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Completed HORIZON European Commission

Multi-material additive manufacturing for lightweight and thermal management

€4.07M EUR

Funder European Commission
Recipient Organization Fundacion Centro Tecnologico Metalmecanica Y Del Transporte (Cetemet)
Country Spain
Start Date Dec 01, 2022
End Date Nov 30, 2025
Duration 1,095 days
Number of Grantees 10
Roles Coordinator; Participant; Third Party; Associated Partner
Data Source European Commission
Grant ID 101091495
Grant Description

The 26th Climate Change Conference has highlighted the urgent need to reduce global carbon dioxide emissions to limit global warming.

The transport sector accounts for approx. 16% of the global carbon emissions and has identified fleet electrification as the primary route to achieving climate neutrality.

However, the main challenges are the current weight of components and the cost of new systems to ensure efficiency and long-term sustainability.

As a result, the industry has recognised the need for transformative technologies and production methods to develop lighter, more efficient, and cost-effective solutions to enable this transition and achieve climate neutrality.With their outstanding mechanical strength, Carbon Fibre Composites (CFC) have been increasingly used to replace metals in products requiring lightweight features, such as aircraft or high-performance vehicles.

However, due to the traditional manufacturing process and poor thermal conductivity, the use of CFC has been limited to structural applications.

For example, batteries, electrical motors, and power electronics, where power losses need to be efficiently dissipated, typically require separate heat exchangers, resulting in heavier and less cost-effective solutions that still utilize bulky designs and heavy materials.The vision of MULTHEM is to develop a reliable and validated Additively Manufactured (AM) CFC process with enhanced thermal conductivity with different material combinations and nanotechnology.

This innovative approach will allow the development of components, such as battery and motor housings with dual functionality comprising structural and cooling features and with a more cost-effective approach than traditional methods.

This solution will enhance the product performance, first by the weight reduction achieved by designs that only AM enables, and second, by using CFC-metal structures with enhanced thermal conductivity strategies, lighter and stronger than aluminium or steel.

All Grantees

Fundacion Centro Tecnologico Metalmecanica Y Del Transporte (Cetemet); Eirecomposites Teoranta; Nederlandse Organisatie Voor Toegepast Natuurwetenschappelijk Onderzoek Tno; Fraunhofer Gesellschaft Zur Forderung Der Angewandten Forschung Ev; Thales Six Gts France Sas; Luxembourg Institute of Science and Technology; Brunel University London; Thales; Prima Additive Srl; Solmatek Solutions Sl

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