Soft Magnetic Materials and Their Application

doi:10.3390/books978-3-7258-0615-7

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https://mdpi.com/books/pdfview/book/8986

Contributor(s)

Che, Shenglei (editor)

Language

English

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Résumé

This reprint is a collection of papers published in the Special Issue “Soft Magnetic Materials and Their Application”. The aim of this Special Issue was to present the latest achievements in the synthesis, fundamentals, characterization, and applications of soft magnetic materials, including soft ferrites, alloys, and composites, together with their processing technology, characterization, and applications in electronics, motors, wave absorbing, sensors, communications, etc. Seventeen papers are published in this Special Issue. For convenience of reading, these papers can be divided into four categories according to the contents of their studies: I. Soft Ferrite Materials; II. Soft Magnetic Alloys and Composites; III. Characterization of Soft Magnetic Materials; and IV. Applications of Soft Magnetic Materials.

URI

https://directory.doabooks.org/handle/20.500.12854/137753

Keywords

MnZn ferrite; mu-metal film; magnetic shield; magnetic noise; atomic sensors; ferrite complex permeability; low frequency; SERF co-magnetometer; thermal magnetic noise; FeCo thin film; saturation magnetization; coercivity; thickness; deposition temperature; permalloy; extremely weak magnetic field; relative permeability; Rayleigh model; soft magnetic material; amorphous; nanocrystalline; non-grain oriented silicon steel; multi-physics field; high-performance motors; efficiency; motor; interior rotor; high-silicon steel; multi-physical field; slotting; grain-oriented silicon steel; magnetization angle; multi-physical field coupling; drive motor; torque density; flux density; core loss; Fe-based soft magnetic composite; photodecomposition; insulation layer; coupling treatment; ZnO; Mn-Zn ferrite; differential-mode magnetic noise; SERF magnetometer; Al addition; La addition; microstructure; microhardness; magnetostriction; MnZn ferrite homogeneous fibers; homogeneous-fiber-reinforced MnZn ferrite; magnetic properties; mechanical properties; magnetic shielding device; low remanence material; FeSiAl magnetic powder cores; epoxy resin; loss separate; soft magnetic properties; cold sintering process; power loss; high frequency; Fe-based amorphous alloys; magnetomechanical coupling; damping factor; easy-plane soft magnetic composites; MHz frequency band; ultra-low power loss; excess loss; n/a