A. Ya. Oleksienko scite author profile

A. Ya. Oleksienko

5Publications

3Citation Statements Received

1Citation Statement Given

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Affiliations

East Institute Refractories (Russia), Ukrainian Research Institute of Refractories named after A.S. Berezhnoy

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Influence of slide valve refractory composition on the quality of bearing steels teemed

et al. 1983

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gree of compaction of the zone of the steel teeming hold of the part is obtained by pressing of plates with an insert corresponding to the projecting portion.The specific wear of the hole in the experimental corundum plates in service is 2~ times less than in the plates pressed by the normal method. 1. 2.3. 4.The replacement of ladle stopper assemblies by slide valves has made it necessary to organize the production of refractory parts satisfying the requirements for teeming primarily rimmed, semikilled, and low-alloy steels.As experience has shown, teeming of electric furnace steel, including constructional, through slide valves with the use of magnesite composition refractories is accompanied by contraction of the teeming channel, narrowing of the stream, a reduction in the rate of filling of the molds, and, as the result, a breakdown in the method of teeming and poorer ingot quality [i, 2]. With two usages of a set of magnesite refractories in the gate valve a tendency is observed toward an increase in the nonmetallic inclusion content in the steel [1].It is known [3, 4] that rational selection of refractories for slide valves with a certain structure and properties promotes normalization of the process of teeming a single heat of steel and elimination of contraction of the teeming channel and skull formation in it with sufficient life in service.

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Experience with the use of mullite-corundum refractories in the roofs of electric-steel furnaces

et al. 1986

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Starting in the 1960s as a result of continuous improvements in electric arc furnaces and the melting technology for electric steels, there have been increases in outputs, and the grades of steels have been altered, all of which demanded basic changes in the electrical equipment, the energy and technological melting schedules and management procedures in the electric steel-melting shops.In these conditions, periclase--chromite refractories, having found extensive use in the roofs of steel-melting furnaces, are now proving to have inadequate roof resistance. Thus, the life of roofs in the arch-suspension design of powerful 100-ton furnaces with a roof rise of from 0.13 to 0.14 of its diameter (to provide adequate constructionstrength) is on average 80-90 heats [i]; and in this case the chief causes of destruction of the refractories in the peripheral zones are cracking and spalling under the action of stresses developing during regeneration and volume changes in the refractory, saturated with slag, and also the influence of thermal impacts, gravity forces, etc; and in the central part --spalling and melting as a result of the formation of relatively low-melting compounds due to the saturation of the working zone of the refractory with iron oxides, silica and other elements from the furnace dust and the action of high temperatures.Investigations show that the life of the roofs made from periclase--chromite refractories can be increased by 15-20% as a result of design changes in the structure (for example, annular construction instead of sector-arch, etc.) [2,3]. In foreign plants, for electric furnace roofs extensive use is being made of high-alumina refractories and materials containing from 65 to 97% A1203. However, working experience shows that only refractories containing 85% or more A1203 will provide adequate roof life. It is noted that the successful use in these roofs of refractories made of alumina materials should possess, in addition to good slag resistance, an enhanced mechanical strength at elevated temperatures, and also significant spalling resistance [4].In this article we shall present results from the use of mullite corundum refractories in the roofs of electric furnaces of average specific capacity (250 kVA/ton), melting stainless and ball-bearing steels.The Institute together with the Semiluksk refractories factory has developed grade MK-80 refractories of mullite corundum composition with structural reinforcement using nonisometric grains of fused mullite [5]; the production of these refractories was mastered at the Semiluksk plant. Testing of the mullite corundum articles MK-80 possessing high spalling resistance (Table i) was done in stages in the roofs of 50-ton (actual capacity 65 tons) electric furnaces at the Dneprospetsstal' factory; in the first stage for melting stainless, and in the second ballbearing steels.The roofs had a sector-arch structure with a rise of from 0.08 to 0.09 of their diameters. In the first stage the roof was laid dry; one roof was almost completely made up of exp...

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Teeming bearing steels through ?dry?-assembled fountains

Borevskii¹,

Starykh²,

Burtsev³

et al. 1985

Metallurgist

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Effect of rammed quartz-alumina lining in 90-ton steel-pouring ladles on the quality of bearing steel

Oleksienko¹,

Oleinik²,

Potapova³

et al. 1984

Metallurgist

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Teeming alloy steels with slide gates

Oleksienko¹,

Stepanova²,

Zhalo³

1982

Metallurgist

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A. Ya. Oleksienko

Influence of slide valve refractory composition on the quality of bearing steels teemed

Experience with the use of mullite-corundum refractories in the roofs of electric-steel furnaces

Teeming bearing steels through ?dry?-assembled fountains

Effect of rammed quartz-alumina lining in 90-ton steel-pouring ladles on the quality of bearing steel

Teeming alloy steels with slide gates

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