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Carbon-free ladle brick and preparation method thereof

A carbon-free ladle and aggregate technology, applied in the field of refractory materials, can solve the problems of restricting the promotion and application of carbon-free ladle bricks, poor combination of aggregate and powder, and short service life of the ladle, and achieves good high temperature stability and resistance. Peeling properties, ease of production process, effect of low thermal expansion rate

Active Publication Date: 2014-09-10
山西高科耐火材料股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, at present, there are few public reports on the research and development and application technology of carbon-free ladle bricks. There are mainly problems such as simple combination form, poor combination of aggregate and powder, and easy separation under the impact of molten steel, resulting in a short service life of the ladle, thus limiting Popularization and application of carbon-free ladle brick

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Prepare 8-12 parts of 5-8mm bauxite clinker, 16-24 parts of 3-5mm bauxite clinker, 18-22 parts of 1-3mm fused brown corundum, 18-22 parts of 0.088-1mm fused white corundum, magnesium chloride 4-5 parts of solution, 1-2.5 parts of iron oxide and yellow dextrin premix (mixed according to 20:3), 0.1-1 part of sodium hexametaphosphate, 8-10 parts of alumina micropowder, 4-8 parts of magnesia powder parts, 10-16 parts of tabular corundum powder. Pour the prepared aggregate into the mixer for dry mixing, after stirring evenly, add 2 parts of magnesium chloride solution, stir fully to make the magnesium chloride solution wet the surface of the aggregate, then add iron oxide and yellow dextrin premix and continue stirring, 2 —After 3 minutes, when the premix is ​​attached to the surface of the aggregate, add alumina micropowder and stir for 1-2 minutes. After stirring evenly, add fused magnesia powder, platy corundum powder and sodium hexametaphosphate, and finally add the rema...

Embodiment 2

[0033] Prepare 8-12 parts of 5-8mm fused brown corundum, 16-24 parts of 3-5mm bauxite clinker, 18-22 parts of 1-3mm fused white corundum, 18-22 parts of 0.088-1mm fused white corundum, magnesium chloride 4-5 parts of solution, 1-2.5 parts of iron oxide and yellow dextrin premix (mixed according to 20:3), 0.1-1 part of sodium hexametaphosphate, 8-10 parts of alumina micropowder, 4-8 parts of magnesia powder parts, 10-16 parts of tabular corundum powder. Pour the prepared aggregate into the mixer for dry mixing, after stirring evenly, add 2 parts of magnesium chloride solution, stir fully to make the magnesium chloride solution wet the surface of the aggregate, then add iron oxide and yellow dextrin premix and continue stirring, 2 —After 3 minutes, when the premix is ​​attached to the surface of the aggregate, add alumina micropowder and stir for 1-2 minutes. After stirring evenly, add fused magnesia powder, platy corundum powder and sodium hexametaphosphate, and finally add the...

Embodiment 3

[0035] Prepare 8-12 parts of 5-8mm fused brown corundum, 16-24 parts of 3-5mm bauxite clinker, 18-22 parts of 1-3mm fused brown corundum, 18-22 parts of 0.088-1mm white corundum, and 4 parts of magnesium chloride solution —5 parts, iron oxide and yellow dextrin premix (mixed according to 20:3) 1-2.5 parts, sodium hexametaphosphate 0.1-1 parts, alumina micropowder 8-10 parts, magnesia powder 4-8 parts, Plate-shaped corundum powder 10-16 parts. Pour the prepared aggregate into the mixer for dry mixing, after stirring evenly, add 2 parts of magnesium chloride solution, stir fully to make the magnesium chloride solution wet the surface of the aggregate, then add iron oxide and yellow dextrin premix and continue stirring, 2 —After 3 minutes, when the premix is ​​attached to the surface of the aggregate, add alumina micropowder and stir for 1-2 minutes. After stirring evenly, add fused magnesia powder, platy corundum powder and sodium hexametaphosphate, and finally add the remaining...

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Abstract

The invention discloses a carbon-free ladle brick and a preparation method thereof. The carbon-free ladle brick is prepared by using bauxite chamotte, a corundum raw material, magnesium oxide and alumina micro powder as main raw materials, adding iron oxide, a magnesium chloride solution, sodium hexametaphosphate and canary dextrin, mixing the above-mentioned materials by using special procedures, storing an obtained mixed for 30 min, carrying out compression molding and drying the mixture at a temperature of 200 DEG C for 24 h. According to the invention, iron oxide and alumina micro powder are enabled to exist in gaps between aggregate and powder and form hercynite with a low thermal expansion coefficient at a medium-high temperature, and no excess iron oxide enters into a matrix, which enables the ladle brick to have good high temperature stability and anti-stripping performance; therefore, the problem that molten steel carburetting caused by high temperature melting loss of a refractory brick influences smelting quality is overcome, and the prepared carbon-free ladle brick has excellent performances of high strength, washing resistance, a long service life, etc.

Description

technical field [0001] The invention belongs to the field of refractory materials, and in particular relates to a carbon-free lining brick for a ladle and a preparation method thereof. Background technique [0002] As an important consumable material in the metallurgical industry, the ladle working layer material has always been highly valued by the refractory industry, and the refractory bricks used as the working layer are constantly being introduced. At present, carbon-containing bricks such as magnesia-carbon bricks, aluminum-magnesia-carbon bricks, etc. are used for ladle lining, which are unburned bricks made by adding graphite as one of the basic materials, adding some antioxidants, and combining with resin. Graphite and resin are expensive and need to be used at a constant temperature. In addition, the carbon content of molten steel caused by melting loss during the use of carbon-containing refractory materials is also a fundamental problem that cannot be solved by c...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B35/66
Inventor 高峰王虹孙旭峰陈俊红
Owner 山西高科耐火材料股份有限公司
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