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Iron Nitride Permanent Magnet, Alternative to Rare Earth and Neodymium Magnets
University of Minnesota
posted on 10/13/2011
A very strong permanent magnet can be created using iron and nitrogen instead of any rare earth inputs, such as neodymium. The theoretical magnetic energy product for this iron nitride (Fe16N2) magnet is 130 mega gauss oersteds, which is more than twice the maximum reported magnet energy product for a rare-earth neodymium magnet. The process is environmentally friendly and compatible with mass production techniques and has applications in electric motors, wind turbines, and electronics.
Advantages
FEATURES & BENEFITS OF IRON NITRIDE PERMANENT MAGNETS
- Does not require any rare earth inputs; uses common and low cost iron and nitrogen inputs
- Theoretical limit of its magnetic properties are more than twice the maximum reported magnetic energy product for a rare earth magnet
- Environmentally friendly
- Compatible with mass production techniques
- Many high tech applications including electric motors, wind turbines and electronics
Detailed Description
Iron Nitride, Alternative to Rare Earth Magnets
Rare Earth Permanent Magnets
Rare earth magnets are the strongest type of permanent magnets made and are integral to the high tech industry, particularly in clean energies, such as electric vehicle motors and wind turbine generators. China extracts and produces about 95% of the world?s rare earth minerals and since 2010 has cut its exports. In addition to supply chain concerns, the extraction process is highly polluting to the environment.
Iron Nitride Permanent Magnet Stronger than Neodymium Magnet
A process has been designed to create a very strong permanent magnet that does not require any rare earth inputs, such as neodymium. The theoretical magnetic energy product for this iron nitride (Fe16N2) magnet is 130 mega gauss oersteds, which is more than twice the maximum reported magnet energy product for a rare-earth neodymium magnet.
Iron Nitride can be Mass Produced from Iron and Nitrogen
Previous work in iron nitride production produced only powders or thin films that were not suitable for most applications, but for the first time iron nitride can be generated in bulk form for a wide array of applications. The fabrication process is compatible with existing mass-production techniques and the iron and nitrogen inputs are low cost, enabling very cheap permanent magnets that exceed the performance of rare earth magnets.
FEATURES & BENEFITS OF IRON NITRIDE PERMANENT MAGNETS
- Does not require any rare earth inputs; uses common and low cost iron and nitrogen inputs
- Theoretical limit of its magnetic properties are more than twice the maximum reported magnetic energy product for a rare earth magnet
- Environmentally friendly
- Compatible with mass production techniques
- Many high tech applications including electric motors, wind turbines and electronics
File Number: UM Case 20120016
Other Information: Questions? Contact: Eric Hockert, Technology Marketing Manager, Ph 612-624-9568 E-mail ehockert@umn.edu
This innovation currently is not available for online licensing. Please contact Eric Hockert at University of Minnesota for more information.
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