Resultado final
Report on NEOHIRE dissemination material and publications
Interim report on comparative LCA&LCC for NdFeB Permanent Magnet manufacturing processesComparisson between LCA&LCC for NdFeB Permanent Magnet manufacturing processes
First Publishable summaryNEOHIRE projec summary
Intermediate Dissemination and communication plan & Dissemination materialDescrption of the NEOHIRE dissemination material and publications
Interim report on comparative LCA&LCC & Social LCA regarding NdFeB material solutionsComparison between LCA&LCC & Social LCA regarding NdFeB material solutions
Final report on comparative LCA&LCC for NdFeB Permanent Magnet manufacturing processesFinal report on comparative LCA&LCC for NdFeB Permanent Magnet manufacturing processes Task 5.2 has been extended because of the delay in the definition of the heat treatments to develop the gas atomized powder in WP1. This report will complete the data of D5.4 regarding the comparison between LCA&LCC for NdFeB Permanent Magnet manufacturing processes after process definition at lab scale in WP2.
Report on comparative LCA&LCC for NdFeB PM recycling processesComparison between LCA&LCC for NdFeB PM recycling processes
Final Publishable summaryFinal NEOHIRE project summary
Final report on comparative LCA&LCC & Social LCA regarding NdFeB material solutionsFinal report on comparative LCA&LCC & Social LCA regarding NdFeB material solutions Task 5.1 has been extended because of the delay in the definition of the heat treatments to develop the gas atomized powder in WP1. This report will complete the data of D5.3 regarding the comparison between LCA&LCC & Social LCA regarding NdFeB material solutions.after process definition at lab scale in WP2.
"Report on comparative ""cradle-to-grave"" LCA&LCC, including the relevant differences within the PM Generator production and use phase.""Comparative ""cradle-to-grave"" LCA&LCC, including the relevant differences within the PM Generator production and use phase."
MODAFirst Dissemination and communication plan & Dissemination material
Descrption of the NEOHIRE dissemination material and publications
Final samples from both powder sources (fresh and recycling) by both injection and compression moulding technologies at lab scale. Since powders from WP1 and WP4 were not available, preliminary samples produced until month 24 were manufactured using equivalent commercial powders (AICHI HDDR irregular powder and spherical isotropic MQP-S-11-9 powder from MAGNEQUENCH). This was useful to determine the injection and compression moulding parameter. The extension of the Task 2.1 is requested to manufacture the final samples using the powders developed in NEOHIRE
Samples from both powder sources (fresh and recycling) by both injection and compression moulding technologies at lab scaleSamples from both powder sources fresh and recycling by both injection and compression moulding technologies at lab scale
PM prototype validationThis is a report containing the results of the validation tests
Final event for the closure of NEOHIRE project
Final process flow sheet for the production of Nd2O3 (99.9% purity) from end-of-life NdFeB magnetsProcess flow sheet for the production of Nd2O3 (99.9% purity) from end-of-life NdFeB magnets
Intermediate process flow sheet for the production of Nd2O3 (99.9% purity) from end-of-life NdFeB magnetsDescription of the intermediate process flow sheet for the production of Nd2O3 (99.9% purity) from end-of-life NdFeB magnets
Final process flow sheet for the recovery of REEs & Co from bonded PM and of REEs from sintered PMDescription of the final process flow sheet for the recovery of REEs & Co from bonded PM and of REEs from sintered PM
Intermediate process flow sheet for the recovery of REEs & Co from bonded PM and of REEs from sintered PMAnisotropic resin bonded NdFeB magnets from sintered NdFeB magnets (M32-UOB) This deliverable will include report on optimised HDDR conditions for processing of sintered NdFeB magnets into an anisotropic NdFeB powder and also the production of physical samples for their interaction in WP2 of resin-bonded PM obtained from sintered PM wastes
Publicaciones
Autores:
G. Sarriegui, J. M. Martin, M. Ipatov, A. P. Zhukov, J. Gonzalez
Publicado en:
IEEE Transactions on Magnetics, 2018, Página(s) 1-5, ISSN 0018-9464
Editor:
Institute of Electrical and Electronics Engineers
DOI:
10.1109/TMAG.2018.2839906
Autores:
Steff Van Loy, Mehmet Ali Recai Önal, Koen Binnemans, Tom Van Gerven
Publicado en:
Hydrometallurgy, Edición 191, 2020, Página(s) 105154, ISSN 0304-386X
Editor:
Elsevier BV
DOI:
10.1016/j.hydromet.2019.105154
Autores:
Mehmet Ali Recai Önal, Sofía Riaño, Koen Binnemans
Publicado en:
Hydrometallurgy, Edición 191, 2020, Página(s) 105213, ISSN 0304-386X
Editor:
Elsevier BV
DOI:
10.1016/j.hydromet.2019.105213
Autores:
Sofía Riaño, Simona Sobekova Foltova, Koen Binnemans
Publicado en:
RSC Advances, Edición 10/1, 2020, Página(s) 307-316, ISSN 2046-2069
Editor:
Royal Society of Chemistry
DOI:
10.1039/c9ra08996a
Autores:
Lorenzo Berzi, Caterina Antonia Dattilo, Francesco Del Pero, Massimo Delogu, Manuel Ignacio Gonzalez
Publicado en:
Procedia Structural Integrity, Edición 24, 2019, Página(s) 961-977, ISSN 2452-3216
Editor:
Procedia Structural Integrity, vol. 24, 2019, p. 961-977
DOI:
10.1016/j.prostr.2020.02.084
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