SU621743A1 - Method of deoxidation of high-quality constructional steel - Google Patents

Description

the amount of 0.15-0.30% by weight of the metal, and under the metal stream into the mold - rare-earth metals of the cerium subgroup with yttrium in the amount of 0.05-0.15% by weight of the metal based on the ratio in the metal of the ratio of the sum of calcium, boron and rare-earth metals with yttrium to the sum of the contents of sulfur and phosphorus 0.06-1.17, and to the sum of the contents of oxygen and nitrogen 0.16-4.67.

The method is carried out as follows.

When steel is being smelted, for example, in a single-pitched open-hearth furnace, 200 tons of metal are preliminarily deoxidized with silico-manganese when the metal reaches a given carbon content and temperature, and melted for 5-7 minutes, the melt is blown into the ladle. During the release, 65% ferrosilicon and aluminum are introduced, and then microalloying alloys of calcium and boron are introduced into the ladle in an amount of 0.2% by weight of the metal. Further, during casting, rare-earth elements of the cerium subgroup with yttrium in an amount of 0.05-0.15% by weight of the metal are introduced into the molds under the stream of metal based on the ratio of the amount of calcium, boron and rare-earth metals with yttrium to the amount of sulfur and phosphorus, equal to 0.25, and the sum of the contents of oxygen and nitrogen, equal to 1.0.

The use of the proposed method for deoxidizing high-quality structural steel of the above-mentioned composition (or close to it) allows to significantly improve its quality and increase the yield of metal products. In particular, during laboratory testing of the removal method, an increase in the use of metal by 21–25 kg / t against current production points was recorded.

Claims (2)

Invention Formula The method of deoxidation of high-quality structural steel, including preliminary deoxidation in the bath of the steel-making unit and final deoxidation in the ladle with ferroalloys and aluminum followed by micro-alloying of the metal with calcium and rare-earth metals in the mold, characterized in that Calcium and boron alloys are micro-alloying 0.15-0.30% by weight of the metal, and rare metal of the cerium subgroup with yttrium under the metal stream into the mold. 0.05-0.15% by weight of the metal, maintaining the ratio of the sum of calcium content; boron and rare-earth metals with yttrium to the sum of the contents of sulfur and phosphorus 0.06-1.17, and to the sum of the contents of oxygen and nitrogen 0.16-4.67. Sources of information taken into account in the examination 1. Povolotsky D. Ya. Steel deoxidation. M., “Metallurgists, 1972, p. 151 - 171. 2. USSR author's certificate number 551376, cl. C 21C 7/06, 1975.