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| Abstract No.: |
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Scheduled at:
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Friday, June 12, 2020, Hall G2 9:40 AM
Additive Manufacturing III
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| Title: |
Magnetic materials fabricated by cold spray additive manufacturing for the next generation of electric motors
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| Authors: |
Jean-Michel Lamarre* / National Research Council Canada, Canada
Ibrahim Maged / National Research Council Canada, Canada
Fabrice Bernier/ National Research Council Canada, Canada
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| Abstract: |
Additive manufacturing is nowadays established as a sound solution to fabricate complex-shaped parts with enhanced performance and functionalities as indicated by a strong industrial interest. Complex-shaped magnets are of great interest for electric motor manufacturing as it could open the way for innovative solutions for higher power density and better efficiency. Cold spray additive manufacturing allows the fabrication of complex 3D configurations of permanent magnets and soft magnetic materials without the need for assembly and with better mechanical properties than what can be obtained by conventional techniques and other additive manufacturing techniques. New developments on the use of cold spray additive manufacturing for the fabrication of permanent magnets and soft magnetic materials will be presented via a detailed description and analysis of the hard and soft magnetic materials selection, the process optimization (temperature, feedstock properties, magnetic loading) and the fundamental characterization results of magnetic properties (remanence and coercive field) and mechanical properties (adhesion, tensile). Improvement of electric motor design via the use of 3D shaped magnets will be illustrated through examples that were simulated using finite element analysis. Potential gains in terms of torque, torque density, torque ripple management and efficiency will be highlighted. Fabrication of relevant configurations for the automotive and aerospace industries will be illustrated via demonstrator parts realized using cold spray additive manufacturing incorporating complex robot toolpath programming.
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