Magnetic properties of Nd–Fe binary alloys produced by a metallic mold casting method

Saito, Tetsuji; Ozawa, Shumpei; Motegi, Tetsuichi

doi:10.1063/1.1453330

Cited by 21 publications

(31 citation statements)

References 9 publications

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“…The Sm-Fe master alloy has fine grains. This is due to the relatively high solidification rate of the metallic mold casting [14]. On the other hand, large dendrites are seen in the microstructure of the metallic specimen produced by the glass slag method.…”

Section: Resultsmentioning

confidence: 97%

Extraction of Sm from Sm–Fe alloys by the glass slag method

Saito

Sato

Motegi

2005

Journal of Alloys and Compounds

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Section: Resultsmentioning

confidence: 97%

Extraction of Sm from Sm–Fe alloys by the glass slag method

Saito

Sato

Motegi

2005

Journal of Alloys and Compounds

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“…This is due to the relatively high solidification rate of the metallic mold casting. 14) On the other hand, large dendrites are seen in the microstructure of the Sm-Co alloy produced by the glass slag method. In order to examine the differences in the microstructure, detailed microstructural studies of both the Sm-Co master alloy and the Sm-Co alloy produced by the glass slag method were made by EPMA.…”

Section: Methodsmentioning

confidence: 99%

The Extraction of Sm from Sm-Co alloys by the Glass Slag Method

et al. 2003

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The use of the glass slag method in the extraction of Sm from Sm-Co alloys was studied. The magnetic SmCo 5 phase decomposed into Sm oxide phase and Co phases by the glass slag method. The Sm oxide phase was extracted by the surrounding molten glass slag materials in the glass slag method. The resultant alloys consisted of neither SmCo 5 phase nor Sm oxide phase. In the glass slag method, the Sm-Co alloys were separated into Sm-containing glass slag material and a Co-B alloy. The glass slag method was suitable for the extraction of samarium from the Sm-Co alloys as was the case for the extraction of neodymium from the Nd-Fe-B alloys.

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“…The Sm-Fe melt-spun ribbons were successfully consolidated into bulk materials by the SPS method regardless of the Sm content. For instance, the density of the Sm 22.5 Fe 77.5 magnets was 7.23 g/cm 3 (approximately 91% of the ingot density). Virtually the same density was obtained from the other Sm-Fe magnets produced by the SPS method.…”

Section: Introductionmentioning

confidence: 99%

“…The Nd 5 Fe 17 phase is a new stable ferromagnetic phase in the binary Nd-Fe system [1][2][3]. Although the Nd 5 Fe 17 phase has a high saturation magnetization of 1.61 T at 4 K and a Curie temperature above 500 K, it does not possess c-axis anisotropy, which is essential for permanent magnet materials [4].…”

Section: Introductionmentioning

confidence: 99%

Magnetic properties of Sm₅Fe₁₇-based magnets produced by spark plasma sintering method

Saito

Furutani

2009

IOP Conf. Ser.: Mater. Sci. Eng.

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Abstract. Sm 5 Fe 17 -based magnets, one of the newer permanent magnetic materials, were successfully produced from Sm 12.5+X Fe 87.5-X (x=0-17.5) melt-spun ribbons by the spark plasma sintering (SPS) method. X-ray diffraction and thermomagnetic studies revealed that the resultant Sm-Fe magnets contained the metastable Sm 5 Fe 17 phase. From further studies, it was found that the amount of Sm 5 Fe 17 phase and the resultant coercivity of the Sm-Fe magnets were highly dependent on the Sm content of the SmFe melt-spun ribbon. The Sm 22.5 Fe 77.5 magnet consisted of the Sm 5 Fe 17 phase and exhibited a large coercivity of 34.2 kOe with a remanence of 46.2 emu/g (0.423T).

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Magnetic properties of Nd–Fe binary alloys produced by a metallic mold casting method

Cited by 21 publications

References 9 publications

Extraction of Sm from Sm–Fe alloys by the glass slag method

Extraction of Sm from Sm–Fe alloys by the glass slag method

The Extraction of Sm from Sm-Co alloys by the Glass Slag Method

Magnetic properties of Sm₅Fe₁₇-based magnets produced by spark plasma sintering method

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Magnetic properties of Nd–Fe binary alloys produced by a metallic mold casting method

Cited by 21 publications

References 9 publications

Extraction of Sm from Sm–Fe alloys by the glass slag method

Extraction of Sm from Sm–Fe alloys by the glass slag method

The Extraction of Sm from Sm-Co alloys by the Glass Slag Method

Magnetic properties of Sm5Fe17-based magnets produced by spark plasma sintering method

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Magnetic properties of Sm₅Fe₁₇-based magnets produced by spark plasma sintering method