Ferromagnetic Microwire Composites: From Sensors To Microwave Applications (engineering Materials And Processes)
by Hua-Xin Peng /
2016 / English / PDF
9.4 MB Download
Situated at the forefront of interdisciplinary research on
ferromagnetic microwires and their multifunctional composites,
this book starts with a comprehensive treatment of the
processing, structure, properties and applications of magnetic
microwires. Special emphasis is placed on the giant
magnetoimpedance (GMI) effect, which forms the basis for
developing high-performance magnetic sensors. After defining the
key criteria for selecting microwires for various types of GMI
sensors, the book illustrates how ferromagnetic microwires are
employed as functional fillers to create a new class of composite
materials with multiple functionalities for sensing and microwave
applications. Readers are introduced to state-of-the-art
fabrication methods, microwave tunable properties, microwave
absorption and shielding behaviours, as well as the metamaterial
characteristics of these newly developed ferromagnetic microwire
composites. Lastly, potential engineering applications are
proposed so as to highlight the most promising perspectives,
current challenges and possible solutions.
Situated at the forefront of interdisciplinary research on
ferromagnetic microwires and their multifunctional composites,
this book starts with a comprehensive treatment of the
processing, structure, properties and applications of magnetic
microwires. Special emphasis is placed on the giant
magnetoimpedance (GMI) effect, which forms the basis for
developing high-performance magnetic sensors. After defining the
key criteria for selecting microwires for various types of GMI
sensors, the book illustrates how ferromagnetic microwires are
employed as functional fillers to create a new class of composite
materials with multiple functionalities for sensing and microwave
applications. Readers are introduced to state-of-the-art
fabrication methods, microwave tunable properties, microwave
absorption and shielding behaviours, as well as the metamaterial
characteristics of these newly developed ferromagnetic microwire
composites. Lastly, potential engineering applications are
proposed so as to highlight the most promising perspectives,
current challenges and possible solutions.