02473nam 2200373 n 450 991064722140332120230328204748.03-0365-6355-5(CKB)5680000000300133(NjHacI)995680000000300133(EXLCZ)99568000000030013320230328d2023 uu 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierMagnetic Material Modelling of Electrical Machines /edited by Armando Pires, Anouar Belahcen[Place of publication not identified] :MDPI AG,2023.1 online resource (144 pages)3-0365-6354-7 Introduction -- A Short Review of the Contributions in This Issue -- Future Developments -- Conclusions -- Author Contributions -- Funding -- Acknowledgments -- Conflicts of Interest -- References.The need for electromechanical energy conversion that takes place in electric motors, generators, and actuators is an important aspect associated with current development. The efficiency and effectiveness of the conversion process depends on both the design of the devices and the materials used in those devices. In this context, this book addresses important aspects of electrical machines, namely their materials, design, and optimization. It is essential for the design process of electrical machines to be carried out through extensive numerical field computations. Thus, the reprint also focuses on the accuracy of these computations, as well as the quality of the material models that are adopted. Another aspect of interest is the modeling of properties such as hysteresis, alternating and rotating losses and demagnetization. In addition, the characterization of materials and their dependence on mechanical quantities such as stresses and temperature are also considered. The reprint also addresses another aspect that needs to be considered for the development of the optimal global system in some applications, which is the case of drives that are associated with electrical machines.Magnetic alloysMagnetic alloys.620.1697Belahcen AnouarPires ArmandoNjHacINjHaclBOOK9910647221403321Magnetic Material Modelling of Electrical Machines3018105UNINA