Achievements of ISP steelmaking technology

Arvedi, G.

doi:10.1179/030192310x12628786049279

Cited by 3 publications

(2 citation statements)

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“…The object of investigation was a single nozzle tundish with stopper rod system (SRS). 11 Figure 1 shows the physical model of tundish (Fig. 1a) and a virtual model with indicated measurement points and the marked location of introducing the alloy addition to the steel (Fig.…”

Section: Characterisation Of Test Facilitymentioning

confidence: 99%

Pulse-step method for liquid steel alloying in one strand slab tundish

Cwudziński

2014

Ironmaking & Steelmaking

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The minimisation of the duration of ladle furnace treatment on the ladle furnace station and transferring part of the technological operations to the tundish might intensify the steel production process. The present paper reports results concerning a new method of feeding alloy additions intended to be used during the continuous casting process. For continuous casting tundishes, it seems possible and rational to correct the chemical composition of steel or to feed low melting point microalloys and non-metallic inclusion modifiers. The object of investigation was a single strand tundish. Computer simulation of the liquid steel flow and alloy addition behaviour in turbulent motion conditions was done using the Ansys-Fluent computer program. The numerical model employed in the computations was verified by industrial (non-isothermal conditions) and laboratory (isothermal conditions) tests. In all tundish equipment variants, except for variant no. 3, a reduction in the mixing time was achieved as against the tundish currently used in industrial conditions.

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Section: Characterisation Of Test Facilitymentioning

confidence: 99%

Pulse-step method for liquid steel alloying in one strand slab tundish

Cwudziński

2014

Ironmaking & Steelmaking

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“…連続鋳造プロセスにおいて，スラブ表面割れ抑制は，スラブ品質と高生産化の両立を達成するために重要な課題である 1) 。特に，連続鋳造中のフェライト(α)とオーステナイト(γ)の二相域では，延性が低下し(脆化) [2][3][4][5][6][7] ，さらに，Nb 添加鋼においては，Nb 添加しない場合に比べスラブ表面割れが生じやすいことが分かっている。Nb 無添加鋼では，粗大な γ 粒および γ/α 粒界に析出するフィルム状 α に影響を受け，延性が著しく低下することが報告されている [8][9][10][11] 。一方，Nb 添加鋼では，γ 粒内の Nb 系析出物により，さらに脆化が悪化し，容易にスラブ表面割れを引き起こしやすくなることが分かっている 2,4,10,[12][13][14][15] 。また，Nb 添加鋼では，Nb 溶質引き摺り効果により，γ 粒成長が抑制され，Nb 無添加鋼に比べ γ 粒径が微細化することが報告されている 2,[16][17][18][19]…”

Section: 緒言unclassified

Evaluating the Effect of the Competition between NbC Precipitation and Grain Size Evolution on the Hot Ductility of Nb Containing Steels

Furumai¹,

Wang

Zurob

et al. 2020

Tetsu-to-Hagane

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The hot ductility of steels containing 0-0.06 wt.%Nb has been evaluated through γ grain growth experiments and hot stage tensile tests of the α + γ two phase region in order to clarify the roles of NbC precipitation and γ grain size evolution resulting from Nb-initiated solute drag on hot ductility in this important material property. The experimental results show that (1) a decrease in γ grain size as a result of Nb-initiated solute drag improves hot ductility, (2) for a given γ grain size, hot ductility decreases with increasing Nb content because the corresponding increase in NbC precipitation fraction increases strength, and (3) the variation in ductility with Nb content is smaller when the γ grain size is smaller. These competing effects of γ grain size and NbC precipitation affect the strain incompatibility between the α and γ phases, leading to the onset of surface cracking during continuous casting when the incompatibility is high. The underlying mechanisms controlling ductility in Nb-containing steels are demonstrated using a model that partitions strain between the α and γ phases.

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Recycling of Steel

Björkman

Samuelsson

2014

Handbook of Recycling

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Achievements of ISP steelmaking technology

Cited by 3 publications

References 0 publications

Pulse-step method for liquid steel alloying in one strand slab tundish

Pulse-step method for liquid steel alloying in one strand slab tundish

Evaluating the Effect of the Competition between NbC Precipitation and Grain Size Evolution on the Hot Ductility of Nb Containing Steels

Recycling of Steel

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