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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…mehr
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 tohighlight the most promising perspectives, current challenges and possible solutions.
Dr. Faxiang Qin is currently a research professor in the School of Materials Science and Engineering at Zhejiang University, China. He also serves as the associate director of the Institute for Composites Science Innovation there. He was a JSPS fellow at National Institute for Materials Science, Japan from 2013-2015. Prior to that, he was a post-doctoral researcher in Advanced Composite Centre for Innovation and Science at the University of Bristol and Lab-STICC at Université de Bretagne Occidentale from 2010 to 2013. He received the MSc in nano-materials from the South China University of Technology in 2007 and Ph.D in multifunctional composites from the University of Bristol in 2010. He was a recipient of the Overseas Research Students Awards Scheme (ORSAS) and the University of Bristol Postgraduate Student Scholarship. He was nominated for the Exceptional Thesis Prize and selected as one of the two candidates at Bristol for UK Royal Academy Engineering Fellowship. He was also an awardee of Zhejiang Province Thousand Talents Senior Fellowship in China, Discovery Early Career Researcher Award in Australia, Finistère Postdoctoral Fellowship in France, Japan Society for the Promotion of Science (JSPS) Fellowship. His research interest lies in magnetic materials, nanomaterials, multifunctional composites and applied physics. His work has been documented in more than 60 international refereed journal papers published in prestigious journals in materials and physics.
Dr. Manh-Huong Phan
Dr. Manh-Huong Phan is an Associate Professor of Physics at the University of South Florida, USA. He received B.S., M.S., and Ph.D. degrees in Physics from Vietnam National University in 2000, Chungbuk National University in 2003, and Bristol University in 2006, respectively. Dr. Phan’s research interests lie in the physics and applications of magnetic materials. He is a leading expert in the area of functional magnetic materials and nanostructures with magnetocaloric and magnetoimpedance effects for energy-efficient magnetic refrigeration and smart sensor technologies. He has co-authored more than 200 peer-reviewed journal papers (h-index: 30), 4 review papers, and 5 book chapters. He serves as an Associate Editor of the Journal of Electronic Materials (ISI journal, Impact factor: 1.8) and is an active reviewer for more than 90 major international journals, with “Outstanding Referee” awards from the Journal of Magnetism and Magnetic Materials in 2013 and 2015. He has delivered plenary and invited talks at professional meetings on Magnetism and Magnetic Materials (2007-present) and involved in organizing international conferences on Nanomaterials, Energy and Nanotechnology (2011-present).
Prof. Hua-Xin Peng
Prof. Hua-Xin Peng joined Zhejiang University as a Distinguished Professor of Aerospace Materials in 2014 under the Global Talent Recruitment Plan from the University of Bristol, UK where he was a full Professor in the Advanced Composites Centre for Innovation and Science (ACCIS) in the Department of Aerospace Engineering. He gained his PhD (1996) and MSc (1993) in composite materials in Harbin Institute of Technology and BEng (1990) in Zhejiang University. He was the founding Deputy Director of the Bristol Centre for Nanoscience and Quantum Information and worked as a Research Fellow in the Materials Department at Oxford University (2001-2) and Brunel University (1998-2000). His research activities focus on nanomaterial through engineering to applications and innovative design of composite microstructures for multi-functionalities. The latter involves the development of ferromagnetic microwire (meta-) composites for a range of ingenious engineering applications such as structural health monitoring and microwave absorption. Prof. Peng is the founding Director of the Institute for Composites Science Innovation (InCSI)at Zhejiang University and one of the founding Editors of the Elsevier journalComposites Communications (COCO).
Inhaltsangabe
Introduction.- Fabrication of ferromagnetic wires.- Domain structure and properties of GMI materials.- Giant Magnetoimpedance: Concept, Theoretical Models, and Related Phenomena.- Giant Magnetoimpedance: Concept, Theoretical Models, and Related Phenomena.- Influence of measurement parameters on giant magnetoimpedance.- Influence of processing parameters on G.- Selection of GMI wires for sensor applications.- Giant magnetoimpedance sensors and their applications.- Multifunctional microwire composites: concept design and fabrication.- Basic magnetic and mechanical properties of microwire composites.- Microwave tunable properties of microwire composites.- Microwire-based metacomposites.
Introduction.-Fabrication of ferromagnetic wires.- Domain structure and properties of GMImaterials.- Giant Magnetoimpedance: Concept, Theoretical Models, and RelatedPhenomena.- Giant Magnetoimpedance: Concept, Theoretical Models, and RelatedPhenomena.- Influence of measurement parameters on giant magnetoimpedance.- Influenceof processing parameters on G.- Selection of GMI wires for sensorapplications.- Giant magnetoimpedance sensors and their applications.- Multifunctionalmicrowire composites: concept design and fabrication.- Basic magnetic andmechanical properties of microwire composites.- Microwave tunable properties ofmicrowire composites.- Microwire-based metacomposites.
Introduction.- Fabrication of ferromagnetic wires.- Domain structure and properties of GMI materials.- Giant Magnetoimpedance: Concept, Theoretical Models, and Related Phenomena.- Giant Magnetoimpedance: Concept, Theoretical Models, and Related Phenomena.- Influence of measurement parameters on giant magnetoimpedance.- Influence of processing parameters on G.- Selection of GMI wires for sensor applications.- Giant magnetoimpedance sensors and their applications.- Multifunctional microwire composites: concept design and fabrication.- Basic magnetic and mechanical properties of microwire composites.- Microwave tunable properties of microwire composites.- Microwire-based metacomposites.
Introduction.-Fabrication of ferromagnetic wires.- Domain structure and properties of GMImaterials.- Giant Magnetoimpedance: Concept, Theoretical Models, and RelatedPhenomena.- Giant Magnetoimpedance: Concept, Theoretical Models, and RelatedPhenomena.- Influence of measurement parameters on giant magnetoimpedance.- Influenceof processing parameters on G.- Selection of GMI wires for sensorapplications.- Giant magnetoimpedance sensors and their applications.- Multifunctionalmicrowire composites: concept design and fabrication.- Basic magnetic andmechanical properties of microwire composites.- Microwave tunable properties ofmicrowire composites.- Microwire-based metacomposites.
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