Enabling the integration of multi-functional reliable metamaterials in real-life industrial applications for enhancing structural and vibrational behavior

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-DNID: 101119917
EC Contribution
€26,902
Consortium Size
10 orgs
Start Year
2024
Summary

The manufacturing industry is fundamental to the technological sovereignty and competitiveness of the European economy. To maintain the leading position, the sector requires continuous innovations, exploring the limits of material properties. This is particularly the case in high-end technology applications, such as lithography machines and micro-electromechanical systems (MEMS) industry, where the limits of conventional materials come into sight. Metamaterials, built up from rationally, pre-designed architected substructures, hold the promise to outperform conventional materials and redefine the boundaries of industrial design practices. The metamaterial potential can drive the much-needed transformational changes in European manufacturing industry. However, the wide-spread use of metamaterials is hindered by the lack of knowledge of (i) design-for-production principles for metamaterials, (ii) integration at component and system level and (iii) design-for-reliability of metamaterials. METRAMAT will train and deliver 10 researchers skilled in metamaterial development by researching and creating a combined set of design, simulation, manufacturing, testing, reliability assessment and integration tools. The involvement of MEMS, lithography and additive manufacturing industries ensures that scientific training is tuned to existing industrial challenges requiring new fundamental solutions, such as positioning accuracy, sensor sensitivity or shielding of external vibrational disturbances, with emphasis on design for manufacturability and reliability. Together with the transferable skills training, secondments and network, this will provide the doctoral candidates a strong basis for a successful career in industry or academia. The new scientific insights, engineering tools and educational programs to be developed within METRAMAT program will pave the way to wide-spread manufacturing and application of metamaterials in European industry, elevating it to the next level.

Consortium (10)

Project Results (2)

Source: CORDIS, the EU research results database.

Publications (2)
Comparing geometry and mechanical performance of as built and Hirtisation® treated Al-Cu-Mg-Ag-Ti-B-Si-Fe rhombic dodecahedron lattices manufactured by laser powder bed fusion
Additive Manufacturing Letters· 2025DOI
Ira Papamalama, Emilie Beevers, Berk Baris Celik, Michael Doppler, Selma Hansal, Brecht Van Hooreweder
Torsional and axial tension/compression fatigue behavior of Ti-6Al-4V diamond lattices produced by Laser Powder Bed Fusion (LPBF)
International Journal of Fatigue· 2025DOI
Sameer D. Meshram, Elina Vanderhenst, Antonio Cutolo, Brecht Van Hooreweder