Magnetic Materials and Devices for the 21st Century: Stronger, Lighter, and More Energy Efficient

A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency in the total energy lifecycle, has accelerated research into energy‐related technologies. Due to their ubiquity, magnetic materials play an important role in improving the ef...

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Published in:	Advanced materials (Weinheim) Vol. 23; no. 7; pp. 821 - 842
Main Authors:	Gutfleisch, Oliver, Willard, Matthew A., Brück, Ekkes, Chen, Christina H., Sankar, S. G., Liu, J. Ping
Format:	Journal Article
Language:	English
Published:	Weinheim WILEY-VCH Verlag 15.02.2011 WILEY‐VCH Verlag
Subjects:	Conversion Devices Economics energy efficiency Energy-Generating Resources - economics Hardness Magnetic materials magnetic refrigeration Magnetics - economics Magnetics - instrumentation Magnetics - trends Magnets Markets Nanotechnology - economics permanent magnets Rare earth metals Refrigeration soft magnets Transportation
ISSN:	0935-9648, 1521-4095, 1521-4095
Online Access:	Get full text
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Abstract	A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency in the total energy lifecycle, has accelerated research into energy‐related technologies. Due to their ubiquity, magnetic materials play an important role in improving the efficiency and performance of devices in electric power generation, conditioning, conversion, transportation, and other energy‐use sectors of the economy. This review focuses on the state‐of‐the‐art hard and soft magnets and magnetocaloric materials, with an emphasis on their optimization for energy applications. Specifically, the impact of hard magnets on electric motor and transportation technologies, of soft magnetic materials on electricity generation and conversion technologies, and of magnetocaloric materials for refrigeration technologies, are discussed. The synthesis, characterization, and property evaluation of the materials, with an emphasis on structure–property relationships, are discussed in the context of their respective markets, as well as their potential impact on energy efficiency. Finally, considering future bottlenecks in raw materials, options for the recycling of rare‐earth intermetallics for hard magnets will be discussed. A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency, has accelerated research in energy‐related technologies. Magnetic materials play an important role in improving the efficiency and performance of many devices. The impacts of hard magnets on electric motor and transportation technologies, of soft magnets on electricity generation and conversion technologies, and of magnetocaloric materials for refrigeration are discussed.
AbstractList	A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency in the total energy lifecycle, has accelerated research into energy‐related technologies. Due to their ubiquity, magnetic materials play an important role in improving the efficiency and performance of devices in electric power generation, conditioning, conversion, transportation, and other energy‐use sectors of the economy. This review focuses on the state‐of‐the‐art hard and soft magnets and magnetocaloric materials, with an emphasis on their optimization for energy applications. Specifically, the impact of hard magnets on electric motor and transportation technologies, of soft magnetic materials on electricity generation and conversion technologies, and of magnetocaloric materials for refrigeration technologies, are discussed. The synthesis, characterization, and property evaluation of the materials, with an emphasis on structure–property relationships, are discussed in the context of their respective markets, as well as their potential impact on energy efficiency. Finally, considering future bottlenecks in raw materials, options for the recycling of rare‐earth intermetallics for hard magnets will be discussed. A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency in the total energy lifecycle, has accelerated research into energy-related technologies. Due to their ubiquity, magnetic materials play an important role in improving the efficiency and performance of devices in electric power generation, conditioning, conversion, transportation, and other energy-use sectors of the economy. This review focuses on the state-of-the-art hard and soft magnets and magnetocaloric materials, with an emphasis on their optimization for energy applications. Specifically, the impact of hard magnets on electric motor and transportation technologies, of soft magnetic materials on electricity generation and conversion technologies, and of magnetocaloric materials for refrigeration technologies, are discussed. The synthesis, characterization, and property evaluation of the materials, with an emphasis on structure-property relationships, are discussed in the context of their respective markets, as well as their potential impact on energy efficiency. Finally, considering future bottlenecks in raw materials, options for the recycling of rare-earth intermetallics for hard magnets will be discussed.A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency in the total energy lifecycle, has accelerated research into energy-related technologies. Due to their ubiquity, magnetic materials play an important role in improving the efficiency and performance of devices in electric power generation, conditioning, conversion, transportation, and other energy-use sectors of the economy. This review focuses on the state-of-the-art hard and soft magnets and magnetocaloric materials, with an emphasis on their optimization for energy applications. Specifically, the impact of hard magnets on electric motor and transportation technologies, of soft magnetic materials on electricity generation and conversion technologies, and of magnetocaloric materials for refrigeration technologies, are discussed. The synthesis, characterization, and property evaluation of the materials, with an emphasis on structure-property relationships, are discussed in the context of their respective markets, as well as their potential impact on energy efficiency. Finally, considering future bottlenecks in raw materials, options for the recycling of rare-earth intermetallics for hard magnets will be discussed. A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency in the total energy lifecycle, has accelerated research into energy‐related technologies. Due to their ubiquity, magnetic materials play an important role in improving the efficiency and performance of devices in electric power generation, conditioning, conversion, transportation, and other energy‐use sectors of the economy. This review focuses on the state‐of‐the‐art hard and soft magnets and magnetocaloric materials, with an emphasis on their optimization for energy applications. Specifically, the impact of hard magnets on electric motor and transportation technologies, of soft magnetic materials on electricity generation and conversion technologies, and of magnetocaloric materials for refrigeration technologies, are discussed. The synthesis, characterization, and property evaluation of the materials, with an emphasis on structure–property relationships, are discussed in the context of their respective markets, as well as their potential impact on energy efficiency. Finally, considering future bottlenecks in raw materials, options for the recycling of rare‐earth intermetallics for hard magnets will be discussed. A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency, has accelerated research in energy‐related technologies. Magnetic materials play an important role in improving the efficiency and performance of many devices. The impacts of hard magnets on electric motor and transportation technologies, of soft magnets on electricity generation and conversion technologies, and of magnetocaloric materials for refrigeration are discussed.
Author	Gutfleisch, Oliver Liu, J. Ping Brück, Ekkes Chen, Christina H. Sankar, S. G. Willard, Matthew A.
Author_xml	– sequence: 1 givenname: Oliver surname: Gutfleisch fullname: Gutfleisch, Oliver email: o.gutfleisch@ifw-dresden.de organization: Institute of Metallic Materials, IFW Dresden, 01069 Dresden, Germany – sequence: 2 givenname: Matthew A. surname: Willard fullname: Willard, Matthew A. organization: Naval Research Laboratory, Code 6355, 4555 Overlook Ave., S. W., Washington, DC 20375 - 5343, USA – sequence: 3 givenname: Ekkes surname: Brück fullname: Brück, Ekkes organization: Faculty of Applied Sciences, Delft University of Technology, 2629 JB Delft, The Netherlands – sequence: 4 givenname: Christina H. surname: Chen fullname: Chen, Christina H. organization: Magnetics Laboratory, University of Dayton, Dayton, OH 45469, USA – sequence: 5 givenname: S. G. surname: Sankar fullname: Sankar, S. G. organization: Advanced Materials Corporation, 850 Poplar Street, Pittsburgh, PA 15220, USA – sequence: 6 givenname: J. Ping surname: Liu fullname: Liu, J. Ping organization: Deptartment of Physics, University of Texas at Arlington, Arlington, TX 76019, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/21294168$$D View this record in MEDLINE/PubMed
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Snippet	A new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency in the total energy lifecycle,...
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SubjectTerms	Conversion Devices Economics energy efficiency Energy-Generating Resources - economics Hardness Magnetic materials magnetic refrigeration Magnetics - economics Magnetics - instrumentation Magnetics - trends Magnets Markets Nanotechnology - economics permanent magnets Rare earth metals Refrigeration soft magnets Transportation
Title	Magnetic Materials and Devices for the 21st Century: Stronger, Lighter, and More Energy Efficient
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