and transferable skills needed for successful careers in this key area which brings together scientific, technological, and societal challenges. This will be achieved by combining a research programme which aims to (i) develop novel design and analysis methods in view of broadening the performance and applicability of MM, (ii) revolutionize the manufacturing of MM towards large-scale and versatile solutions and (iii) advance academically proven MM concepts towards industrially relevant applications, with an interdisciplinary training programme composed of scientific and transferable skill courses and intersectoral and international secondments. Both programmes are brought together in unique industrial demonstrator projects. METAVISION gathers universities, research institutes and small- and large-scale industry from manufacturing, construction, transportation, and machine design sectors with the relevant expertise to create the coordinated research environment needed to bring MM from academic concepts to large-scale manufacturable and industrially applicable noise and vibration solutions, paving the way towards a quieter and greener Europe.

Consortium (14)

Project Results (10)

Source: CORDIS, the EU research results database.

Publications (8)
Broadband-omnidirectional absorption using inclined wiremesh gratings
JASA Express Letters· 2025DOI
Juan Pablo Escudero; Jean-Philippe Groby; Vincent Pagneux
3D simulation of porous concrete sonic crystals for noise barrier applications
Proceedings of ISMA2024 International Conference on Noise and Vibration Engineering [and] USD2024 International Conference on Uncertainty in Structural Dynamics, Leuven, 9 to 11 September, 2024· 2024
N. Herrera-Leon; L. Godinho; P. Amado-Mendes; J. Redondo
Impact of design variations of a micro-perforated panel on psychoacoustic metrics of transmitted sound
The Journal of the Acoustical Society of America· 2024DOI
Zhang, Jiahua; De Ryck, Laurent; Cuenca, Jacques; Van Belle, Lucas; Deckers, Elke
Improved vibration isolation of 1D chiral phononic crystals with viscoelastic inserts
· 2024
Mardini, Line; Deckers, Elke; Claeys, Claus; Van Damme, Bart
Low frequency, broadband and thin acoustic metamaterials for acoustic insulation
INTER-NOISE and NOISE-CON Congress and Conference Proceedings· 2024DOI
Nadeen AYYASH, Damien LECOQ, Clément LAGARRIGUE, Adrien PELAT, Francois GAUTIER
Modeling and optimization of a lightweight metamaterial partition for improved sound transmission loss
Proceedings of Techniacústica 2024· 2024
M. Ribera, B. Van Damme, A. Pereira, P. Amado Mendes, L. Godinho
Quantifying the impact of variability on locally resonant metamaterial performance through reduced order modeling
Proceedings of ISMA2024 International Conference on Noise and Vibration Engineering [and] USD2024 International Conference on Uncertainty in Structural Dynamics, Leuven, 9 to 11 September, 2024· 2024
Boukadia, Régis Fabien; Pillot, Yves; Deckers, Elke; Desmet, Wim
Intermediate METAVISION public engagement report
Deliverables (1)
Other Results (1)
Periodic Reporting for period 1 - METAVISION (METAmaterials for VIbration and Sound reductION)