IMPROVEMENTS OF MAGNETIC-PROPERTIES OF SM2FE17CX MELT-SPUN RIBBONS BY ADDITIONAL ELEMENTS

被引：9

作者：

SUGIMOTO, S

KURIHARA, K

NAKAMURA, H

OKADA, M

HOMMA, M

机构：

[1] Department of Materials Science, Faculty of Engineering, Tohoku University

来源：

MATERIALS TRANSACTIONS JIM | 1992年 / 33卷 / 02期

关键词：

SAMARIUM-IRON-CARBON; SM2FE17CX COMPOUND; MELT-SPUN RIBBON; ADDITIONAL ELEMENTS; COERCIVITY;

D O I：

10.2320/matertrans1989.33.146

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

Before melt-spinning of the alloys, the formation of a Sm2Fe17 phase with Th2Zn17 type structure in Sm2(Fe0.9Cr0.1)17C1.6 alloys is confirmed by studying the microstructure of ingots. Sm2(Fe0.9Cr0.1)17C1.6 melt-spun ribbon exhibits the coercive force of 672 kAm-1 (8.4 kOe) after annealing at 750-degrees-C for 30 min. Microstructural studies indicate that the ribbon consists of fine grains of 50-150 nm in diameter. It is found that a phase transformation from TbCu7 to Th2Zn17 is caused with increasing annealing temperature, by X-ray analysis and the variation of magnetic hysteresis loops. The Ga containing ribbon of Sm2(Fe0.9Ga0.1)17C1.6 exhibits the coercivity of 680 kAm-1 (8.5 kOe) after annealing. A further addition of M (M = Co, Mn) to Sm2(Fe, Cr)17C1.6 and Sm2(Fe, Ga)17C1.6 alloys improves the magnetic properties. Especially, Sm2(Fe0.85Ga0.1Co0.05)17C1.6 ribbon annealed at 650-degrees-C for 30 min exhibits high coercivity of 1008 kAm-1 (12.6 kOe) with the (BH)max of 62.4 kJm-3 (7.8 MGOe). This is the highest magnetic properties among the reported values of Sm2Fe17Cx melt-spun ribbons so far.

引用

页码：146 / 150

页数：5

共 11 条

[1] FORMATION AND MAGNETIC-PROPERTIES OF THE COMPOUNDS R2FE14C
DEMOOIJ, DB
BUSCHOW, KHJ
[J]. JOURNAL OF THE LESS-COMMON METALS, 1988, 142 (1-2): : 349 - 357
[2] DEMOOIJ DB, 1987, PHILIPS J RES, V42, P246
[3] MAGNETIC HARDENING OF MELT-SPUN SM2FE17CX
DING, J
ROSENBERG, M
[J]. JOURNAL OF THE LESS-COMMON METALS, 1990, 166 (02): : 313 - 317
[4] GLANDYSHEVSKY EI, HDB PHYSICS CHEM RAR, V13, P60
[5] HYPERFINE FIELD ANISOTROPY AND SPIN REORIENTATION IN TERNARY CARBIDES OF THE TYPE R2FE17CX
GUBBENS, PCM
VANDERKRAAN, AM
JACOBS, TH
BUSCHOW, KHJ
[J]. JOURNAL OF THE LESS-COMMON METALS, 1990, 163 (01): : 165 - 172
[6] CRYSTALLOGRAPHIC AND MAGNETIC-STRUCTURE OF TERNARY CARBIDES OF THE TYPE ND2FE17CX
HELMHOLDT, RB
BUSCHOW, KHJ
[J]. JOURNAL OF THE LESS-COMMON METALS, 1989, 155 (01): : 15 - 21
[7] THE MAGNETIC AND STRUCTURAL-PROPERTIES OF R-TI-FE TERNARY COMPOUNDS
OHASHI, K
YOKOYAMA, T
OSUGI, R
TAWARA, Y
[J]. IEEE TRANSACTIONS ON MAGNETICS, 1987, 23 (05) : 3101 - 3103
[8] STUDY OF THE CRITICAL-BEHAVIOR OF THE MAGNETIZATION AND ELECTRICAL-RESISTIVITY IN CUBIC LA(FE, SI)13 COMPOUNDS
PALSTRA, TTM
MYDOSH, JA
NIEUWENHUYS, GJ
VANDERKRAAN, AM
BUSCHOW, KHJ
[J]. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 1983, 36 (03) : 290 - 296
[9] MAGNETIZATION PROCESS IN RAPIDLY SOLIDIFIED NEODYMIUM-IRON-BORON PERMANENT-MAGNET MATERIALS
PINKERTON, FE
VANWINGERDEN, DJ
[J]. JOURNAL OF APPLIED PHYSICS, 1986, 60 (10) : 3685 - 3690
[10] NEW MATERIAL FOR PERMANENT-MAGNETS ON A BASE OF ND AND FE
SAGAWA, M
FUJIMURA, S
TOGAWA, N
YAMAMOTO, H
MATSUURA, Y
[J]. JOURNAL OF APPLIED PHYSICS, 1984, 55 (06) : 2083 - 2087

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