SU1073296A1 - Semikilled steel deoxidation process - Google Patents

Abstract

A method of deoxidizing semifinished steel, including deoxidation in a ladle with ferromanganese and treating in a mold with 65% ferrosilicon, fluorspar and converter slag, characterized in that, in order to increase the yield of a suitable metal, reduce the consumption of slag-forming mixture and reduce non-metal inclusions, reduce non-metal chambers, and reduce non-metallic chambers, and reduce non-metal chambers, and reduce non-metal slag, and reduce non-metal slag, and reduce non-metallic slag, and reduce non-metallic slag, and reduce non-metallic chambers, reduced non-metallic slag and non-metallic slag can be used. in the mold is carried out at a ratio of 65% ferrosilicon, converter slag and fluorspar 1.0:

Description

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The invention relates to ferrous metallurgy, in particular, to the processes of deoxidation and casting of semi-quiet steel. There is a known method of deoxidation of semi-quiescent steel, including the preliminary de-oxidation by ferrosilicon at the rate of obtaining silicon in the finished steel 0.03-0.05% and the final deoxidation by the addition of aluminum 30150 g / t of steel when casting into CID items. However, the oxidation of the metal in the mold varies widely (0.01-0.025%). In addition, in the process of steel casting, the metal oxidation increases due to secondary oxidation, and the secondary oxidation process is uncontrollable, as it depends on the casting speed, the state of the glass and the temperature of the metal. The instability of secondary oxidation leads to irregularity of silicon and aluminum, both between ingots and in their height, so there are also redistributed ingots, which lead to an increase in the head trimming and deterioration of the surface of the bar of the semi-quiescent steel ingot. A method of producing an ingot with a different structure of the surface layer and the core is known, which consists in pouring boiling or welded steel into the mold, and processing it with ferrosilicon and fluorspar 2. The disadvantage of this method is that is treated with an oxidizing agent and is usually rendered redy. In addition, the treatment of steel with a mixture that does not contain an oxidizing agent and, therefore, is not exothermic, requires a considerable amount of heat, causes a sharp overcooling of steel, entanglement of part of the mixture in it, and deteriorates the quality of the metal. With further steel overheating, the surface quality of the ingot decreases, the resistance of the molds due to the welding of the ingots to them. The secondary oxidation of the metal also leads to vibrations of deoxidizing agents, and, consequently, oxidation, which increases the waste of the metal at the first repartition due to the increase in head trimming due to coarse flaking or deep-seated shrinkage shells. The closest to the proposed technical essence and the achieved result is the method of dissolving semi-quenching steel, including deoxidation in the ladle with ferromanganese and ingot mold processing with 65% ferrosilicon, converter slag and fluorspar in a ratio of 1.0: (4.5-8 ): (1.0-1.5), respectively, and in the amount of 2.5-3 kg / t of steel, and the mixture is placed on the bottom of the mold before casting Gz. However, when such a quantity of slag is introduced to the bottom of the mold, the first portions of the metal undergo a sharp overcooling, since heat is needed to overheat the mixture to its melting point and start an exothermic reaction (1200 sec), and the cooling effect of the massive pallet also affects the slag. the lower part of the mold and the consumption of the mixture per ton of steel. In the study of the quality of semi-quiet steel ingot, cast by known technology, it was found that the content of oxide nonmetallic inclusions, which are particles, was found in the lower part of the ingot. slag entangled during metal crystallization. The silicon content over the height of the ingot is uneven, since after the mixture is melted, it passes into the metal and redistribution of silicon along the height occurs only due to the mixing of the melt with the metal stream. The energy of the jet is not always enough to homogenize the lower layers of the Metal with a high content of silicon with the top, whose content is much lower. This leads to an increase in the oxidation of the metal in the head of the ingot and the formation of gas bubbles directly at the surface of the ingot, which are opened during rolling to form coarse flaws. A relatively small amount of ferrosilicon (silicon), as compared with the fluxing part, results in K being able to obtain the optimum silicon content in the half-spaced one. Coal steel (08%) requires a mixture consumption of 2.5-3.0 kg / ton of steel. In addition, in the converter slag, the initial content of iron oxides is significant (up to 18% FeO + FegO,). The reacted slag i has a iron oxide content of 2–3%, i.e., it is deoxidized. In connection with this, most of the silicon is consumed irrationally. The purpose of the invention is to increase the yield of metal, reduce the consumption of slag-forming mixture and reduce non-metallic inclusions. The goal is achieved by the fact that according to the method of deoxidation of semi-quiescent steel, including deoxidation in the ladle with ferromanganese and mold processing with 65% ferrosilicon, fluorspar and converter slag, the steel in the mold is prepared at a ratio of 65% ferrosilicon, converter slag and

Claims (1)

METHOD FOR DIVIDING SEMI-TEMPORARY STEEL, including deoxidation in a ladle with ferromanganese and mold treatment with 65% ferrosilicon, fluorspar and converter slag, characterized in that, in order to increase the yield of metal, reduce the consumption of slag-forming mixture and reduce non-metallic inclusions, treatment steel in the mold are at a ratio of 65% ferrosilicon, converter slag and fluorspar 1.0: (1,350.5) :( 0.17-0.23) in the amount of 1.3- 1.6 kg / t of steel, the mixture being introduced into the mold when filling it with liquid steel at 1 / 3-1 / 2 of the height. tg