UA78944C2 - Compact-material for ladle cast-iron treatment - Google Patents

Abstract

The invention relates to the field of ferrous metallurgy, in particular to the compact-material composition for the ladle cast-iron treatment. The compact-material contains powdery stuff-core from the slagmetal components, which contain magnesium, carbonaceous material and burned dolomite, which is enclosed in the steel shell in the form of wire and/or strip. Besides, the slagmetal components are additionally contain staurolite at the following ratio of components : magnesium : carbonaceous material : burned dolomite : staurolite which is equal to 1:1: (6-8):(5-7). The invention provides increasing the effectivenes of the ladle treatment withmaterial according to the invention, depreciation of the new material at 30-40% relatively to the serial, formation of the necessary coating slag in the cast-iron ladle.

Description

Description of the invention

The invention belongs to the field of ferrous metallurgy, in particular, to non-furnace processing of cast iron. 2 Compact material is a special product (in a shell or without a shell) made of powdery materials, which differ in the way they are formed during plating, pressing, drawing, etc. in the form of wires, tapes, briquettes, etc.

For ladle processing of cast iron, magnesium-containing powdered wires are used, in which the filler composition is diluted with slag-flux components - phlegmators to suppress the pyro effect. As a phlegmator, 70 for example, burnt dolomite is used (patent of Ukraine Mo14773А, С21С7/06, publ. 18.02.97, chosen as a prototype, or staurolite according to Ukrainian patent Mo 23570, С21С1/00, publ. 11/15/2001 - an analogue for the new compact material.|.

So, as a prototype, a compact material for ladle processing of cast iron was chosen, which contains a powder filler-core of slag metal components containing magnesium, carbon-containing material and 12 fired dolomite, enclosed in a steel sheath in the form of wire and/or tape | see the aforementioned patent

of Ukraine Mo14773).

Powdered materials in an air-dry state with a moisture content of no more than 5.095 are used for ladle processing of metallurgical melts. Burnt dolomite hydrates during transportation and long-term storage in the air and becomes unsuitable as a filler. Stavrolite |1), as a hematite-rutile aluminosilicate phase of variable composition with isomorphic replacement of the main components by oxides of di-trivalent metals (iron, titanium), belongs to moisture-resistant materials.

The main disadvantage of staurolite is the increased content of iron oxides up to 2095, which additionally oxidize magnesium in the compact material and reduce the efficiency of its use. According to our calculations, the loss of magnesium due to oxidation by starovrolite amounts to more than 3095, for the deoxidation of cast iron (4095 and the efficiency of desulfurization does not exceed 2095 of the total consumption of magnesium. Wet dolomite additionally oxidizes up to 2095 magnesium and for its Ge) dehydration, due to gasification of carbon, the amount the latter requires more than 1095 of the total mass of dolomite.

In addition, the staurolite in the analog and the burnt dolomite in the prototype each separately do not form a fluid-moving refining slag in the pig iron ladle, while the presence of a coating slag with a high sulfide content of Z allows to significantly reduce the consumption of expensive granular magnesium. "AND

The formation of such slag becomes possible in the presence of carbon in quantities sufficient for the complete deoxidation of staurolite and dehydration of dolomite at a defined stoichiometric ratio of the components of the quasi-ternary system Sab(Ma)-AI2O3-5iO", which correspond to the eutectic composition and have the maximum adsorption capacity for sulfide phases .

In this regard, the invention is based on the task of reducing magnesium consumption and increasing its efficiency during ladle processing of cast iron due to the reduction of oxidation of staurolite, dehydration of burnt dolomite and the formation of refining coating slag in a cast iron ladle.

The task is solved by the fact that in the proposed compact material for the ladle processing of cast iron, "which includes a powder filler-core of slag metal components containing magnesium, C 50 carbon-containing material and calcined dolomite, enclosed in a steel shell in the form of a wire and/or tapes, according to the invention, slag metal components additionally contain staurolite in the following ratio

From" ingredients: magnesium: carbon-containing material: calcined dolomite: staurolite - 1:1:(6-8):(5-7).

At the same time, as a carbon-containing material, a material selected from the group is used: graphite, electrode battle, coke, and the magnesium content in burnt dolomite is set at 25-3Omas.9b5.

Thus, a new set of limiting and distinguishing features ensures the achievement of a new technical and result - reduction of the oxidation of staurolite, dehydration of burnt dolomite and the formation of refining coating slag in the pig iron ladle, which ensures a reduction in magnesium consumption and an increase in its efficiency during ladle processing of cast iron. o The proposed invention uses granular magnesium with graphite in a mixture with calcined dolomite at "" 20 the following content (wt.Ub): magnesium (20-50), graphite (2-10) and calcined dolomite (40-78). In the prototype, a mixture of magnesium and staurolite is used in a ratio of 1:(0.5-2.2). However, in the proposed invention

T" simultaneously uses a four-component filler of magnesium, carbon, calcined dolomite and staurolite in their following ratio of 1:1:(6-8):(5-7). This ensures reduction of magnesium loss and high efficiency of ladle processing of cast iron. 29 At the Ilyich MMK OJSC, powder wire with a diameter of 10.0 mm is produced for ladle processing of cast iron

GF) type PP 10B-1.12-35-8 STP according to Mo227-151-2002 in bays weighing 730-750 kg with filler from a mixture of 3095 magnesium and 7096 staurolite, the cost of which is determined by 70-8095 the price of granulated magnesium. o Sources of technical information: 1. M.I. Hasyk. Stavrolite concentrate: mineralogical composition, metallurgical properties and new 60 possibilities of its application in metallurgical production. Metallurgical and mining industry, 2003, Mo4, pp. 23-25.

Claims (2)

The formula of the invention b5 1. A compact material for ladle processing of cast iron containing a powder filler-core of slag metal components containing magnesium, carbonaceous material and calcined dolomite enclosed in a steel sheath in the form of wire and/or tape, characterized in that the slag metal components additionally contain staurolite with the following ratio of components: magnesium: carbonaceous material: calcined dolomite: staurolite - 1:1:(6-8):(5-7). 2. Compact material according to claim 1, which differs in that as a carbon-containing material, a material selected from the group: graphite, electrode paste, coke is used, and the magnesium content in the burnt dolomite is set at 25-30 wt. About. 0. и и и 0. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, M 5 04/25/2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. 6) « « (o) (ee) and - - and? -i (ee) se) sh» s» ime) 60 b5