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Additive Manufacturing of Prototype Axial Flux Switched Reluctance Electrical Machine

Hans Tiismus, Ants Kallaste, Toomas Vaimann, Anton Rassõlkin, Anouar Belahcen

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Abstract

The fast-evolving additive manufacturing (AM) technologies are considered vital for the next industrial revolution as it is capable for cost-effective production of highly customizable complex components. Its freeform design and fabrication flexibility also suggest the production of embedded electromechanical components or even electrical machines with enhanced performance. Presently, due to the maturity of single-material additive manufacturing methods, prototyping of 3D printed electrical machines has taken the path of printing and assembling of individual highperformance machine components. This paper describes the design, the printing, the post-processing, the assembly and the controller of a printed prototype 4/6 axial flux switched reluctance electrical machine. The machine components were fabricated with selective laser melting system from 3 % silicon steel in a total print time of 57 hours. Commercially available bearings and conventional copper windings were added as part of the assembly.

Topics & Concepts

Electromagnetic coilRapid prototypingFlexibility (engineering)Switched reluctance motor3D printingMechanical engineeringComputer scienceFabricationEngineeringElectrical engineeringRotor (electric)MedicinePathologyMathematicsStatisticsAlternative medicineElectric Motor Design and AnalysisAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing Technologies