Properties of a High-Purity Fe–mass% Cr Alloy

Abiko, K.; Kato, Yusuke

doi:10.1002/(sici)1521-396x(199806)167:2<449::aid-pssa449>3.0.co;2-2

Cited by 21 publications

(2 citation statements)

References 11 publications

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“…Figure 1 shows the tensile strength and the reduction in area of 60Cr-Fe-4W (I) after Gleeble testing at temperatures between 1273 K and 1573 K, together with the data of 50Cr-Fe and 60Cr-Fe. 3,4) The data of 50Cr-Fe-5W and 50Cr-Fe-8W alloys 5) were also shown in the same Figure. It was found from the present investigation that the tensile strength of 60Cr-Fe increases by the addition of tungsten at temperatures between 1273 K and 1573 K. The reduction in area of 50Cr-Fe increases by the addition of tungsten; however, the Effect of Tungsten on Mechanical Properties of High-Purity 60 mass%Cr-Fe Alloys 143 and Fig. 4(b).…”

Section: Tensile Testmentioning

confidence: 67%

Effect of Tungsten on Mechanical Properties of High-Purity 60 mass%Cr-Fe Alloys

et al. 2002

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The effect of the tungsten addition on the mechanical properties of high-purity 60 mass%Cr-Fe alloy was investigated. High-purity 60 mass%Cr-Fe-4 mass%W alloy ingots were prepared by melting in a newly designed high-frequency induction furnace equipped with a cold copper crucible. The purity of the ingots were higher than 99.98 mass% after the analysis of 21 elements. The deformability at temperatures of 1273 to 1573 K and the tensile properties between 293 K and 1073 K were measured by Gleeble test and tensile test. It was found that the tensile strength of 60 mass%Cr-Fe-4 mass%W alloy is higher than that of 60 mass%Cr-Fe alloy, and the addition of tungsten is effective in improving tensile properties of a 60 mass%Cr-Fe alloy.

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Section: Tensile Testmentioning

confidence: 67%

Effect of Tungsten on Mechanical Properties of High-Purity 60 mass%Cr-Fe Alloys

et al. 2002

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“…Since then we have published many papers [14][15][16] on preparation, trace analysis, and characteristic properties of ultrahigh-purity metals and alloys. We prepared, for example, ultrahighpurity iron ingot 10 kg in weight of higher than 99.9988% purity after the analysis of 33 elements and containing the concentration of C þ N þ O þ S of less than 3.4 mass ppm using the CCIM furnace, 17) high-purity Fe-Cr system alloys, 18,19) high-purity Ti-Al alloys, 20) and so on. The purpose of the present paper is to investigate the effect of CCIM under ultrahigh vacuum of 10 À7 Pa on the purification of high-purity nickel, cobalt and titanium due to the removal of gaseous impurities and thus to establish a new purification procedure to obtain high-purity these metals even on the scale of one to ten kg in weight.…”

Section: Introductionmentioning

confidence: 99%

Purification of Cobalt, Nickel, and Titanium by Cold-Crucible Induction Melting in Ultrahigh Vacuum

Takaki

Abiko

2006

Mater. Trans.

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Three separate charges of cobalt 9.2 kg in weight, 3.0 kg nickel and 1.6 kg titanium have been melted in ultrahigh vacuum (UHV) using cold-crucible induction melting (CCIM) furnace, in which UHV of better than 1 Â 10 À7 Pa is attainable. The effects of CCIM in UHV on the purification of these metals due to the removal of gaseous impurities, and the characteristics of CCIM in UHV have been investigated by the analysis of the melting conditions such as the total pressure and the mass spectra of gases during CCIM, and analytical results of these ingots. CCIM in the present UHV degree and quality is found to be very effective for the purification due to the removal of gaseous impurities in cobalt and nickel, in particular, for the decrease in oxygen, and very important for melting of ultrahigh-purity titanium without any contamination by gaseous impurities, in particular, oxygen.

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Recent Progress and Future R & D for High-Chromium Iron-Base and Chromium-Base Alloys

Hishinuma¹,

Takaki

Abiko

2002

phys. stat. sol. (a)

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Attractive characteristics of high-chromium iron-base alloys and chromium-base alloys have been demonstrated compared with those of conventional ferritic and austentic stainless steels. Recent progress especially on purification techniques indicates the possibility for these alloys to be developed into engineering materials. It is argued that the purification may overcome the brittleness of drawback of these alloys.

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Properties of a High-Purity Fe–mass% Cr Alloy

Cited by 21 publications

References 11 publications

Effect of Tungsten on Mechanical Properties of High-Purity 60 mass%Cr-Fe Alloys

Effect of Tungsten on Mechanical Properties of High-Purity 60 mass%Cr-Fe Alloys

Purification of Cobalt, Nickel, and Titanium by Cold-Crucible Induction Melting in Ultrahigh Vacuum

Recent Progress and Future R & D for High-Chromium Iron-Base and Chromium-Base Alloys

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