Synthesis of α′′-Fe(16)N(2) ribbons with a porous structure

The microstructure of FeCuB ribbons (∼20 μm thick) was modified to fabricate α′′-Fe(16)N(2) at a temperature as low as 160 °C. The ribbon samples were heat treated first at a temperature reaching 930 °C and then quenched down to room temperature. During the heat treatment, ribbon samples were oxidiz...

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Detalles Bibliográficos
Autores principales: Liu, Jinming, Guo, Guannan, Zhang, Fan, Wu, Yiming, Ma, Bin, Wang, Jian-Ping
Formato: Online Artículo Texto
Lenguaje:English
Publicado: RSC 2019
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9419178/
https://www.ncbi.nlm.nih.gov/pubmed/36132589
http://dx.doi.org/10.1039/c9na00008a
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author Liu, Jinming
Guo, Guannan
Zhang, Fan
Wu, Yiming
Ma, Bin
Wang, Jian-Ping
author_facet Liu, Jinming
Guo, Guannan
Zhang, Fan
Wu, Yiming
Ma, Bin
Wang, Jian-Ping
author_sort Liu, Jinming
collection PubMed
description The microstructure of FeCuB ribbons (∼20 μm thick) was modified to fabricate α′′-Fe(16)N(2) at a temperature as low as 160 °C. The ribbon samples were heat treated first at a temperature reaching 930 °C and then quenched down to room temperature. During the heat treatment, ribbon samples were oxidized, and hydrogen reduction was then conducted to remove the oxygen from the ribbon samples. The reduced ribbon samples had a porous structure, which improved the nitrogen diffusion efficiency and decreased the fabrication temperature of α′′-Fe(16)N(2) down to 160 °C. It was demonstrated that the techniques for microstructure control in this method including oxidation and reduction helped obtain the α′′-Fe(16)N(2) phase with high coercivity, thus manifesting this could be a promising technique for low-temperature nitridation on ribbons in general.
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spelling pubmed-94191782022-09-20 Synthesis of α′′-Fe(16)N(2) ribbons with a porous structure Liu, Jinming Guo, Guannan Zhang, Fan Wu, Yiming Ma, Bin Wang, Jian-Ping Nanoscale Adv Chemistry The microstructure of FeCuB ribbons (∼20 μm thick) was modified to fabricate α′′-Fe(16)N(2) at a temperature as low as 160 °C. The ribbon samples were heat treated first at a temperature reaching 930 °C and then quenched down to room temperature. During the heat treatment, ribbon samples were oxidized, and hydrogen reduction was then conducted to remove the oxygen from the ribbon samples. The reduced ribbon samples had a porous structure, which improved the nitrogen diffusion efficiency and decreased the fabrication temperature of α′′-Fe(16)N(2) down to 160 °C. It was demonstrated that the techniques for microstructure control in this method including oxidation and reduction helped obtain the α′′-Fe(16)N(2) phase with high coercivity, thus manifesting this could be a promising technique for low-temperature nitridation on ribbons in general. RSC 2019-03-12 /pmc/articles/PMC9419178/ /pubmed/36132589 http://dx.doi.org/10.1039/c9na00008a Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Liu, Jinming
Guo, Guannan
Zhang, Fan
Wu, Yiming
Ma, Bin
Wang, Jian-Ping
Synthesis of α′′-Fe(16)N(2) ribbons with a porous structure
title Synthesis of α′′-Fe(16)N(2) ribbons with a porous structure
title_full Synthesis of α′′-Fe(16)N(2) ribbons with a porous structure
title_fullStr Synthesis of α′′-Fe(16)N(2) ribbons with a porous structure
title_full_unstemmed Synthesis of α′′-Fe(16)N(2) ribbons with a porous structure
title_short Synthesis of α′′-Fe(16)N(2) ribbons with a porous structure
title_sort synthesis of α′′-fe(16)n(2) ribbons with a porous structure
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9419178/
https://www.ncbi.nlm.nih.gov/pubmed/36132589
http://dx.doi.org/10.1039/c9na00008a
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AT wuyiming synthesisofafe16n2ribbonswithaporousstructure
AT mabin synthesisofafe16n2ribbonswithaporousstructure
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