Simple chemical method for the separation of rare earth metals

New recycling strategy for separating neodymium and dysprosium from hard magnets

Technology Overview: Recycling of rare earth metals from finished products is one possible new source of rare earth metals; however, there is a shortage of simple chemical methods to enable recycling. Less than 1% of rare earths were recycled in 2011.

One of the most important uses of rare earth metals is in the manufacture of hard magnets. The most important and widely used rare earth magnet is neodymium iron boride: Nd2Fe14B (neo). In the manufacturing of neo magnets, variable amounts of the element dysprosium (depending on need) are added to improve the performance of the material over a wider temperature range. Dysprosium is one of the scarcest and most valuable of the rare earth metals and, because of its use in high performance neo magnets, its price is predicted to rise by 2600% in the next 25 years.

The recycling of dysprosium and neodymium from hard magnets has been identified as a potential source for those elements in a recently published life cycle analysis. A key chemical problem for magnet recycling is the purification (separation) of dissolved Nd from dissolved Dy, following the chemically simpler removal of Fe and B. Current separations technology for rare earth metals uses counter current liquid-liquid extraction. This process is scalable, but is inefficient and requires significant initial capital investment.

Advantages:

Method to separate and purify the more valuable Dy away from Nd in mixtures using a simple chemical process without need for solvent extraction liquid-liquid separations
Enable magnet recycling with lower capital investment due to replacement of liquid-liquid separation from current processing methods

Stage of Development: