Applicability of Direct Reuse and Recycled Rare Earth Magnets in Electro-mobility

Upadhayay, Pranshu; Lebouc, Afef-Kedous; Garbuio, Lauric; Awais, Muhammad; Degri, Malik; Walton, Allan; Mipo, Jean-Claude; Dubus, Jean-Marc

doi:10.1109/icrera.2018.8566823

Cited by 3 publications

(2 citation statements)

References 10 publications

(10 reference statements)

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“…This is, however, more difficult here, as these alloys oxidize easily in air, hence their covering with a protective coating. Various groups have therefore reported a general process that first performs a hydrogen exposure, which creates a volume expansion of the magnet as metal hydrides are formed [205][206][207][208][209][210]. This allows the casing to break, and the alloy to turn easily into fine powder.…”

Section: Rare-earth Elementsmentioning

confidence: 99%

Dismantling of Printed Circuit Boards Enabling Electronic Components Sorting and Their Subsequent Treatment Open Improved Elemental Sustainability Opportunities

et al. 2021

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This critical review focuses on advanced recycling strategies to enable or increase recovery of chemical elements present in waste printed circuit boards (WPCBs). Conventional recycling involves manual removal of high value electronic components (ECs), followed by raw crushing of WPCBs, to recover main elements (by weight or value). All other elements remain unrecovered and end up highly diluted in post-processing wastes or ashes. To retrieve these elements, it is necessary to enrich the waste streams, which requires a change of paradigm in WPCB treatment: the disassembly of WPCBs combined with the sorting of ECs. This allows ECs to be separated by composition and to drastically increase chemical element concentration, thus making their recovery economically viable. In this report, we critically review state-of-the-art processes that dismantle and sort ECs, including some unpublished foresight from our laboratory work, which could be implemented in a recycling plant. We then identify research, business opportunities and associated advanced retrieval methods for those elements that can therefore be recovered, such as refractory metals (Ta, Nb, W, Mo), gallium, or lanthanides, or those, such as the platinum group elements, that can be recovered in a more environmentally friendly way than pyrometallurgy. The recovery methods can be directly tuned and adapted to the corresponding stream.

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Section: Rare-earth Elementsmentioning

confidence: 99%

Dismantling of Printed Circuit Boards Enabling Electronic Components Sorting and Their Subsequent Treatment Open Improved Elemental Sustainability Opportunities

et al. 2021

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“…The results showed superior performance when compared with ferrite magnets. Finally, a PM assisted claw pole machine with sintered NdFeB PMs manufactured by the hydrogen decrepitation process is presented in [11]. In addition to the use of recycled PMs, the topology proposed in the study facilitates the direct re-use of the PMs which would be convenient, since additional recycling processes would not be required.…”

Section: Introductionmentioning

confidence: 99%

Design and Experimental Investigation of a Hybrid Rotor Permanent Magnet Modular Machine with 3D Flux Paths Accounting for Recyclability of Permanent Magnet Material

et al. 2020

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Rare-earth metals used for manufacturing Permanent Magnets (PMs) remain classified as critical raw materials by the European Commission. In order to secure the supply of electrical machines due to the increasing demand of Hybrid and Full Electrical Vehicles ((H)EVs), recycling has emerged as a valuable alternative. Hence, this paper presents the concept of a modular PM machine with a hybrid rotor and 3D flux paths, for application in ((H)EVs). The proposed machine topology is intended to facilitate the extraction of PM material towards a recycling process. The selection of a machine for prototyping is carried out by investigating the effect of the variation of the number of rotor teeth and stator modules on various parameters, with models developed in Finite Element (FE). Finally, the models developed of the selected combination were validated with a detailed experimental evaluation of the prototype.

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Construction of smart photo-responsive imprinted composite aerogel and its selective adsorption for recovery of rare earth dysprosium ions

Zheng

Zhang

et al. 2023

Separation and Purification Technology

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Applicability of Direct Reuse and Recycled Rare Earth Magnets in Electro-mobility

Cited by 3 publications

References 10 publications

Dismantling of Printed Circuit Boards Enabling Electronic Components Sorting and Their Subsequent Treatment Open Improved Elemental Sustainability Opportunities

Dismantling of Printed Circuit Boards Enabling Electronic Components Sorting and Their Subsequent Treatment Open Improved Elemental Sustainability Opportunities

Design and Experimental Investigation of a Hybrid Rotor Permanent Magnet Modular Machine with 3D Flux Paths Accounting for Recyclability of Permanent Magnet Material

Construction of smart photo-responsive imprinted composite aerogel and its selective adsorption for recovery of rare earth dysprosium ions

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