SU1719365A1 - Charge for producing refractories - Google Patents

Abstract

The invention relates to the refractory industry, in particular to the production of refractories used in high-temperature thermal units, metallurgical, machine-building and other branches of the national economy. In order to increase slag resistance, the charge includes the following components, wt.%: Corundum 13-30; mullito-corundum chamotte 10-35; fused mullite 15-27; refractory clay or kaolin - 5-10; Chrome ore waste - 15-40. Physicomechanical indicators are as follows; open porosity 21-23.9; apparent density of 2.82 2.9 g / cm3; compressive strength 39-43 N / mm slagging at 1400 ° C 0.87-1.2 cm2; heat resistance at 1300 ° C 13-16 water heat changes. 3 tab.

Description

The invention relates to the refractory industry, namely to the production of refractories used in high-temperature thermal units, metallurgical, machine-building and other branches of the national economy.

The aim of the invention is to increase slag stability.

The charge uses chrome ore wastes of a fraction less than 1.0 mm, they are unused chrome ore siftings in the production of chromomagnitite products (only 3-1 mm fraction is used) and is supplied by Nikitovsky dolomite, Ti-1nteleimon, Zaporozhye refractory plants according to TU 14-8- 261-78 with the changes No. 1, 2, the content of the fraction less than 1.0 mm in it is not less than 80%.

The chemical composition of waste chrome ore is given in table. one.

The introduction of a fraction of less than 1 mm in the amount of 15-40% (in terms of SGaOz - 7.6-20.4%) to the composition of the waste chromium ore allows stabilizing the grain composition of the charge, to obtain refractories with high) resistance to melts and slags, due to the formation of chrome-spinelide of complex composition inert to melts in the process of roasting. The multiphase composition of such a refractory (corundum, mullite, and chrome-spinellide) also allows the high heat resistance of products to be maintained, which is a very important factor in their service. In addition, it is possible to dispose of such unused deposits of such waste in refractory plants and to improve the environment

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environment (in windy dry weather, finely ground waste less than 1 mm is carried by the wind for a considerable distance).

Products made by the following technology.

Refractory products of an industrial format of 230x115x65 mm in size are manufactured from the proposed mixture. The positioned components are loaded into the mixer in the following sequence: first, the coarse-grained part of the charge (mullite-corundum chamotte and mullite fused fraction 3-0.5 mm) is loaded into the mixer, then the chrome ore waste fraction is less than 1 mm and this part of the mixture is moistened with a solution lignosulfonate technical density of 1.15 g / cm3. After stirring for 2 minutes and evenly wetting, the ground part of the fraction less than 0.06 mm, consisting of fused corundum and clay, is introduced into the mixture in a ratio of 3: 1, and stirring is continued for another 3 minutes. Moisture mass 5%. The products were pressed on a hydraulic press at a specific pressure of 50 N / mm2. The parts were dried and fired.

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In tab. 2 shows the blend compositions, in table. 3 properties of refractories.

Claims (1)

Invention Formula A mixture for the manufacture of refractories, including corundum, mullite-corundum chamotte, fused mullite, refractory clay or kaolin, and a chromium-containing component, characterized in that, in order to improve slag resistance, it contains chromic ore wastes, which are produced by chromium chromium containing chromium ores, which are produced by chromium-resistant slag. out products in the following ratio, wt.%: Korund13-30 Mullito-corundum chamotte 10-35 Fused mullit15-27 Clay refractory or kaolin 5-10 Chrome waste ores formed in the production of chromo-magnesite products 15-40 Table 1 table 2 Table 3