Suppression of Surface Hot Shortness due to Cu in Recycled Steels

Shibata, Koji; Seo, Soek-Jong; Kaga, Masashi; Uchino, Hiroshi; Sasanuma, Akio; Asakura, Kentaro; Nagasaki, Chihiro

doi:10.2320/matertrans.43.292

Cited by 59 publications

(26 citation statements)

References 9 publications

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“…The reduction in production costs has been also reported by effectively using low-quality iron ores and by omitting or shortening the dephosphorization process. Furthermore, Shibata et al [14] have found that susceptibility to surface hot shortness decreases on increasing P content up to 0.1 % in Fe-0.1 %C-0.5 %Mn-0.5 %Cu steel. In this case, the possibilities can be explored to replace or reduce judiciously the costlier element Ni with P to even more than 0.1 %.…”

Section: Introductionmentioning

confidence: 97%

Effect of Alloying Elements on Mechanical Properties of High P Low Alloy Steels

Sahoo¹,

Deepa²,

Singh³

et al. 2016

Trans Indian Inst Met

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Four numbers of laboratory heats containing 0.19 % P, 23-60 ppm B and varying amounts of other elements, viz. Cr, Cu, Ni, B and Nb were made through ingot casting route. Effects of these elements on mechanical properties were studied after hot rolling the ingots in an experimental rolling mill. Nb increased yield strength and ultimate tensile strength considerably though its beneficial effect on toughness was not realized in the presence of boron. While the beneficial effect of B in the range of 23-60 ppm was not realized, the steel without B exhibited highest toughness value. In this particular steel, the volume fraction of {100}h001i texture component was lowest and percentage of HAGBs was highest, both of which contributed to the increase in toughness value. Further, this steel also exhibited the distribution of highest numbers of fine grains suitable for structural applications.

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Section: Introductionmentioning

confidence: 97%

Effect of Alloying Elements on Mechanical Properties of High P Low Alloy Steels

Sahoo¹,

Deepa²,

Singh³

et al. 2016

Trans Indian Inst Met

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show abstract

“…However, the addition of certain elements, such as nickel, silicon, boron, carbon, and phosphorus, is reported to be effective in controlling this problem. [1][2][3][4][5][6] Furthermore, controlling the reheating conditions, such as temperature and the atmospheric water vapor concentration in the atmosphere, also contribute to resolving this problem. 7,8) Therefore, it is important to understand how Cu is distributed when steel is oxidized.…”

Section: Introductionmentioning

confidence: 99%

Effect of Oxygen Concentration on Surface Hot Shortness of Steel Induced by Copper

Kondo

Tanei

2015

ISIJ Int.

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Since the Cu content in steel causes hot shortness, it is important to understand the behavior of Cu during high-temperature oxidation in order to control the precipitated Cu. This study examined Cu distribution during the oxidation of steel. The oxidation tests revealed that precipitated Cu existing in the scale/ steel interface was absorbed into the Fe 3 O 4 layer or evaporated into the atmosphere as Cu. Then, a method proposed to suppress hot shortness was tested by oxidation-tensile tests at high temperature and the method was proven to be effective.

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“…At conditions of higher or lower temperatures, the sensitivity of surface cracks is reduced. 5,8) In addition, the oxidizing atmosphere also has an impact; atmospheric water vapour increases the number of crack on the steel surface.…”

Section: Introductionmentioning

confidence: 99%

Effect of Atmospheric Conditions on Copper Behaviour during High Temperature Oxidation of a Steel Containing Copper

Kondo

2007

ISIJ Int.

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Suppression of Surface Hot Shortness due to Cu in Recycled Steels

Cited by 59 publications

References 9 publications

Effect of Alloying Elements on Mechanical Properties of High P Low Alloy Steels

Effect of Alloying Elements on Mechanical Properties of High P Low Alloy Steels

Effect of Oxygen Concentration on Surface Hot Shortness of Steel Induced by Copper

Effect of Atmospheric Conditions on Copper Behaviour during High Temperature Oxidation of a Steel Containing Copper

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