Optimizing the magnetic properties of Fe-based amorphous powder by adjusting atomic structures from vitrification at different temperatures

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Optimizing the magnetic properties of Fe-based amorphous powder by adjusting atomic structures from vitrification at different temperatures. / Kim, Song Yi; Oh, Hye Ryeong; Kim, Hyeon Ah et al.
in: Journal of applied physics, Jahrgang 126.2019, Nr. 16, 165109, 25.10.2019.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Harvard

Kim, SY, Oh, HR, Kim, HA, Lee, AY, Kim, HJ, Yang, SS, Kim, YJ, Choi, HJ, Kim, IH, Kim, HG, Eckert, J, Kim, JR & Lee, MH 2019, 'Optimizing the magnetic properties of Fe-based amorphous powder by adjusting atomic structures from vitrification at different temperatures', Journal of applied physics, Jg. 126.2019, Nr. 16, 165109. https://doi.org/10.1063/1.5116843

APA

Kim, S. Y., Oh, H. R., Kim, H. A., Lee, A. Y., Kim, H. J., Yang, S. S., Kim, Y. J., Choi, H. J., Kim, I. H., Kim, H. G., Eckert, J., Kim, J. R., & Lee, M. H. (2019). Optimizing the magnetic properties of Fe-based amorphous powder by adjusting atomic structures from vitrification at different temperatures. Journal of applied physics, 126.2019(16), Artikel 165109. Vorzeitige Online-Publikation. https://doi.org/10.1063/1.5116843

Vancouver

Kim SY, Oh HR, Kim HA, Lee AY, Kim HJ, Yang SS et al. Optimizing the magnetic properties of Fe-based amorphous powder by adjusting atomic structures from vitrification at different temperatures. Journal of applied physics. 2019 Okt 25;126.2019(16):165109. Epub 2019 Okt 25. doi: 10.1063/1.5116843

Author

Kim, Song Yi ; Oh, Hye Ryeong ; Kim, Hyeon Ah et al. / Optimizing the magnetic properties of Fe-based amorphous powder by adjusting atomic structures from vitrification at different temperatures. in: Journal of applied physics. 2019 ; Jahrgang 126.2019, Nr. 16.

Bibtex - Download

@article{2332c6c6ae4a4a5085cf4d21f358f93c,
title = "Optimizing the magnetic properties of Fe-based amorphous powder by adjusting atomic structures from vitrification at different temperatures",
abstract = "We present variation of the magnetic properties of Fe77.8Nb0.2B14P6C2 amorphous alloys vitrified at different temperatures by changing the atomic structures dependent on the critical cooling rate. The thermophysical properties of the amorphous state achieved after quenching the melt with cold nitrogen atomization gas are compared with those obtained using hot nitrogen gas with a temperature corresponding to the supercooled liquid of the alloy above the glass transition (Tg) but below crystallization temperature (Tx). The differently vitrified Fe77.8Nb0.2B14P6C2 glasses represent different states of high pressure gas atomized amorphous powder at different temperatures obtained by adjusting the gas temperature during the atomization process. The magnetic properties of these different amorphous powders are also investigated. The saturation magnetic flux density of slowly cooled Glass2 is 1.38 T with 450 A/m coercivity corresponding to {"}semi-soft{"} magnetic materials. The fast cooled Glass1 powder shows typical soft magnetic properties with lower coercivity (174 A/m), even though the saturation magnetization flux densities are similar in both identical compositions of amorphous powder due to its entropy difference related to the formation of clusters. We can control the magnetic property of amorphous materials from soft to half-soft by adjusting freezing temperature and ordering of atoms.",
author = "Kim, {Song Yi} and Oh, {Hye Ryeong} and Kim, {Hyeon Ah} and Lee, {A. Young} and Kim, {Hwi Jun} and Yang, {Sang Sun} and Kim, {Yong Jin} and Choi, {Hyun Joo} and Kim, {Il Hyun} and Kim, {Hyun Gil} and J{\"u}rgen Eckert and Kim, {Jong Ryoul} and Lee, {Min Ha}",
year = "2019",
month = oct,
day = "25",
doi = "10.1063/1.5116843",
language = "English",
volume = "126.2019",
journal = "Journal of applied physics",
issn = "0021-8979",
publisher = "American Institute of Physics Publising LLC",
number = "16",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Optimizing the magnetic properties of Fe-based amorphous powder by adjusting atomic structures from vitrification at different temperatures

AU - Kim, Song Yi

AU - Oh, Hye Ryeong

AU - Kim, Hyeon Ah

AU - Lee, A. Young

AU - Kim, Hwi Jun

AU - Yang, Sang Sun

AU - Kim, Yong Jin

AU - Choi, Hyun Joo

AU - Kim, Il Hyun

AU - Kim, Hyun Gil

AU - Eckert, Jürgen

AU - Kim, Jong Ryoul

AU - Lee, Min Ha

PY - 2019/10/25

Y1 - 2019/10/25

N2 - We present variation of the magnetic properties of Fe77.8Nb0.2B14P6C2 amorphous alloys vitrified at different temperatures by changing the atomic structures dependent on the critical cooling rate. The thermophysical properties of the amorphous state achieved after quenching the melt with cold nitrogen atomization gas are compared with those obtained using hot nitrogen gas with a temperature corresponding to the supercooled liquid of the alloy above the glass transition (Tg) but below crystallization temperature (Tx). The differently vitrified Fe77.8Nb0.2B14P6C2 glasses represent different states of high pressure gas atomized amorphous powder at different temperatures obtained by adjusting the gas temperature during the atomization process. The magnetic properties of these different amorphous powders are also investigated. The saturation magnetic flux density of slowly cooled Glass2 is 1.38 T with 450 A/m coercivity corresponding to "semi-soft" magnetic materials. The fast cooled Glass1 powder shows typical soft magnetic properties with lower coercivity (174 A/m), even though the saturation magnetization flux densities are similar in both identical compositions of amorphous powder due to its entropy difference related to the formation of clusters. We can control the magnetic property of amorphous materials from soft to half-soft by adjusting freezing temperature and ordering of atoms.

AB - We present variation of the magnetic properties of Fe77.8Nb0.2B14P6C2 amorphous alloys vitrified at different temperatures by changing the atomic structures dependent on the critical cooling rate. The thermophysical properties of the amorphous state achieved after quenching the melt with cold nitrogen atomization gas are compared with those obtained using hot nitrogen gas with a temperature corresponding to the supercooled liquid of the alloy above the glass transition (Tg) but below crystallization temperature (Tx). The differently vitrified Fe77.8Nb0.2B14P6C2 glasses represent different states of high pressure gas atomized amorphous powder at different temperatures obtained by adjusting the gas temperature during the atomization process. The magnetic properties of these different amorphous powders are also investigated. The saturation magnetic flux density of slowly cooled Glass2 is 1.38 T with 450 A/m coercivity corresponding to "semi-soft" magnetic materials. The fast cooled Glass1 powder shows typical soft magnetic properties with lower coercivity (174 A/m), even though the saturation magnetization flux densities are similar in both identical compositions of amorphous powder due to its entropy difference related to the formation of clusters. We can control the magnetic property of amorphous materials from soft to half-soft by adjusting freezing temperature and ordering of atoms.

UR - http://www.scopus.com/inward/record.url?scp=85074194776&partnerID=8YFLogxK

U2 - 10.1063/1.5116843

DO - 10.1063/1.5116843

M3 - Article

AN - SCOPUS:85074194776

VL - 126.2019

JO - Journal of applied physics

JF - Journal of applied physics

SN - 0021-8979

IS - 16

M1 - 165109

ER -

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