Reducibilities of Wüstite and Calcio-wüstite in Terms of High Temperature X-ray Diffraction Analysis

Cai, Boyuan; Watanabe, Takashi; Kamijo, Chikashi; Sunahara, Kohei; Susa, Masahiro; Hayashi, Miyuki

doi:10.2355/isijinternational.isijint-2016-661

Cited by 4 publications

(7 citation statements)

References 14 publications

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“…The samples prepared as above were crushed and sieved into powders with the particle diameter of 38-75 μm, and subsequently the samples were subjected to reduction experiments using a high temperature XRD apparatus. This experiment is also the same as in the previous work, 13,15) the explanation of which is repeated for reference in the following. Figure 1 shows the experimental conditions of temperature and gas composition.…”

Section: Reduction Experiments In High Temperature Xrdmentioning

confidence: 93%

“…Table 1 gives nominal chemical compositions of each sample. The preparation method has been described in the previous reports, 13,15) the outline of which is repeated as follows:…”

Section: Preparation and Characterization Of Sfca Sam-mentioning

confidence: 99%

“…On the other hand, there is a report where the diameters of FeO and CW phases in reduced sinters are 30-40 μm or even smaller, 12) in which case the effect of the iron layer structure on the reduction rate would be minimized. 9) For example, the authors have measured the reducibilities of FeO and CW using high temperature X-ray diffraction (XRD) analysis on reduced sinter powders sieved into the particle diameter of 38-75 μm, 13) and have found that FeO is more reducible than CW, which is in conflict with many previous studies but supports the results reported by Sakamoto et al 14) Focusing on morphology, there are at least two types of CW: a) columnar CW with slag which is reduced from columnar SFCA with slag and b) acicular CW with fine pores which is reduced from acicular SFCA with fine pores. 15) To examine the effect of the morphology of CW, the authors have also investigated the reducibility of acicular-SFCA-origin and columnar-SFCA-origin CW powders with 38-75 μm, which is larger than the size of CW phase, using high temperature XRD analysis, to examine the effect of the morphology of CW phase including its surrounding structure.…”

Section: Introductionmentioning

confidence: 99%

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Dominant Factor Affecting Reducibility of Calcio-wüstite Originating from Silico-ferrite of Calcium and Aluminum

2020

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The reducibility of calcio-wüstite (CW) originating from silico-ferrite of calcium and aluminum (SFCA) has been investigated from the perspectives of the morphology of SFCA and the concentration of FeO in CW. Two types of SFCA sample were prepared: columnar SFCA and acicular SFCA. The former was synthesized from reagent grade powders of Fe 2 O 3 , CaCO 3 , SiO 2 and Al 2 O 3 , and contained columnar SFCA grains covered with slag. The latter was synthesized from iron ore and reagent grade CaCO 3 , and contained acicular SFCA grains, which were smaller than the columnar SFCA grains and had fine pores nearby. These samples were reduced in an XRD apparatus for high temperature use in a condition simulating a blast furnace where the oxygen partial pressure was controlled by CO-CO 2 mixtures. The microstructures of the samples before and after reduction were observed by electron probe microanalysis (EPMA). XRD profiles indicated: (i) both SFCA samples were reduced to Fe via CW at 1 000°C and (ii) acicular-SFCA-origin CW was reduced to Fe earlier than columnar-SFCA-origin CW, which suggests that the reducibility of acicular-SFCA-origin CW is higher than columnar-SFCA-origin CW. EMPA indicated: (i) most residual parts of acicular-SFCA-origin CW phase kept the morphologic feature of having fine pores as acicular SFCA during reduction as well and (ii) the FeO concentration in acicular-SFCA-origin CW was lower than that in columnar-SFCA-origin CW. Hence, it is concluded that the reducibility of SFCA-origin CW is dominated by the morphology of CW but not by the concentration/activity of FeO in CW.

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Section: Reduction Experiments In High Temperature Xrdmentioning

confidence: 93%

“…Table 1 gives nominal chemical compositions of each sample. The preparation method has been described in the previous reports, 13,15) the outline of which is repeated as follows:…”

Section: Preparation and Characterization Of Sfca Sam-mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Dominant Factor Affecting Reducibility of Calcio-wüstite Originating from Silico-ferrite of Calcium and Aluminum

2020

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“…Figure 2 shows the experimental conditions of temperature and gas composition in the present study, which are the same as in the previous work. 7) Oxygen partial pressure in the furnace was adjusted using gas mixtures of CO-CO 2 , the ratio of which was changed depending on temperature to simulate a blast furnace condition. To improve X-ray diffraction intensity, the gas mixture was further diluted with 50 vol% of helium gas although there is no helium gas added in the actual blast furnace condition.…”

Section: Reduction Experiments In High Temperature Xrdmentioning

confidence: 99%

“…[4][5][6] Comparison between Reducibilities of Columnar Silico-ferrite of Calcium and Aluminum (SFCA) Covered with Slag and Acicular SFCA with Fine Pores Boyuan CAI, 1) * Takashi WATANABE, 2) Chikashi KAMIJO, 3) Masahiro SUSA 2) and Miyuki HAYASHI It is noted that there are two types of wüstite in reduced sinters: one is wüstite (denoted by FeO) reduced from Fe 2 O 3 containing less impurities and the other is calcio-wüstite (denoted by CW) reduced from SFCA -both FeO and CW have the rock-salt structure. In the previous work, 7) it has been found from high temperature X-ray diffraction (XRD) analysis that the reducibility of FeO is higher than that of CW. Now it should also be noted that there are two types of SFCA that produces CW: one is columnar SFCA covered with slag and the other is acicular SFCA with fine pores.…”

Section: Introductionmentioning

confidence: 99%

Comparison between Reducibilities of Columnar Silico-ferrite of Calcium and Aluminum (SFCA) Covered with Slag and Acicular SFCA with Fine Pores

et al. 2018

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Reducibilities of silico-ferrite of calcium and aluminum (SFCA) have been examined using high temperature X-ray diffraction (XRD) analysis including the effect of hydrogen. Two types of sample were prepared: columnar SFCA covered with slag and acicular SFCA with fine pores, denoted by 'Columnar SFCA' and 'Acicular SFCA', respectively. These samples were synthesized using chemical reagents and iron ore powders. XRD analysis was applied to the samples heated in a condition simulating a blast furnace. Oxygen partial pressure was controlled by gas mixtures of CO-CO 2 -He, and there were some cases where 3.9 vol% of hydrogen gas was added to the mixture. The microstructures of the samples before and after heating were observed by electron probe microanalysis (EPMA). XRD profiles indicated: (i) both SFCA samples were reduced to Fe via calcio-wüstite (CW), (ii) the reduction from 'Acicular SFCA' to CW took place at lower temperatures than that of 'Columnar SFCA' during the heating cycle up to 1 000°C, and (iii) CW produced from 'Acicular SFCA' was reduced to Fe earlier than CW from 'Columnar SFCA' at 1 000°C. These results suggest that SFCA and CW phases in 'Acicular SFCA' have higher reducibility than those in 'Columnar SFCA'. This would be because 'Acicular SFCA' consists of smaller SFCA particles with fine pores. BSE images have revealed that such microstructures still remained even after the reduction to CW. Additions of hydrogen promoted reduction of 'Columnar SFCA' more effectively, and this effect was observed more remarkably in the reduction from CW to Fe than from SFCA to CW.

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Reduction of Basic Iron Ore Sinter under Blast Furnace Wall and Center‐Simulated Conditions in CO–CO₂–H₂–H₂O–N₂ Gas

Abdelrahim,

Iljana,

Aula

et al. 2024

steel research int.

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This study examines how varying conditions at the center and wall of a blast furnace (BF) impact the reduction of iron ore sinter in a gas containing hydrogen and water vapor. Sinter samples are isothermally reduced at 700–1100 °C using a BF simulator to assess reduction rates and extent. Characterization techniques analyze the reduced samples’ mineralogical, physical, and microstructural changes. Results indicate that metallic iron formed at 700 °C in samples reduced under BF center conditions but is absent up to 900 °C in BF wall conditions. Metallic iron is initially formed at the periphery and propagated inward as temperature increased. The sinter's non‐homogeneous structure hinders uniform gas diffusion, with unfused iron ore content obstructing reducibility. The skeletal density of reduced samples correlated with the degree of reduction. The reduction of magnetite to metallic iron through wüstite is observed. Wüstite reducibility was better than calcium ferrite. No carbon deposition is observed in all testing conditions. Comparisons to acid iron ore pellets suggest charging the sinter to the BF center and pellets to the wall, with a recommendation to minimize unfused iron ore in the sinter charge for improved reducibility.

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Reducibilities of Wüstite and Calcio-wüstite in Terms of High Temperature X-ray Diffraction Analysis

Cited by 4 publications

References 14 publications

Dominant Factor Affecting Reducibility of Calcio-wüstite Originating from Silico-ferrite of Calcium and Aluminum

Dominant Factor Affecting Reducibility of Calcio-wüstite Originating from Silico-ferrite of Calcium and Aluminum

Comparison between Reducibilities of Columnar Silico-ferrite of Calcium and Aluminum (SFCA) Covered with Slag and Acicular SFCA with Fine Pores

Reduction of Basic Iron Ore Sinter under Blast Furnace Wall and Center‐Simulated Conditions in CO–CO₂–H₂–H₂O–N₂ Gas

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Reducibilities of Wüstite and Calcio-wüstite in Terms of High Temperature X-ray Diffraction Analysis

Cited by 4 publications

References 14 publications

Dominant Factor Affecting Reducibility of Calcio-wüstite Originating from Silico-ferrite of Calcium and Aluminum

Dominant Factor Affecting Reducibility of Calcio-wüstite Originating from Silico-ferrite of Calcium and Aluminum

Comparison between Reducibilities of Columnar Silico-ferrite of Calcium and Aluminum (SFCA) Covered with Slag and Acicular SFCA with Fine Pores

Reduction of Basic Iron Ore Sinter under Blast Furnace Wall and Center‐Simulated Conditions in CO–CO2–H2–H2O–N2 Gas

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Reduction of Basic Iron Ore Sinter under Blast Furnace Wall and Center‐Simulated Conditions in CO–CO₂–H₂–H₂O–N₂ Gas