Hysteresis Modelling in Additively Manufactured FeSi Magnetic Components for Electrical Machines and Drives

Hysteresis Modelling in Additively Manufactured FeSi Magnetic Components for Electrical Machines and Drives

An advanced magnetic hysteresis modeling, exploiting the Preisach theory and the neural networks, is applied and discussed for the simulation of the magnetization processes of magnetic components made by laser powder bed fusion. Silicon iron samples with different percentage silicon content are used...

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Veröffentlicht in:IEEE transactions on industrial electronics (1982) 2024-03, Vol.71 (3), p.2188-2197
Hauptverfasser: Faba, Antonio, Fulginei, Francesco Riganti, Antonio, Simone Quondam, Stornelli, Giulia, Schino, Andrea Di, Cardelli, Ermanno
Format: Artikel
Sprache:eng
Schlagworte:
Additive manufacturing (AM)
Ferromagnetism
Frequency measurement
Hysteresis
Hysteresis loops
Hysteresis models
Iron silicide
Magnetic cores
Magnetic hysteresis
Magnetization
Metals
Neural networks
Powder beds
Preisach theory
Preisach's theory
Silicon
Silicon steels
Soft magnetic materials
Three-dimensional printing
Toroidal magnetic fields
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Beschreibung
Zusammenfassung:An advanced magnetic hysteresis modeling, exploiting the Preisach theory and the neural networks, is applied and discussed for the simulation of the magnetization processes of magnetic components made by laser powder bed fusion. Silicon iron samples with different percentage silicon content are used for the evaluation of the accuracy and reliability of the proposed approach. Measurements of the hysteresis loops and energy losses are compared with the computed results for different magnetization amplitudes and frequency rates. This approach is presented and evaluated here to provide a method for the accurate representation of the magnetization processes and the prediction of energy losses involved in additively manufactured ferromagnetic cores, in order to optimize their energy efficiency along different applications.
ISSN:0278-0046
1557-9948
DOI:10.1109/TIE.2023.3269483