The University of Birmingham has announced the successful completion of a project demonstrating that the rare earth magnets in loudspeakers, which are currently lost to landfills, can be successfully recycled.
Loudspeakers account for approximately 20% of rare earth magnet use, and represent a significant opportunity for rare earth magnet recycling, particularly in the UK, which has no domestic source of primary rare earth metals.
The Rare-Earth Extraction from Audio Products (REAP) project was led by HyProMag, a company set up by Professor Allan Walton from the School of Metallurgy and Materials with founding directors Professor Emeritus Rex Harris, former head of the university’s Magnetic Materials Group and two Honorary Fellows, Dr John Speight and Mr David Kennedy, who are leading experts in the field.
REAP used a patented recycling technology called hydrogen recycling of magnet scrap (HPMS) that was developed within the university to extract and de-magnetise the neodymium iron boron (NdFeB) alloy powders embedded in loudspeakers from the end of life cars and flat-screen TVs.
The alloy powders were then purified and re-compacted to produce new magnets that had magnetic properties comparable to the initial starting magnet. The project also confirmed the quantity and economics of recycling loudspeaker magnets and provides a strong platform to scale up production.
European Metal Recycling performed a comprehensive assessment of scrap, encompassing extraction, characterisation of components, degree of pre-processing and potential for automation.
Meanwhile, HyProMag and the University of Birmingham provided analysis of the extracted magnets focusing on determining the recyclability and market potential, both as a viable feedstock of NdFeB and also as a potential route-to-market.
The analysis showed that the flat-screen television sector holds significant promise for recycling, with approximately 85% of the products containing NdFeB. REAP confirmed the quantity of scrap available from this market, the commercial viability, the suitability of the material for HPMS, the properties of the magnets in this sector and provides a strong platform to initiate access to the wider loudspeaker market in the future.
Scrap from the end of life vehicles showed a relatively low quantity (~5%) of NdFeB containing components, but given the increase in rare-earth use in hybrid and electric vehicles, it is clear that the potential for capturing NdFeB from this sector will increase significantly with time.
Despite the differences between the two sectors, the average magnet grade remained fairly consistent. Following extraction and processing, the resulting powders were analysed to confirm the feasibility of using waste from flatscreen televisions as feedstock for recycled magnet making.
Nick Mann, Operations General Manager of HyProMag stated: “HyProMag is very pleased to have successfully completed this groundbreaking project, which has identified a useful and accessible source of end of life magnets that can be collected, extracted and remanufactured on a commercially viable basis.
As demand and therefore price of NdFeB magnets continue to rise, the need to capture waste material for recycling becomes imperative for economic as well as environmental reasons. REAP further advances the novel techniques required to recycle rare earth magnets from audio products, which account for around 20% of the NdFeB market each year. HyProMag looks forward to developing these techniques alongside European Metal Recycling with a view to further scale-up and commercialisation.”
HyProMag’s strategy is to establish a recycling facility for NdFeB magnets at Tyseley Energy Park in Birmingham to provide a sustainable solution for the supply of NdFeB magnets and alloy powders for a wide range of markets including, for example, automotive and electronics.
The REAP project was funded via a grant from the Industrial Strategy Challenge Fund, delivered by UK Research and Innovation.
Source:https://irishtechnews.ie/birmingham-project-reclaims-rare-earth-magnets/