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MgO-Cr7C3 brick for ladle slag line and production method of MgO-Cr7C3 brick

The technology of mgo-cr7c3 and ladle slag line is applied in the field of MgO-Cr7C3 bricks for ladle slag line and its preparation, which can solve the problem of reducing the service life of magnesia-calcium refractories, restricting the use of magnesia-carbon refractories, and restricting the turnover and use of ladle and other problems, to achieve the effect of enhancing high temperature flexural strength and steel slag corrosion resistance, saving labor resources, and reducing pollution

Inactive Publication Date: 2016-07-20
WUHAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Magnesium-calcium refractories are used as refractory materials for ladle slag lines. Although they have good high-temperature mechanical properties, excellent corrosion resistance to molten steel and steel slag, good thermal shock stability, and especially the characteristics of purifying molten steel, magnesia-calcium refractories In the process of preparation and use, it is easy to absorb moisture in the external environment and be pulverized and damaged, which greatly reduces the life of magnesium-calcium refractory materials, thereby restricting the turnover and use of ladles.
[0005] Magnesia-carbon refractories are used as refractory materials for ladle slag lines. Although they can meet the service life requirements, the biggest problem is the carbon increase in the subsequent ladle refining process.
At the beginning of production, most steel types have a relatively high frequency of carbon exceeding the standard, which reduces the quality of the steel
In addition, due to the oxidation of carbon, magnesia-carbon refractories form a decarburization layer, which accelerates the erosion of slag liquid on refractories and restricts the use of magnesia-carbon refractories.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] A kind of MgO-Cr for ladle slag line 7 C 3 Bricks and methods of making them. With 55~59wt% high-purity magnesia particles as aggregate, 21~25wt% fused magnesia fine powder, 10~12wt% Cr 7 C 3 The SiC fine powder of fine powder and 8~10wt% is base material; According to the content of described aggregate and described base material, base material is mixed first, then the base material after mixing is added in described aggregate, Mix evenly; then add 5-7wt% aluminum sol accounting for the sum of the aggregate and the base material, mix for 5-10 minutes, and press into a semi-dry method. Place the shaped green body in a high-temperature furnace, fire it at 1500~1570°C and an argon atmosphere, and keep it warm for 2~3 hours to obtain MgO-Cr for ladle slag line. 7 C 3 brick.

[0032] MgO-Cr for ladle slag line prepared in this embodiment 7 C 3 The brick is measured: the bulk density is 3.30~3.36g / cm 3 ; 1450°C flexural strength is 30~32MPa; 1550°C static crucible m...

Embodiment 2

[0034] A kind of MgO-Cr for ladle slag line 7 C 3 Bricks and methods of making them. With 57~61wt% high-purity magnesia particles as aggregate, 19~23wt% fused magnesia fine powder, 11~13wt% Cr 7 C 3 The SiC fine powder of fine powder and 7~9wt% is base material; According to the content of described aggregate and described base material, base material is mixed first, then the base material after mixing is added in described aggregate, Mix evenly; then add 5-7wt% aluminum sol accounting for the sum of the aggregate and the base material, mix for 5-10 minutes, and press into a semi-dry method. Place the shaped green body in a high-temperature furnace, fire it at 1510~1580°C and an argon atmosphere, and keep it warm for 2~3 hours to obtain MgO-Cr for ladle slag line. 7 C 3 brick.

[0035] MgO-Cr for ladle slag line prepared in this embodiment 7 C 3 The brick is measured: the bulk density is 3.33~3.39g / cm 3 ; 1450°C flexural strength is 31~33MPa; 1550°C static crucible me...

Embodiment 3

[0037] A kind of MgO-Cr for ladle slag line 7 C 3Bricks and methods of making them. With 59~63wt% high-purity magnesia particles as aggregate, 17~21wt% fused magnesia fine powder, 12~14wt% Cr 7 C 3 The SiC fine powder of fine powder and 6~8wt% is base material; According to the content of described aggregate and described base material, base material is mixed first, then the base material after mixing is added in described aggregate, Mix evenly; then add 3~5wt% of aluminum sol accounting for the sum of the aggregate and the base material, mix for 5~10 minutes, and press into a semi-dry method. Place the shaped green body in a high-temperature furnace, fire it at 1520~1590°C and an argon atmosphere, and keep it warm for 2~3 hours to obtain MgO-Cr for ladle slag line. 7 C 3 brick.

[0038] MgO-Cr for ladle slag line prepared in this embodiment 7 C 3 The brick is measured: the bulk density is 3.36~3.42g / cm 3 ; 1450°C flexural strength is 32~34MPa; 1550°C static crucible ...

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Abstract

The invention relates to a MgO-Cr7C3 brick for a ladle slag line and a production method of the MgO-Cr7C3 brick. According to the technical scheme, the production method includes: using 55-65wt% of high-purity magnesia particles as the aggregate and 15-25wt% of fused magnesia fine powder, 10-15wt% of Cr7C3 fine powder and 5-10wt% of SiC fine powder as the matrix materials; according to the contents of the aggregate and the matrix materials, evenly mixing the matrix materials first, adding the evenly-mixed matrix materials into the aggregate, and evenly mixing; adding alumina sol accounting for 3-7wt% of the sum of the aggregate and the matrix materials, mixing for 5-10 minutes, and using a semi-dry method to perform mechanical pressing; placing the formed blank into a high-temperature furnace, sintering at 1500-1600 DEG C and under the argon atmosphere, and keeping the temperature for 2-3 hours to obtain the MgO-Cr7C3 brick for the ladle slag line. The production method has the advantages that the method is simple in process, and the produced MgO-Cr7C3 brick is high in compactness, large in high-temperature bending strength, high in slag erosion resistance and low in pollution to molten steel.

Description

technical field [0001] The invention belongs to the technical field of refractory materials for ladle slag lines. Specifically relate to a kind of MgO-Cr for ladle slag line 7 C 3 Bricks and methods of making them. Background technique [0002] Ladles are important storage, transportation and smelting equipment in the steel industry. The refractory material at the ladle slag line is subjected to the erosion and flow of steel slag and molten steel during the steelmaking process, resulting in structural spalling and slag erosion. Therefore, the ladle slag line generally requires service refractories to have good thermal shock stability, slag erosion resistance and erosion resistance. [0003] At present, the refractories for ladle slag line generally adopt magnesia-calcium refractories and magnesia-carbon refractories. [0004] Magnesium-calcium refractories are used as refractory materials for ladle slag lines. Although they have good high-temperature mechanical properti...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/66C04B35/043C04B35/622C04B35/63
CPCC04B35/0435C04B35/622C04B35/6303C04B2235/3217C04B2235/3826C04B2235/3839C04B2235/96C04B2235/9676
Inventor 赵惠忠赵鹏达张寒余俊陈琪何晴丁雄风王立锋李静捷
Owner WUHAN UNIV OF SCI & TECH
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