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Magnetic and structural properties of multiple recycled and sustainable sintered Nd-Fe-B magnets

Schönfeldt, Mario ; Rohrmann, Urban ; Schreyer, Philipp ; Hasan, Mahmudul ; Opelt, Konrad ; Gassmann, Jürgen ; Weidenkaff, Anke ; Gutfleisch, Oliver (2023)
Magnetic and structural properties of multiple recycled and sustainable sintered Nd-Fe-B magnets.
In: Journal of Alloys and Compounds, 939
doi: 10.1016/j.jallcom.2023.168709
Article, Bibliographie

Abstract

Scrap magnets from magnetic resonance tomography (MRT) devices with nominal composition of Nd28.04Dy0.80Tb0.44FebalB1.06Co1.65Al0.34Ga0.22Cu0.18 (wt. %) were recycled multiple times with the so-called magnet-to-magnet or functional recycling approach employing hydrogen decrepitation. Changes in different material properties like chemical composition, impurity content, particle size, magnetic properties, microstructure and degree of alignment were investigated in detail. The multiple processing and recycling of the material leads to a decrease in texture, orientation and the resulting magnetic properties of the recycled magnets, respectively. Meanwhile impurities and particle size of the material increase through several milling and sintering processes. Different amounts of Nd hydride were mixed with the recyclate to improve the properties. With 4 wt. % Nd hydride the density of the recycled magnets can be fully restored. It was shown that magnetic properties of the recycled magnets meet the specification of primary magnets even after several cycles. However, they outperform magnets produced from primary materials in terms of sustainability with lower ecological and social footprints. Furthermore, they can lower the production cost of products using permanent magnets by reducing the energy consumption and raw material costs.

Item Type: Article
Erschienen: 2023
Creators: Schönfeldt, Mario ; Rohrmann, Urban ; Schreyer, Philipp ; Hasan, Mahmudul ; Opelt, Konrad ; Gassmann, Jürgen ; Weidenkaff, Anke ; Gutfleisch, Oliver
Type of entry: Bibliographie
Title: Magnetic and structural properties of multiple recycled and sustainable sintered Nd-Fe-B magnets
Language: English
Date: 5 April 2023
Publisher: Elsevier
Journal or Publication Title: Journal of Alloys and Compounds
Volume of the journal: 939
DOI: 10.1016/j.jallcom.2023.168709
Abstract:

Scrap magnets from magnetic resonance tomography (MRT) devices with nominal composition of Nd28.04Dy0.80Tb0.44FebalB1.06Co1.65Al0.34Ga0.22Cu0.18 (wt. %) were recycled multiple times with the so-called magnet-to-magnet or functional recycling approach employing hydrogen decrepitation. Changes in different material properties like chemical composition, impurity content, particle size, magnetic properties, microstructure and degree of alignment were investigated in detail. The multiple processing and recycling of the material leads to a decrease in texture, orientation and the resulting magnetic properties of the recycled magnets, respectively. Meanwhile impurities and particle size of the material increase through several milling and sintering processes. Different amounts of Nd hydride were mixed with the recyclate to improve the properties. With 4 wt. % Nd hydride the density of the recycled magnets can be fully restored. It was shown that magnetic properties of the recycled magnets meet the specification of primary magnets even after several cycles. However, they outperform magnets produced from primary materials in terms of sustainability with lower ecological and social footprints. Furthermore, they can lower the production cost of products using permanent magnets by reducing the energy consumption and raw material costs.

Uncontrolled Keywords: Nd-Fe-B, Permanent magnet, Recycling, Criticality, Rare earth, Sustainability
Additional Information:

Artikel-ID: 168709

Divisions: 11 Department of Materials and Earth Sciences
11 Department of Materials and Earth Sciences > Material Science
11 Department of Materials and Earth Sciences > Material Science > Functional Materials
11 Department of Materials and Earth Sciences > Material Science > Materials and Resources
Date Deposited: 28 Feb 2023 06:05
Last Modified: 28 Feb 2023 06:05
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