Modular AXIal flux Motor for Automotive

Climate, Energy & MobilityHORIZON-RIAID: 101096097
EC Contribution
€54,845
Consortium Size
13 orgs
Start Year
2023
Summary

The massive electrification of automotive vehicles will necessarily involve the development of low cost, highly compact and low environmental impact electrical machines (EM). The objective of the MAXIMA project is to develop and validate a complete methodology to design an EM as well as the associated production system for the automotive core market. This methodology will have to deal with often incompatible constraints such as efficiency, costs reduction, high performances in terms of power/torque density, and high recyclability, especially for critical raw materials. To achieve this objective, MAXIMA will focus on a dedicated topology: Axial Flux Synchronous Machine (AFSM). ASFM currently on the market are very efficient but cover only a niche market due to their high manufacturing costs. They also offer strong exploited or unexplored options, in terms of topologies and materials. Unlike radial flux EMs, the margin for improvements of AFSM is really significant by acting on both EM design and manufacturing process flow, thus allowing higher performances and lower cost while keeping a low environmental impact. The consortium brings together research teams and companies from the entire value chain, from raw material suppliers to car manufacturers along with a recycling company. Together they can face the main technological and scientific challenges in the electromagnetic, mechanical and thermal fields, reaching a solution close to market. At the end, beside high TRL5 prototypes, the project will provide a validated methodology to accelerate the design, thereby reducing the time to market, and new technologies, such as EM digital twins, to operate EMs to their full potential.

Consortium (13)

Project Results (16)

Source: CORDIS, the EU research results database.

Publications (12)
European Initiatives Addressing High Efficiency and Low-Cost Electric Motors for Circularity and Low use of Rare Resources
SAE Technical Paper Series· 2026DOI
Eric Armengaud, Florian Ratz, Ángela Muñiz, Javier Poza, Fernando Garramiola, Gaizka Almandoz, Jenni Pippuri-Mäkeläinen, Stéphane Clenet, Maarten Messagie, Lea D’amore, Maeva Lavigne Philippot, Oriol Rillo, Daniel Montesinos, Hendrik Vansompel, Arne De Keyser, Claudio Romano, Umberto Montanaro, Davide Tavernini, Patrick Gruber, Liaoyuan Ran, Nicola Amati, Christopher Vagg, Matic Herzog, Martin Weinzerl, Janne Keränen, Juho Montonen
European Symposium on Electric Machine Modelling, Simulation and Optimisation (EMMSO 2026) Book of Abstracts
European Symposium on Electric Machine Modelling, Simulation and Optimisation (EMMSO 2026)· 2026DOI
Kostopoulos, K.; Subirats-Rillo, O.; Montesinos-Miracle, D. // Oliet, C.; Santos, D.; Vera, J.; Marciuc, S.; Rebhaoui, A. // Chen, W.; Henneron, T.; Clénet, S.
Implementation of a real-time model of an electromagnetic device
European Symposium on Electric Machine Modelling, Simulation and Optimisation· 2026DOI
Wei Chen, Thomas Henneron, Frédéric Colas, Stéphane Clénet
A Forward Approach for Topology Optimization and Magnetization Direction Optimization of Permanent Magnets
IEEE Transactions on Magnetics· 2025DOI
S. Clénet, J. Korecki, H. Igarashi, S. Yin, X. Kong
Life Cycle Assessment of Electric Traction Machine Considering Novel Recycling Processes for Permanent Magnet Circularity
SETAC Europe 34th Annual Meeting (SETAC) , Sevilla, 05-09/05/2024 (Session 5.06 «Circularity Strategies and Life Cycle Thinking: Ensuring the Way to Sustainability», Part «Life Cycle Assessment and Foot-Printing»)· 2025DOI
Léa D’amorea, Joachim Jusselmeb, Maeva Lavigne Philippot a, Tom Bauer c and Maarten Messagiea a Electrotechnical Engineering and Energy Technology, MOBI Research Group, Vrije Universiteit Brussel, Pleinlaan 2, Brussels 1050, Belgium b AMVALOR, Arts et Mét
Losses in Axial Flux Permanent Magnet Synchronous Machine for Electric Vehicles Propulsion Systems
2025 IEEE Workshop on Electrical Machines Design, Control and Diagnosis (WEMDCD)· 2025DOI
Bogdan Butnariu, Abderrahmane Rebhaoui, Claudia Steluța Marțiș
Speeding up the Iron Losses Calculation using Clustering Technics
IEEE Transactions on Magnetics· 2025DOI
J. Korecki, T. Henneron, S. Clénet
ProceedingsoftheFISITA 2023WorldCongress,Barcelona,12–14SeptembeMAXIMA:ModularAxialFluxMotorforAutomotive
ProceedingsoftheFISITA 2023WorldCongress,Barcelona,12–14September 2023· 2023
ProceedingsoftheFISITA 2023WorldCongress,Barcelona,12–14September 2023FWC2023-AVD-003MAXIMA:ModularAxialFluxMotorforAutomotiveStéphane Clenet *1,Maeva Philippot 2, M’hamed Belhadi 3, Daniel Montesinos 4, Xavier Jannot 5, JohannesMaurath6,DirkZepp7,AhmedAb
Design of an Axial Flux Machine with Distributed Winding for Automotive Applications: Comparison of Different Rotor Structures
13th IEEE International Conference and Exposition on Electrical and Power Engineering (EPEi 2024)DOI
Bogdan BUTNARIU1, Abderrahmane REBHAOUI², Răzvan. A.INTE1, Florin N. JURCA1, Ioan DEAC², Claudia S. MARȚIȘ1
Influence Of Slot/Pole Combinations On The Performance Of Dual-Rotor Axial-Flux Surface-mounted Permanent Magnet Electric Motor for Automotive Applications
Elektro 2024DOI
Butnariu, B.; Rebhaoui, A.; Ințe, R. A.; Jurca, F.N.; Jannot, X.; Marțiș, C.S.
Multiphysics real-time digital twin for electric vehicle machine
European Symposium on Electric Machine Modelling, Simulation and OptimisationDOI
Konstantinos Kostopoulos, Oriol Subirats-Rillo, Daniel Montesinos-Miracle
SETAC Europe 34th Annual Meeting (Abstract Book)
Society of Environmental Toxicology and Chemistry – Europe (SETAC Europe)DOI
Society of Environmental Toxicology and Chemistry Europe (SETAC)
Deliverables (3)
Other Results (1)
Periodic Reporting for period 1 - MAXIMA (Modular AXIal flux Motor for Automotive)