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An anhydrous gunpowder

An anhydrous taphole clay and particle size technology, applied in the field of refractory materials, can solve the problems of poor slag resistance, high temperature resistance and erosion resistance, burning out the equipment in front of the furnace, running a large flow, etc., and achieves excellent erosion resistance, The effect of prolonging the tapping time and maintaining the depth of the taphole

Active Publication Date: 2020-01-14
巩义市顺祥耐材有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The existing anhydrous blast furnace mud has poor slag resistance, high temperature resistance and corrosion resistance, and is prone to wet iron holes, shallow iron holes, broken iron holes, large flow, decompression, venting, and burnout of the furnace during use. Problems such as front equipment affect production

Method used

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  • An anhydrous gunpowder
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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] A kind of waterless taphole clay, represented by weight percentage, the raw material of described waterless taphole clay is composed of: 7% of coke foam with a particle size of 2-0mm, 8% of sericite with a particle size of 200 mesh, and 3% of aluminum oxide powder , 5% silicon carbide with a particle size of 200 mesh, 10% high-bauxite with a particle size of 3-1mm, 15% high-bauxite with a particle size of 1-0mm, 8% high-bauxite with a particle size of 200, and a particle size of 200 8% brown corundum, 2% metal silicon powder with a particle size of 200 mesh, 4% asphalt powder, 2% kyanite with a particle size of 40-70 mesh, 2% earthy graphite, 8% clay, 8% bentonite and silicon nitride 10% iron, plus a binding agent accounting for 10% of the total weight of the above-mentioned raw materials, and the binding agent is tar.

Embodiment 2

[0020] A kind of waterless taphole clay, represented by weight percentage, the raw material of described waterless taphole clay is composed of: 10% of coke foam with a particle size of 2-0mm, 5% of sericite with a particle size of 200 mesh, and 4% of aluminum oxide powder , 8% of silicon carbide with a particle size of 200 mesh, 12% of high-bauxite with a particle size of 3-1mm, 12% of high-bauxite with a particle size of 1-0mm, 5% of high-bauxite with a particle size of 200, and a particle size of 200 10% brown corundum, 3% metal silicon powder with a particle size of 200 mesh, 5% asphalt powder, 3% kyanite with a particle size of 40-70 mesh, 2% earthy graphite, 5% clay, 10% bentonite and silicon nitride 6% iron, plus a binding agent accounting for 12% of the total weight of the above-mentioned raw materials, and the binding agent is tar.

Embodiment 3

[0022] A kind of waterless taphole clay, represented by weight percentage, the raw material of described waterless taphole clay is composed of: 8% of coke foam with a particle size of 2-0mm, 10% of sericite with a particle size of 200 mesh, and 5% of aluminum oxide powder , 5% of silicon carbide with a particle size of 200 mesh, 15% of high-bauxite with a particle size of 3-1mm, 10% of high-bauxite with a particle size of 1-0mm, 10% of high-bauxite with a particle size of 200 mesh, and a particle size of 200 5% brown corundum, 4% metal silicon powder with a particle size of 200 mesh, 4% asphalt powder, 3% kyanite with a particle size of 40-70 mesh, 3% earthy graphite, 5% clay, 5% bentonite and silicon nitride 8% iron, plus a binding agent accounting for 15% of the total weight of the above raw materials, the binding agent is tar.

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Abstract

The invention discloses an anhydrous stemming, which is composed of the following raw materials in percentage by weight: 7 to 10% of coke foam with a particle size of 0 to 2 mm; 5 to 10% of sericite with a particle size of 200 meshes; 3 to 5% of alumina, 5 to 10% of silicon carbide with a particle size of 200 meshes, 10% of high aluminum bauxite with a particle size of 1 to 3 mm; 10 to 15% of high aluminum bauxite with a particle size of 0 to 1 mm; 5 to 10% of high aluminum bauxite with a particle size of 200 meshes; 5 to 10% of brown aluminum oxide with a particle size of 200 meshes; 2 to 4% of metal silicon powder with a particle size of 200 meshes; 4 to 6% of asphalt powder, 2 to 4% of kyanite with a particle size of 40 to 70 meshes; 2 to 4% of soil like graphite; 5 to 10% of clay; 5 to 10% of bentonite; and 5 to 10% of ferro-silicon nitride. The anhydrous stemming also comprises a bonding agent accounting for 10 to 15% of the total weight of abovementioned raw materials. The anhydrous stemming has an excellent performance on resisting iron slag scouring and corrosion.

Description

technical field [0001] The invention belongs to the field of refractory materials, and in particular relates to an anhydrous taphole mud for blast furnace tapholes. Background technique [0002] Crack mud is a refractory material used to seal the taphole of ironmaking blast furnaces. At present, it can be divided into two categories: water tap mud and anhydrous tap mud. Blast furnace, the latter is on a large and medium-sized blast furnace with a high top pressure and a high degree of intensified smelting. The iron-making blast furnace taphole is the throat of molten iron discharged from the blast furnace. With the continuous strengthening of blast furnace smelting, the large-scale and long life of modern blast furnaces, the increase of tapping time and the increase of slag and iron flow have a great impact on the stability and stability of the blast furnace taphole. Maintenance puts higher demands on it. The key to maintaining high production of the blast furnace is the s...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B35/103C04B35/626
CPCC04B35/103C04B35/62605C04B2235/3463C04B2235/3472C04B2235/349C04B2235/3826C04B2235/3852C04B2235/422C04B2235/425C04B2235/428C04B2235/608C04B2235/61C04B2235/96C04B2235/9607C04B2235/9676
Inventor 赵瑞杰赵拓拓董向阳于文峰张显峰
Owner 巩义市顺祥耐材有限公司
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