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Fireproof material for steel ladle bottom and preparation method thereof

A technology for refractory materials and ladles, applied in the field of refractory materials for ladle bottoms and its preparation, can solve problems such as poor erosion resistance and erosion resistance, reduced high temperature erosion resistance, and complex phase components of castables, etc., to achieve anti-corrosion Good peeling ability, strong ability to resist molten steel erosion, and enhance the effect of anti-steel erosion ability

Inactive Publication Date: 2014-01-01
TANGSHAN GUOLIANG SPEICAL REFRACTORY MATERIAL
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  • Abstract
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  • Application Information

AI Technical Summary

Problems solved by technology

The publication number is CN1680059A, which discloses "a large-scale ladle bottom refractory material", which uses 70-85wt% of special-grade bauxite with a particle size of less than 15mm, 3-15wt% of magnesia fine powder, and 3-10wt% of magnesium-aluminum spinel powder. , silicon micropowder 0.5~5wt%, magnesium binder 1~5%, and dispersant 0.1~0.2%, by reducing the load softening temperature of the material and controlling the appropriate thermal expansion rate and other technical measures to improve the use effect; but the load The reduction of softening temperature means that the high-temperature strength of the material is reduced, which leads to the reduction of high-temperature erosion resistance; the publication number is CN1546258A, which discloses a "micro-expansion self-flowing castable for the bottom of the ladle", which is 0-15% sharp spar, 0-10% magnesia, 0-8% pure calcium aluminate cement, 0.5-5% silicon micropowder, 6-10% α-alumina micropowder as matrix, high alumina bauxite as aggregate, through Adjust the content of magnesia, spinel and silica powder in the formula, adjust the linear change rate and sintering of the material to improve the performance of the material; but the phase composition of the castable is complex, and the CaO-Al2O3-MgO-SiO2 system is used There are more low-melting materials in the process, resulting in poor erosion resistance and erosion resistance of the material during use

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0014] Embodiment 1: The refractory material for the bottom of the ladle is prepared by using the following raw materials and methods.

[0015] (1) Clean the bottom of the 120-ton ladle, install the skateboard seat brick and the air-permeable seat brick; cook the super-grade bauxite with particle size distribution of 400mm~250mm: 20wt%, 250mm~100mm: 40wt%, 100mm~50mm: 40wt% The material is evenly arranged on the bottom of the bag to form a skeleton;

[0016] (2) According to the critical particle size of less than 8mm, brown corundum 78wt%, 97 fused magnesia fine powder 6wt%, α-alumina micropowder 11wt%, ρ-alumina 4wt%, silicon micropowder 1wt%; add the above material weight 4.2 Specified water in wt%; Stir evenly, configure into aluminum-magnesium self-flowing castable;

[0017] (3) Pour the aluminum-magnesium self-flowing castable into the gaps of the skeleton, level it automatically, keep it dry, and bake it to make the refractory material for the bottom of the ladle.

[...

Embodiment 2

[0019] Embodiment 2: The refractory material for the bottom of the ladle is prepared by using the following raw materials and methods.

[0020] (1) Clean the bottom of the 50-ton ladle, install the skateboard seat brick and the air-permeable seat brick; put 400mm~250mm: 10wt%, 250mm~100mm: 60wt%, 100mm~50mm: 30wt% first-grade alumina The clinker is evenly arranged on the bottom of the bag to form a skeleton;

[0021] (2) According to the critical particle size of less than 8mm, 70wt% of super-grade bauxite, 13wt% of 97 high-purity magnesia fine powder, 7wt% of α-alumina powder, 8wt% of ρ-alumina, and 2wt% of silica powder, add the above-mentioned material weight 4.8wt % of water, stirred evenly, configured into aluminum-magnesium self-flowing castable;

[0022] (3) Pour the aluminum-magnesium self-flowing castable into the gaps of the skeleton, level it automatically, keep it dry, and bake it to make the refractory material for the bottom of the ladle.

[0023] The bottom of...

Embodiment 3

[0024] Embodiment 3: The refractory material for the bottom of the ladle is prepared by using the following raw materials and methods.

[0025] (1) Clean the bottom of the 75-ton ladle, install the skateboard seat brick and the air-permeable seat brick; put 400mm~250mm: 30wt%, 250mm~100mm: 20wt%, 100mm~50mm: 50wt% post-service aluminum-magnesium with particle size distribution Carbon bricks are evenly arranged on the bottom of the bag to form a skeleton;

[0026] (2) According to the critical particle size of less than 8mm, 80wt% of bauxite, 9wt% of high-purity magnesia fine powder, 5wt% of α-alumina micropowder, 5wt% of ρ-alumina, and 1wt% of silica micropowder, add 5wt% of the above-mentioned water , stirred evenly, configured into aluminum-magnesium self-flowing castable;

[0027] (3) Pour the aluminum-magnesium self-flowing castable into the gaps of the skeleton, level it automatically, keep it dry, and bake it to make the refractory material for the bottom of the ladle. ...

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Abstract

The invention discloses a fireproof material for a steel ladle bottom. The fireproof material is made of a framework and castable. The framework is made of large clinkers of which granularity ranges from 50mm to 400m, and the castable is made of aluminum-magnesium auto-flowing castable in which rho-aluminum oxide is used as a binding agent. According to the fireproof material, the large clinkers which are well sintered and are compact in structure are used as the ladle bottom refractory framework, and therefore molten steel washing resistance of the framework is effectively enhanced; the aluminum-magnesium auto-flowing castable in which rho-aluminum oxide is used as the binding agent belongs to non-cement castable, and the castable has the advantages that an integrative system is pure and liquid phase amount generated under high temperature is small; the aluminum-magnesium auto-flowing castable generates spinels in situ under the high temperature condition, the in-situ generated spinels are used as a binder phase, and then the castable has the advantages of being good in thermal shock stability performance and not prone to peeling in the using process, the castable and the framework are encapsulated and poured into a whole, and therefore the fireproof material has the advantages of being high in molten steel washing resistance, good in peeling resistance, long in service life and the like. The fireproof material can have the good using effect in various steel ladle bottoms.

Description

technical field [0001] The invention relates to an unshaped refractory material, in particular to a refractory material for the bottom of a ladle and a preparation method thereof. Background technique [0002] During use, the ladle bottom refractory material not only bears the thermal shock damage caused by the erosion of molten steel and temperature changes, but also infiltrates and over-sinters under the huge pressure of molten steel, resulting in structural spalling, which makes the ladle bottom refractory damage much faster In the ladle wall and slag line, this has become a key factor restricting the service life of the ladle, and it also brings hidden dangers to safe production. Therefore, improving the quality of the ladle bottom refractory material and improving the masonry method have become the focus of technical workers' research. The existing ladle bottom refractory materials are generally formed by pouring castables or by masonry with refractory bricks. The pub...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/66
Inventor 王义龙马伟平涂军波魏军从张宏进张连进杨强
Owner TANGSHAN GUOLIANG SPEICAL REFRACTORY MATERIAL
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