Your search keyword '"slag crust"' showing total 9 results

1. Physicochemical Principles of Spinel Formation during Electrode Arc Welding and Cladding Under Flux.

Author

Strelenko, N. М., Kovalenko, V. L., and Mastenko, R. V.

Subjects

ELECTRIC welding, SPINEL group, SPINEL, SLAG, ZIRCONIUM alloys, SCANNING electron microscopy, COMPLEX compounds

Abstract

The peculiarities of the process of forming complex compounds, namely, spinels, in flux-cored arc welding for the slag TiO2-MnO-SiO2-MgO-CaO-FeO-Al2O3 system are studied. An experimental investigation of the mechanism of spinel formation in conditions of electrode arc welding and cladding under flux is carried out. Based on the analysis of microimages of the slag surface obtained using scanning electron microscopy, the mechanism of spinel formation, namely, the growth of microcomplex compounds into macrospinels, is presented. The main stages and mechanism of formation of the complex compounds, namely, spinels, are described. As shown, the structure of spinels is determined by the temperature conditions of the crystallization of the slag melt. The study reveals that one of the determining factors of high-temperature separation of the slag crust during multilayer cladding with overlap of the previous layer is the formation of spinels at the interphase boundary between the slag and the metal. Based on modern ideas about the structure of slag melts, a mechanism for the formation of complex compounds at the interphase boundary between slag and metal is proposed. The main factor determining the process of high-temperature separation of the slag coating for the TiO2-MnO-SiO2-MgO-CaO-FeO-Al2O3 system is the formation of complex compounds based on spinel-forming elements and slag oxides at the interphase boundary between the slag and the metal. [ABSTRACT FROM AUTHOR]

Published

2024

2. Simulation and Validation of Thickness of Slag Crust on the Copper Stave in the High-Temperature Area of Blast Furnace.

Author

Liu, Dongliang, Zhang, Wei, Xue, Zhengliang, Song, Chunhui, and Chen, Lingkun

Subjects

COPPER slag, SMELTING furnaces, LIQUID iron, IRON ores, FERRIC oxide, BLAST furnaces, SLAG

Abstract

The blast furnace is the dominant high-temperature reactor in the modern ironmaking industry. Iron oxide in iron ores can be converted to metallic iron through blast furnace smelting, and this high-temperature melting can be used to separate the molten iron from the gangue components. The formation and thickness of the hot-surface slag crust on the copper stave in the high-temperature area of the middle and lower parts of the blast furnace are crucial for the safe operation and long campaign of the blast furnace. To enhance the precision of determining the thickness of the slag crust in this specific region, samples were extracted from the hot surface of the copper cooler situated in the high-temperature area. This extraction was carried out during the maintenance procedure of the blast furnace stockline. Subsequently, the thermal conductivity and melting performance of the slag crust were measured. The slag crust thicknesses corresponding to the various temperature measurement sites of the stave were determined by developing a mathematical model for the heat transfer of the copper stave. The actual slag crust thickness measurement data were acquired while the blast furnace stockline was in operation, and the data were then utilized to corroborate the model's predictions. A blast furnace with an effective volume of 3200 m3 was used to test the model. The average thickness of the hot-surface slag crust was computed for cases that occurred between 2020 and 2022. The data's correlations with the blast furnace's technical and economic indices during the same time period were examined. The findings indicated that the blast furnace's operation indices improved with a thinner slag crust, but there was also a higher chance of damage to the copper stave's internal cooling water pipes. Taking into account the technical and economic indices as well as a long campaign of the blast furnace, 150–200 mm is recommended as the appropriate average slag crust thickness on the surface of the copper stave in the high-temperature section. [ABSTRACT FROM AUTHOR]

Published

2024

3. 侧吹熔炼处置锌冶炼渣炉渣组成对 导热性及析出物相的影响.

Author

王贺, 赵俊学, 曹處, 李彬, 王泽, 王正民, 崔雅茹, 康毅, and 郭立信

Published

2024

4. The Slag Regime of Equipment Used for the Secondary Treatment of Steel and the Durability of Its Refractories.

Author

Sheshukov, O., Nekrasov, I., Mikheenkov, M., Egiazar'yan, D., Ovchinnikova, L., Metelkin, A., Kashcheev, I., and Tsepelev, V.

Subjects

SLAG, STEEL, DURABILITY, REFRACTORY materials, VACUUM chambers, METALWORK, MAGNESIUM oxide, METALLURGICAL analysis

Abstract

The composition of the ladle slag in units designed for the secondary treatment of steel needs to be optimized in order to increase the service life of the units' linings. On the one hand, the slag subjects the refractories to chemical wear. On the other hand, under certain conditions the slag is capable of forming a protective crust inside the units. The Nizhniy Tagil Metallurgical Combine has chosen certain refractories for the most heavily worn part of the lining of its vacuum chambers, since only the installation of a lining of a differentiated design that equalizes the rate of wear around the lining's perimeter will allow the desired effect to be obtained from optimizing the composition of the slag. An efficient composition for the slag was also chosen, the slag having high contents of MgO and AlO. The use of such a slag helps form a protective slag crust of the composition MgO·AlO on spinel refractories having the compositions MgO·CrO and MgO·AlO. [ABSTRACT FROM AUTHOR]

Published

2015

5. SELECTION OF SHIELDING GAS FOR MECHANIZED ARC WELDING OF DISSIMILAR STEELS.

Author

ELAGIN, V. P.

Subjects

SHIELDING gases, METAL fabrication, ELECTRIC welding, STEEL, METALLIC oxides

Abstract

Mechanized multilayer MIG/MAG welding by high-alloy wires is associated with the feasibility of formation of lacks of fusion and slag pieces in weld metal. Therefore, the improvement of technology, in particular the selection of shielding gas composition, is urgent. Feasibility of application of mixtures CO2 + 3 % N2 and CO2 + 3 % N2 + 0.5 % O2 as a shielding gas in mechanized arc welding of dissimilar steels is shown. It is shown that the metal oxidation occurs mainly in the inter-dendrite regions, intensity of which is increased with increase in amount of nickel in the welding wire. Weld metal alloying with nitrogen does not change the intensity of metal oxidation process and almost has no influence on slag crust removal from the deposited metal surface. 17 Ref., 2 Tables, 3 Figures. [ABSTRACT FROM AUTHOR]

Published

2014

6. Physico-Chemical Principles of Crust Formation in a Rotary Furnace with the Use of a Technogenic Material Containing Normal Electrocorundum Sludge.

Author

Sharapova, V.

Subjects

COMPOSITE materials, TITANIUM compounds, METALLURGIC chemistry, CORUNDUM, CLAY minerals, MULLITE

Abstract

The formation of dense layers of slag crust in a rotary furnace when normal electrocorundum sludge is used in the charge to make mullite-corundum fireclay depends on the chemical-mineral composition of the charge and the components of the crust, wetting processes, and the effect of lower compounds of titanium on the physico-chemical processes which take place. [ABSTRACT FROM AUTHOR]

Published

2014

7. Effect of the lining and smelting technologies on slag formation in the induction-furnace smelting of cast iron.

Author

Zavertkin, A.

Subjects

LININGS (Sewing), SMELTING, SLAG, INDUCTION furnaces, CAST-iron, ELECTROMAGNETISM

Abstract

Results are presented from studies of the reasons for the formation and growth of slag crusts in the crucibles of induction furnaces during the smelting of cast iron. It is established that crust formation and adhesion of slag to the furnace lining are caused by interaction of the lining material with reactants in the melt. The degree of slag incrustation and adhesion depends on the technology used to smelt the cast iron. The formation of slag in the furnace is affected by the existence of large temperature gradients, motion of the melt due to its electromagnetic mixing, the scheduled and unscheduled introduction of additions into the furnace, the entry of harmful components into the furnace together with the charge materials, interactions between the melt, the slag, the furnace atmosphere, and the lining of the crucible, the temperature in the furnace, and the area and rate of reaction of the reactants. [ABSTRACT FROM AUTHOR]

Published

2013

8. Damage Mechanism of Copper Staves in a 3200 m3 Blast Furnace.

Author

Zuo, Haibin, Wang, Yajie, and Wang, Xuebin

Subjects

BLAST furnaces, COPPER alloys, THERMAL conductivity of metals, PRESSURE-sensitive adhesives, MECHANICAL properties of metals

Abstract

Copper staves have been widely applied in large blast furnaces especially those whose inner volumes exceed 2000 m3 due to high cooling capacity. In the past decade, copper staves suffered severe damages in some blast furnaces, which not only shortened their campaign lives, but also caused huge economic losses. In order to make out this phenomenon, the damage mechanism of copper staves was investigated via analyzing the chemical composition, thermal conductivity, metallographic aspects and microstructure in this paper. As a result, the working state was more likely to damage copper staves instead of their materials. At the beginning, the poor quality of the coke and the large bosh angle promoted the development of edge airflow, which intensified the erosion of refractory materials, resulting in the fall-off of slag crusts and damage of cooling water pipes. After repair, the cooling capacity of copper staves still declined, causing the temperature to rise easily; consequently, hydrogen attack happened when the temperature reached 370 °C, which degraded the performance of copper staves. Therefore, copper staves were worn too quickly to form slag crusts, which finally failed under the hydrogen attack and the scouring of the edge airflow at high temperatures. [ABSTRACT FROM AUTHOR]

Published

2018

9. Technology for restoring the original profile of blast furnaces at the Chelyabinsk Metallurgical Combine.

Author

Zotov, D., Andreev, V., Gorshkov, N., Polyakov, N., and Denisov, A.

Subjects

BLAST furnaces, CHELYABINSK meteorite, METALLURGY, METAL formability, SMELTING, BEARINGS (Machinery), SLAG

Abstract

The smelting of charges with a high content of iron-bearing wastes in a blast furnace runs the risk of forming slag crusts in the furnace due to the wastes' high zinc content. A technology for restoring the original profile of the furnace has been developed and is being successfully used. [ABSTRACT FROM AUTHOR]

Published

2013