| Title | Direct Recycling of Hot-Deformed Nd-Fe-B Magnet Scrap by Field-Assisted Sintering Technology |
|---|---|
| ID_Doc | 21590 |
| Authors | Keszler, M; Grosswendt, F; Assmann, AC; Krengel, M; Maccari, F; Gutfleisch, O; Sebold, D; Guillon, O; Weber, S; Bram, M |
| Title | Direct Recycling of Hot-Deformed Nd-Fe-B Magnet Scrap by Field-Assisted Sintering Technology |
| Year | 2024 |
| Published | Advanced Energy And Sustainability Research, 5.0, 1 |
| Abstract | Recycling of Nd-Fe-B magnets is an ongoing challenge regarding circular economy. State-of-the-art magnet production methods, such as hot deformation, have limitations with respect to direct recycling of magnet scrap particles that differ from pristine melt-spun Nd-Fe-B powder. Recent work has shown that a combination of presintering by field-assisted sintering technology/spark plasma sintering (FAST/SPS) and hot deformation by flash spark plasma sintering (flash SPS) has the potential to directly produce Nd-Fe-B magnets from 100% scrap material. Both processes have the capability to adjust and monitor process parameters closely, resulting in recycled magnets with properties similar to commercial magnets but made directly from crushed and recycled Nd-Fe-B powder that partially or completely replaces pristine melt-spun Nd-Fe-B powder. Herein, a systematic study is done inserting recycled magnet particles into a flash SPS deformed magnet, considering the effects of different weight percentages of scrap material of varied particle size fractions. In some cases, coercivity H-cJ of >1400 kAm(-1) and remanence B-r of 1.1 T can be achieved with 20 wt% scrap material. The relationship between particle size fraction, oxygen uptake, and percentage of recyclate in a final magnet are all explored and discussed with respect to magnets made from pristine material. |
| https://onlinelibrary.wiley.com/doi/pdfdirect/10.1002/aesr.202300184 |
Similar Articles
| ID | Score | Article |
|---|---|---|
14985
|
Bolis, K; Goulart, GS; Krohling, AC; Mendonça, R; Fernandez-Outon, LE; Ardisson, JD Structural and Magnetic Characterization of Nd-Pr-Fe-B Sintered Magnet Machining Wastes(2023)Acs Omega, 8, 13 | |
| 5340
|
Diehl, O; Schönfeldt, M; Brouwer, E; Dirks, A; Rachut, K; Gassmann, J; Güth, K; Buckow, A; Gauss, R; Stauber, R; Gutfleisch, O Towards an Alloy Recycling of Nd-Fe-B Permanent Magnets in a Circular Economy(2018)Journal Of Sustainable Metallurgy, 4, 2 | |
| 61905
|
Burkhardt, C; van Nielen, S; Awais, M; Bartolozzi, F; Blomgren, J; Ortiz, P; Xicotencatl, MB; Degri, M; Nayebossadri, S; Walton, A An overview of Hydrogen assisted (Direct) recycling of Rare earth permanent magnets(2023) | |
| 61858
|
Kaya, M An overview of NdFeB magnets recycling technologies(2024) | |
| 21359
|
Poskovic, E; Franchini, F; Ceroni, M; Innocenti, C; Ferraris, L; Sangregorio, C; Caneschi, A; Grande, MA Study of an Impact Mill-Based Mechanical Method for NdFeB Magnet Recycling(2023)Metals, 13.0, 6 |