Investigation of magnetic properties of MnBi/Co and MnBi/Fe65Co35 nanocomposite permanent magnets by micro-magnetic simulation
Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Li, Y.Q. [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2015transfer abstract |
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| Schlagwörter: |
Micro-magnetic finite element method |
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| Umfang: |
6 |
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| Übergeordnetes Werk: |
Enthalten in: Modular auditory decision-making behavioral task designed for intraoperative use in humans - Tekriwal, Anand ELSEVIER, 2018, MMM, Amsterdam |
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| Übergeordnetes Werk: |
volume:393 ; year:2015 ; day:1 ; month:11 ; pages:484-489 ; extent:6 |
| Links: |
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| DOI / URN: |
10.1016/j.jmmm.2015.06.023 |
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ELV012983454 |
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| 520 | |a Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. | ||
| 520 | |a Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. | ||
| 650 | 7 | |a MnBi/Co nanocomposite magnets |2 Elsevier | |
| 650 | 7 | |a Micro-magnetic finite element method |2 Elsevier | |
| 650 | 7 | |a MnBi/Fe65Co35 nanocomposite magnets |2 Elsevier | |
| 650 | 7 | |a Magnetic properties |2 Elsevier | |
| 700 | 1 | |a Yue, M. |4 oth | |
| 700 | 1 | |a Wang, T. |4 oth | |
| 700 | 1 | |a Wu, Q. |4 oth | |
| 700 | 1 | |a Zhang, D.T. |4 oth | |
| 700 | 1 | |a Gao, Y. |4 oth | |
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10.1016/j.jmmm.2015.06.023 doi GBVA2015010000028.pica (DE-627)ELV012983454 (ELSEVIER)S0304-8853(15)30239-0 DE-627 ger DE-627 rakwb eng 530 530 DE-600 610 VZ 44.90 bkl Li, Y.Q. verfasserin aut Investigation of magnetic properties of MnBi/Co and MnBi/Fe65Co35 nanocomposite permanent magnets by micro-magnetic simulation 2015transfer abstract 6 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. MnBi/Co nanocomposite magnets Elsevier Micro-magnetic finite element method Elsevier MnBi/Fe65Co35 nanocomposite magnets Elsevier Magnetic properties Elsevier Yue, M. oth Wang, T. oth Wu, Q. oth Zhang, D.T. oth Gao, Y. oth Enthalten in North-Holland Publ. Co Tekriwal, Anand ELSEVIER Modular auditory decision-making behavioral task designed for intraoperative use in humans 2018 MMM Amsterdam (DE-627)ELV002407426 volume:393 year:2015 day:1 month:11 pages:484-489 extent:6 https://doi.org/10.1016/j.jmmm.2015.06.023 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 393 2015 1 1101 484-489 6 045F 530 |
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10.1016/j.jmmm.2015.06.023 doi GBVA2015010000028.pica (DE-627)ELV012983454 (ELSEVIER)S0304-8853(15)30239-0 DE-627 ger DE-627 rakwb eng 530 530 DE-600 610 VZ 44.90 bkl Li, Y.Q. verfasserin aut Investigation of magnetic properties of MnBi/Co and MnBi/Fe65Co35 nanocomposite permanent magnets by micro-magnetic simulation 2015transfer abstract 6 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. MnBi/Co nanocomposite magnets Elsevier Micro-magnetic finite element method Elsevier MnBi/Fe65Co35 nanocomposite magnets Elsevier Magnetic properties Elsevier Yue, M. oth Wang, T. oth Wu, Q. oth Zhang, D.T. oth Gao, Y. oth Enthalten in North-Holland Publ. Co Tekriwal, Anand ELSEVIER Modular auditory decision-making behavioral task designed for intraoperative use in humans 2018 MMM Amsterdam (DE-627)ELV002407426 volume:393 year:2015 day:1 month:11 pages:484-489 extent:6 https://doi.org/10.1016/j.jmmm.2015.06.023 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 393 2015 1 1101 484-489 6 045F 530 |
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10.1016/j.jmmm.2015.06.023 doi GBVA2015010000028.pica (DE-627)ELV012983454 (ELSEVIER)S0304-8853(15)30239-0 DE-627 ger DE-627 rakwb eng 530 530 DE-600 610 VZ 44.90 bkl Li, Y.Q. verfasserin aut Investigation of magnetic properties of MnBi/Co and MnBi/Fe65Co35 nanocomposite permanent magnets by micro-magnetic simulation 2015transfer abstract 6 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. MnBi/Co nanocomposite magnets Elsevier Micro-magnetic finite element method Elsevier MnBi/Fe65Co35 nanocomposite magnets Elsevier Magnetic properties Elsevier Yue, M. oth Wang, T. oth Wu, Q. oth Zhang, D.T. oth Gao, Y. oth Enthalten in North-Holland Publ. Co Tekriwal, Anand ELSEVIER Modular auditory decision-making behavioral task designed for intraoperative use in humans 2018 MMM Amsterdam (DE-627)ELV002407426 volume:393 year:2015 day:1 month:11 pages:484-489 extent:6 https://doi.org/10.1016/j.jmmm.2015.06.023 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 393 2015 1 1101 484-489 6 045F 530 |
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10.1016/j.jmmm.2015.06.023 doi GBVA2015010000028.pica (DE-627)ELV012983454 (ELSEVIER)S0304-8853(15)30239-0 DE-627 ger DE-627 rakwb eng 530 530 DE-600 610 VZ 44.90 bkl Li, Y.Q. verfasserin aut Investigation of magnetic properties of MnBi/Co and MnBi/Fe65Co35 nanocomposite permanent magnets by micro-magnetic simulation 2015transfer abstract 6 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. MnBi/Co nanocomposite magnets Elsevier Micro-magnetic finite element method Elsevier MnBi/Fe65Co35 nanocomposite magnets Elsevier Magnetic properties Elsevier Yue, M. oth Wang, T. oth Wu, Q. oth Zhang, D.T. oth Gao, Y. oth Enthalten in North-Holland Publ. Co Tekriwal, Anand ELSEVIER Modular auditory decision-making behavioral task designed for intraoperative use in humans 2018 MMM Amsterdam (DE-627)ELV002407426 volume:393 year:2015 day:1 month:11 pages:484-489 extent:6 https://doi.org/10.1016/j.jmmm.2015.06.023 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 393 2015 1 1101 484-489 6 045F 530 |
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10.1016/j.jmmm.2015.06.023 doi GBVA2015010000028.pica (DE-627)ELV012983454 (ELSEVIER)S0304-8853(15)30239-0 DE-627 ger DE-627 rakwb eng 530 530 DE-600 610 VZ 44.90 bkl Li, Y.Q. verfasserin aut Investigation of magnetic properties of MnBi/Co and MnBi/Fe65Co35 nanocomposite permanent magnets by micro-magnetic simulation 2015transfer abstract 6 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. MnBi/Co nanocomposite magnets Elsevier Micro-magnetic finite element method Elsevier MnBi/Fe65Co35 nanocomposite magnets Elsevier Magnetic properties Elsevier Yue, M. oth Wang, T. oth Wu, Q. oth Zhang, D.T. oth Gao, Y. oth Enthalten in North-Holland Publ. Co Tekriwal, Anand ELSEVIER Modular auditory decision-making behavioral task designed for intraoperative use in humans 2018 MMM Amsterdam (DE-627)ELV002407426 volume:393 year:2015 day:1 month:11 pages:484-489 extent:6 https://doi.org/10.1016/j.jmmm.2015.06.023 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ AR 393 2015 1 1101 484-489 6 045F 530 |
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Enthalten in Modular auditory decision-making behavioral task designed for intraoperative use in humans Amsterdam volume:393 year:2015 day:1 month:11 pages:484-489 extent:6 |
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Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. 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Investigation of magnetic properties of MnBi/Co and MnBi/Fe65Co35 nanocomposite permanent magnets by micro-magnetic simulation |
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Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. |
| abstractGer |
Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. |
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Demagnetization curves of anisotropic nanocomposite MnBi/Co and MnBi/Fe65Co35 permanent magnets were investigated by micro-magnetic finite element method. Effects of volume ratio, deviation degree of orientation and intrinsic magnetic properties of the soft magnetic phase on the magnetic properties of the magnets were investigated. From the viewpoint of practical applications, to meet the requirement of hardness parameters, ĸ=K/(μ 0 M S 2)1/2>1, the calculation maximum (BH)max of MnBi/Co and MnBi/Fe65Co35 magnets are about 199kJ/m3 (V(Co)=22vol%) and 196kJ/m3 (V(FeCo)=14vol%), respectively, indicating their good potential in application. Compared with single phase MnBi magnet, the (BH)max of nanocomposite MnBi/Co and MnBi/Fe65Co35 magnets increases by 66% and 63%, respectively. The remanence and coercivity of MnBi/Co nanocomposite magnets reduce as appearing a deviation degree of orientation, result of greatly decrease of the magnetic energy product. |
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