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ISIJ International
Vol. 31 (1991), No. 12

ISIJ International Vol. 31 (1991), No. 12

Grid List Abstracts

オンライン版ISSN:	1347-5460
冊子版ISSN:	0915-1559
発行機関:	The Iron and Steel Institute of Japan

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キーワードランキング

21 Nov. (Last 30 Days)

ISIJ International Vol. 31 (1991), No. 12

Mixing Time and Liquid Circulation Rate in Steelmaking Ladles with Vertical Gas Injection

Hasmet Turkoglu, Bakhtier Farouk

pp. 1371-1380

DOI:

10.2355/isijinternational.31.1371

抄録

Flow and concentration fields in bench scale gas-injected molten steel baths were numerically studied to investigate dependency of flow structure and mixing characteristics on bath aspect ratio and gas injection rate. The problem was formulated as a two-phase flow on the basis of Eulerian approach for both gas and liquid phase transports. The effects of vessel aspect ratio and gas injection rate on mixing efficiency were characterized from the predicted time evolution of a tracer distribution in the melt and also from the liquid circulation rate. Results demonstrated that both vessel aspect ratio and gas injection rate play crucial roles on flow structure in the bath and hence on the mixing efficiency. It was observed that there is an optimum vessel aspect ratio (1.5) for minimum mixing time for the systems considered. There also exists an optimum gas injection rate for maximum mixing intensity (minimum mixing time) in a given system.

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Aluminium-Oxygen Equilibrium between CaO-Al₂O₃ Melts and Liquid Iron

ISIJ International Vol.31(1991), No.12

Evolution of Porosity Profiles of Magnetite Phase during High Temperature Reduction of Hematite

ISIJ International Vol.36(1996), No.3

Slag Formation in the Adhering Layer of Granules and Its Reaction with Nuclei in Iron Ore Sintering

ISIJ International Vol.35(1995), No.2

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Aluminium-Oxygen Equilibrium between CaO-Al₂O₃ Melts and Liquid Iron

Hideaki Suito, Hajime Inoue, Ryo Inoue

pp. 1381-1388

DOI:

10.2355/isijinternational.31.1381

抄録

Aluminium-oxygen equilibria between CaO-Al₂O₃ melts and liquid iron were studied in the temperature range of 1 823 to 1 923 K, using an alumina and lime crucibles. The equilibrium constant K for the reaction: 2Al+3O= Al₂O₃ was discussed with reference to the supersaturation for nucleation of alumina, and compared with the previous experimental and thermodynamic data. The supersaturation was observed in the experiments in which an Fe-Al alloy with low concentrations of initial oxygen was used under the condition of no stirring. Supersaturation increased with a decrease of oxygen content in liquid iron. Two types of alumina inclusions with a size of 2-5 μm and below 0.1 μm were observed by SEM.

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Mixing Time and Liquid Circulation Rate in Steelmaking Ladles with Vertical Gas Injection

ISIJ International Vol.31(1991), No.12

Partitions of Nitrogen and Sulfur between CaO-Al₂O₃ Melts and Liquid Iron

ISIJ International Vol.31(1991), No.12

Mathematical Modeling of Inclusion Transport and Removal in Continuous Casting Tundishes

ISIJ International Vol.33(1993), No.5

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Partitions of Nitrogen and Sulfur between CaO-Al₂O₃ Melts and Liquid Iron

Ryo Inoue, Hajime Inoue, Hideaki Suito

pp. 1389-1395

DOI:

10.2355/isijinternational.31.1389

抄録

Nitrogen and sulfur distribution ratios between CaO-Al₂O₃ slags and Fe-0.0001-33mass%Al alloys were measured in the temperature range of 1823 to 1923 K, using an Al₂O₃ and CaO crucibles. The distribution ratios under a CaO crucible were higher than those under an Al₂O₃ crucible, and increased with an increase of Al content. Nitride and sulfide capacities defined by C_N^3-=(mass%N)·P_O₂^3/4/P_N₂^1/2 and C_S^2-=(mass%S)·P_O₂^1/2/P_S₂^1/2, respectively, which were obtained by using the reported values for activity of Al₂O₃, agreed well with those directly measured in a gas-slag experiment under an Al₂O₃ crucible, but disagreed with those under a CaO crucible. Activities of Al₂O₃ in the CaO-Al₂O₃ melts saturated with CaO were evaluated based on the results in the gas-slag experiments.

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Mathematical Modeling of Inclusion Transport and Removal in Continuous Casting Tundishes

ISIJ International Vol.33(1993), No.5

Denitrogenization Mechanism from Molten Steel by Flux Treatment

ISIJ International Vol.32(1992), No.1

Kinetics of Carbon Oxidation Reaction between Molten Iron of High Carbon Concentration and Iron Oxide Containing Slag

ISIJ International Vol.31(1991), No.4

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Sulphur Equilibrium Distribution between CaO-CaF₂-SiO₂-Al₂O₃ Slags and Carbon-saturated Iron

Simeon Ratchev Simeonov, Ivancho Nikolov Ivanchev, Avgust Vasilev Hainadjiev

pp. 1396-1399

DOI:

10.2355/isijinternational.31.1396

抄録

Slags containing CaO, CaF₂, SiO₂ and Al₂O₃ have found wide application with refining processes in ironmaking and steelmaking practice and ladle metallurgy. A study of sulphur equilibrium partition between CaO-CaF₂-SiO₂-Al₂O₃ slags and carbon-saturated iron in temperature range 1 450-1 600°C was carried out in present work.
The sulphur equilibrium distribution increases with replacing SiO₂ by CaO and SiO₂ by CaF₂, while it decreases with substitution of CaO by CaF₂ at 1 500°C, P_CO=0.1 MPa if other variables like wt% CaF₂, wt% Al₂O₃ or (wt%Al₂O₃+wt%SiO₂) are kept constant. Based on experimental data the equation of temperature dependency was found to be:
log L_S=8.2–(9700/T)
The activity coefficient of sulphur (f_S) in carbon saturated iron was determined at 1 500°C as 6.9. Based on obtained equilibrium data for L_S, sulphide capacity of investigated quaternary slag system was calculated.

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Influence of Soft Reduction with One-piece Rolls on Center Segregation in Continuously Cast Slabs

Shigeaki Ogibayashi, Masayuki Kobayashi, Mamoru Yamada, Tatsuo Mukai

pp. 1400-1407

DOI:

10.2355/isijinternational.31.1400

抄録

A test on soft reduction employing conventional one-piece rolls was conducted to analyze the influence of soft reduction and reduction timing on center segregation. As a result, the following findings were obtained. Center segregation was improved when soft reduction was applied only in the final stage of solidification in which the fraction of solid at the slab center is larger than 0.25. When soft reduction was applied employing one-piece rolls over the wide range of solidification stage including the solidification stage with the fraction of solid at the slab center below 0.25, center segregation deteriorated with increasing amount of reduction and the amplitude of variations in center segregation in the casting direction was also increased. It is estimated that the deteriorating tendency of center segregation by soft reduction on the upper stream side is attributable to the new flow of molten steel caused by uneven reduction due to mechanical factors such as roll bending. For the improvement of center segregation, therefore, the optimization of reduction timing is indispensable especially when mechanical factors of uneven reduction are present.

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The Technical Developement of a Large Cross-sectional Bloom Caster for Seamless Tubular Products

鉄と鋼 Vol.67(1981), No.8

Structure of Electrodeposited Zn-Fe Alloy in the Zinc Rich Region

ISIJ International Vol.32(1992), No.9

The Passivation of Iron and Iron/Chromium Alloys in Acid and Neutral Solution

ISIJ International Vol.31(1991), No.2

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Influence of Roll Bending on Center Segregation in Continuously Cast Slabs

Shigeaki Ogibayashi, Mamoru Yamada, Yuzuru Yoshida, Tatsuo Mukai

pp. 1408-1415

DOI:

10.2355/isijinternational.31.1408

抄録

The influence of roll bending on center segregation in continuously cast slabs was studied by conducting the test in which roll bending was controlled during casting. The behavior of roll bending and center segregation in sequential casting were also investigated. As a result, it was clarified that (1) variations in center segregation in the casting direction are attributable to roll bending and center segregation deteriorates with increasing roll bending, (2) the amount of roll bending increases up to 1.7 mm during casting, as a result of which variations in center segregation in the casting direction are increased and segregation deteriorates with increasing number of cast heats in sequential casting, and (3) the use of divided rolls in the final stae of solidification is effective in decreasing roll bending and keeping center segregation at lower level. Of all mechanical factors, roll bending was estimated to be the largest factor for deterioration of center segregation in the case of casting employing one-piece rolls of conventional type.

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Mathematical Modelling and Simulation of Recirculatory Flow as well as Mixing Phenomena in Gas Stirred Liquid Baths

ISIJ International Vol.29(1989), No.1

Influence of Ingot Design on the Homogeneity and Soundness in Large Flat Ingots

鉄と鋼 Vol.65(1979), No.13

A Numerical Simulation of Forming Processes for Semi-solid Materials

ISIJ International Vol.31(1991), No.6

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Liquid Metal Flow with Heat Transfer in a Cold Crucible Confined by a Free Surface and a Solidification Front

Tsutomu Tanaka, Koichi Kurita, Atsuhiko Kuroda

pp. 1416-1423

DOI:

10.2355/isijinternational.31.1416

抄録

An advanced mathematical model for the fluid flow coupled with heat transfer confined by a free surface and a solidification front in a cold crucible was developed. Validity of the model was confirmed through measurements of a solidification front, surface velocity of the melt and surface temperatures.
Effects of operation parameters, such as coil current, dome height and casting velocity, on the fields of velocity and temperature were investigated.
Generally, two kinds of recirculation flow are expected to appear in the melt. They make a collision slightly above the contact point between the melt and the crucible wall. An appropriate geometrical configuration of the dome height and the position of a coil exists to promote melting of scraps fed onto dome.
A titanium ingot consisting of completely melted scraps was continuously cast aided by the proposed operation obtained through the numerical calculation.

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Prediction of Creep-fatigue Lives of Cr-Mo Steels with Diercks Equation

Keiji Sonoya, Isamu Nonaka, Masaki Kitagawa

pp. 1424-1430

DOI:

10.2355/isijinternational.31.1424

抄録

The use of the Diercks equation, which was developed for assessing the creep-fatigue lives of AISI 304 (JIS SUS 304), for predicting the creep-fatigue lifetimes of Cr-Mo steels was examined in comparison with the linear cumulative damage rule and the strain range partitioning method. Following conclusions were reached:
(1) The differences in the fatigue and the creep-rupture strengths existing between the SUS 304 and the Cr-Mo steels can be accounted for by modifying two factors in the original Diercks equation: for the fatigue lifetime ratio α, the relative lifetime ratio, α_r, which is a ratio of the "pure" fatigue life of SUS 304 to that of the Cr-Mo steel concerned, should be used, while for the temperature T_C, the equivalent temperature, T_e, which is a temperature that will give rise to the same creep-rupture lifetime for the Cr-Mo steel as for 304 for the stress concerned, should be used.
(2) The Diercks equation, modified as in (1) above, predicts the creep-fatigue lives of Cr-Mo steels to a factor of 2, i.e., no more than twice if overestimated and no less than one half if underestimated. This is the same accuracy that the strain range partitioning method features.
(3) The linear cumulative damage rule should not be applied to Cr-Mo steels not only because it can give mutually contradicting evaluations for different strain waveforms, but because the accuracy of prediction is unacceptably large.
(4) Since the method proposed herein for formulating the modified Diercks equation is free of the complexities in experimentation and in data analysis that characterize the strain range partitioning method, it should be taken as a better means, to the first approximation at least, of assessing the creep-rupture properties of Cr-Mo steels.

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EBSP analysis of Modified 9Cr-1Mo Martensitic steel

ISIJ International Vol.41(2001), No.Suppl

Current Progress in Advanced High Cr Ferritic Steels for High-temperature Applications

ISIJ International Vol.32(1992), No.2

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Reversion Mechanism from Deformation Induced Martensite to Austenite in Metastable Austenitic Stainless Steels

Kouki Tomimura, Setsuo Takaki, Youichi Tokunaga

pp. 1431-1437

DOI:

10.2355/isijinternational.31.1431

抄録

Reversion mechanism from deformation induced martensite (α') to austenite (γ) has been investigated in two metastable austenitic stainless steels, 15.6%Cr-9.8%Ni (the 16Cr-10Ni) and 17.6%Cr08.8%Ni (the 18Cr-9Ni) steels, by means of magnetic analysis and transmission electron microscopy. Metastable γ almost completely transforms to lath α' by 90% cold rolling, and the α' again reverts to γ during annealing at temperatures above 700 K. Deformation induced α' in the 16Cr-10Ni steel undergoes a martensitic shear reversion during heating to 923 K annealing, while that in the 18Cr-9Ni steel does a diffusional nucleation-growth reversion on 923 K annealing. Grain refining processes are greatly influenced depending on the reversion mechanism. Martensitically reversed γ has a high density of dislocations immediately after the reversion and the γ grains are refined through recovery and recrystallization process just like that taking place in a deformed γ. On the other hand, diffusionally reversed γ is characterized by the nucleation of equiaxed γ grains within the α' matrix and the γ grains gradually grow during annealing.
The reversion mechanism significantly depends on the chemical compositions of steels and annealing temperature. An increase in the Ni/Cr ratio causes an increase in the Gibbs free energy change between fcc and bcc structure, leading to a fall-down of austenitizing temperature for the martensitic shear reversion. The critical driving force required for the complete martensitic shear reversion is about -500 J/mol. To obtain the critical driving force in the 18Cr-9Ni steel, it should be heated to a high temperature above 1 023 K. However, the diffusional reversion can easily occur because the martensitic shear reversion temperature is too high in the 18Cr-9Ni steel. The 16Cr-10Ni steel also undergoes the diffusional reversion when it was annealed at low temperatures below the martensitic shear reversion, 923 K.

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Optimal Chemical Composition in Fe-Cr-Ni Alloys for Ultra Grain Refining by Reversion from Deformation Induced Martensite

ISIJ International Vol.31(1991), No.7

Regularities of Deformation Microstructures in Ferritic Stainless Steels during Large Strain Cold Working

ISIJ International Vol.48(2008), No.8

Characterization of the Surface Oxide Film of Nickel-free Austenitic Stainless Steel Located in Simulated Body Environments

MATERIALS TRANSACTIONS Vol.43(2002), No.12

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Solubilities of Al₂O₃, SiO₂ and Cr₂O₃ in the FeS Containing Systems

Alexei V. Dub, Fumitaka Tsukihashi, Nobuo Sano

pp. 1438-1440

DOI:

10.2355/isijinternational.31.1438

抄録

The solubilities of Al₂O₃, SiO₂ and Cr₂O₃ in molten Fe_satd.-FeS and Fe_satd.-MnS_satd.-FeS systems have been measured between 1 273 and 1 773 K. The oxide solubilities were observed to decrease with raising temperature and decreasing FeS content of the sulfide melts. The solubilities of Al₂O₃ and SiO₂ in the FeS-MnS system were also measured at 1 573, 1 673, and 1 773 K. The mechanism of the formation of oxysulfide complex inclusions is discussed based n the present findings.

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Comparison of Several Numerical Prediction Methods for Thermal Fields during Phase Transformation of Plain Carbon Steels

Amarendra Kumar Singh, Dipak Mazumdar

pp. 1441-1444

DOI:

10.2355/isijinternational.31.1441

抄録

Transient temperature distributions in solid steel during common heat treatment operations have been investigated. Towards these, a mathematical model has been developed and a large number of experiments were performed in the laboratory on different grades of steel samples. Four different approaches have been considered in the mathematical model (viz., procedures based on the TTT characteristics, Fe-C equilibrium diagram, variable specific heat and negligible heat effect) to embody the heat effect (e.g., generation/dissipation) of the phase transformation reaction and to assess the associated contribution to the overall time-temperature history. Numerical predictions as well as experimental measurements appear to indicate that the procedures adopted to model the heat source/sink are not critical, as far as prediction of the transient temperature profiles are concerned.

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Effect of Pearlite Banding on Mechanical Properties of Hot-rolled Steel Plates

A. Sakir Bor

pp. 1445-1446

DOI:

10.2355/isijinternational.31.1445

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21 Nov. (Last 30 Days)

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ISIJ International Vol. 31 (1991), No. 12

キーワードランキング

reduction caco3 in electric furnace

kinetics of decarburization of liquid iron with high concentration ofcarbon

kinetics of decarburization of liquid iron by ar-coz gasmixture

ahss

charpy impact chemistry

dual phase steel

foamy slag in eaf

kinetics of decarburization of liquid iron by

ladle furnace flicker

scm440

ISIJ International Vol. 31 (1991), No. 12

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Comparison of Several Numerical Prediction Methods for Thermal Fields during Phase Transformation of Plain Carbon Steels

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SOKD: A soft optimization knowledge distillation scheme for surface defects identification of hot-rolled strip

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詳細検索

Aluminium-Oxygen Equilibrium between CaO-Al₂O₃ Melts and Liquid Iron

Partitions of Nitrogen and Sulfur between CaO-Al₂O₃ Melts and Liquid Iron

Sulphur Equilibrium Distribution between CaO-CaF₂-SiO₂-Al₂O₃ Slags and Carbon-saturated Iron

Solubilities of Al₂O₃, SiO₂ and Cr₂O₃ in the FeS Containing Systems

Injection of hydrogenous gases into the blast furnace tuyeres for reducing CO₂ emissions: a review

凝固過程における溶鋼中からAl₂O₃上へのMnSの晶出挙動

Molecular dynamics simulation of viscosity of the CaO, MgO and Al₂O₃ melts