Resilient and sustainable critical raw materials REE supply chains for the e-mobility and renewable energy ecosystems and strategic sectors

Digital, Industry & SpaceHORIZON-IAID: 101058598
EC Contribution
€97,344
Consortium Size
20 orgs
Start Year
2022
Summary

Rare Earths (RE) are crucial materials for Europe's successful green and digital transition, thus classified as highly critical. The market for RE magnets itself is relatively small - about €6.5 billion - however its downstream leverage is enormous: the mobility business in the EU27 alone is expected to grow to about €500 billion by 2030, with 6 million jobs.While being a world leader in the manufacturing of e.g. electric motors, the EU27 is fully import-dependent along the entire value chain of RE magnet materials. Despite a growing market, European magnet production capacity is underutilised and tends to serve specialised niche applications. In addition, RE magnets are increasingly imported as part of motors and generator assemblies and products. The main reasons for these developments are that China has a monopoly in the RE supply chain across all stages from mining to refining.To overcome this issue, REEsilience will categorise RE for geographic locations, quantities, chemical composition, ethical and sustainable indicators, ramp-up scenarios, and pricing, considering all value streams from virgin to secondary material. It will build a production system that ensures a resilient and sustainable supply chain for RE as critical raw materials for the e-mobility, renewable energy and further strategic sectors in Europe with less dependencies on non-European economies. A newly-developed software tool will determine optimum mixing ratios to ensure consistently high product quality with maximum secondary materials for high-tech applications. Combined with new and improved technologies for alloy production and powder preparation, especially of secondary materials, the yield and stability of processes will be further enhanced, allowing further augmentation of the proportion of secondary materials in RE PM production, reducing at the same time waste, environmental damage, and consumption of energy linked with virgin production.

Consortium (20)

Project Results (16)

Source: CORDIS, the EU research results database.

Publications (12)
A Rapid Thermal‐Radiation‐Assisted Sintering Strategy for Nd–Fe–B‐Type Magnets
Advanced Engineering Materials· 2025DOI
Tomaž Tomše, Aljaž Ivekovič, Andraž Kocjan, Sašo Šturm, Kristina Žužek
Short-Loop Recycling of Nd-Fe-B Permanent Magnets: A Sustainable Solution for the RE2Fe14B Matrix Phase Recovery
Materials· 2025DOI
Amit Mishra, Sina Khoshsima, Tomaž Tomše, Benjamin Podmiljšak, Sašo Šturm, Carlo Burkhardt, Kristina Žužek
The dynamics of accelerating end-of-life rare earth permanent magnet recycling: A technological innovation systems approach
Applied Energy· 2025DOI
Maarten Koese, Sander van Nielen, Jessie Bradley, René Kleijn
Automated High-Speed Approaches for the Extraction of Permanent Magnets from Hard-Disk Drive Components for the Circular Economy
Magnetism· 2024DOI
Carlo Burkhardt; Francisco Ortiz; Kaies Daoud; Tomas Björnfot; Fredrik Ahrentorp; Jakob Blomgren; Allan Walton
Magnetic Performance and Anticorrosion Coating Stability of Thermally Demagnetized Nd-Fe-B Permanent Magnets for Reuse Applications
Materials· 2024DOI
Tomaž Tomše, Pierre Kubelka, Rosario Moreno López, Peter Fleissner, Laura Grau, Matej Zaplotnik, Carlo Burkhardt
Microstructure Refinement of Nd-Fe-B Permanent Magnets Prepared via Spark-Plasma Sintering
IEEE Transactions on Magnetics· 2024DOI
Tomaž Tomše
Self-sufficiency of the European Union in critical raw materials for E-mobility
Resources, Conservation and Recycling· 2024DOI
Maarten Koese, Michael Parzer, Benjamin Sprecher, René Kleijn
Unravelling the intricacies of micro-nonuniform heating in field-assisted sintering of multiphase metallic microstructures
Journal of Materials Processing Technology· 2024DOI
Tomaž Tomše, Benjamin Podmiljšak, Lavinia Scherf, Reto Kessler, Spomenka Kobe, Andraž Kocjan, Sašo Šturm, Kristina Žužek
An Overview of Hydrogen Assisted Recycling (Direct Recycling) of Rare Earth Permanent Magnets
Journal of Magnetism and Magnetic Materials· 2023DOI
Burkhardt, Carlo
Materials
Materials· 2023DOI
Sina Khoshsima; Janja Vidmar; Zoran Samardžija; Tomaž Tomše; Monika Kušter; Amit Mishra; Sašo Šturm; Kristina Žužek
Micromagnetic study of the impact of grain boundaries on coercivity
Universität für Weiterbildung Krems· 2023
Fischbacher, Johann; Hrushko, Oleksandr; Hortschitz, Wilfried; Schrefl, Thomas
Thermal stresses in the Nd2Fe14B polycrystal system with grain boundary phase
DONAU UNIVERSIÄT· 2023DOI
Hrushko, Oleksandr; Fischbacher, Johann; Hortschitz, Wilfried; Schrefl, Thomas
Deliverables (4)
Websites, patent fillings, videos etc.
Websites, patent fillings, videos etc.
Websites, patent fillings, videos etc.