Lining brick of lean iron ore magnetizing and roasting rotary kiln and preparation method of lining brick

A magnetized roasting and rotary kiln technology, which is applied in the field of lean iron ore magnetized roasting rotary kiln lining bricks and its preparation, can solve the problem of large thermal conductivity of mullite-silicon carbide castables/prefabricated parts and increase the magnetization roasting of lean iron ore The development cost of rotary kiln lining bricks and the impact on the service life of rotary kiln lining bricks for magnetization roasting of lean iron ore can achieve the effects of saving labor resources, improving slag erosion resistance, and small thermal conductivity

Active Publication Date: 2017-05-31
乐陵市回弹仪厂
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  • Abstract
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AI Technical Summary

Problems solved by technology

[0005] Mullite bricks are used as the lining bricks of the lean iron ore magnetized roasting rotary kiln, which not only has high refractoriness, but also has good mechanical properties (wear resistance) and chemical corrosion resistance. CaO, SiO in slag 2 Other components react and are consumed by slag, which reduces the service life of mullite bricks
[0006] Mullite-silicon carbide castable/prefabricated parts are used as lean iron ore magnetized roasting rotary kiln lining bricks. Although its high-temperature mechanical and thermal properties are excellent, especially the introduction of SiC enhances the slag erosion resistance and erosion resistance of the lining bricks. However, the thermal conductivity of mullite-sil

Method used

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Examples

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Effect test

Embodiment 1

[0029] A magnetization roasting rotary kiln lining brick of lean iron ore and a preparation method thereof. Using 60~62wt% high-purity magnesia particles as aggregate, 10~12wt% ρ-Al 2 O 3 Micropowder, 23~25wt% of light-burned magnesia fine powder and 1~3wt% of nickel trioxide micropowder are base materials; ingredients are carried out according to the content of the aggregate and the composition and content of the base material. The base material is mixed uniformly, then the mixed base material is added to the aggregate, and the mixture is uniform; then the zirconium sol accounting for 5-7wt% of the sum of the base material and the aggregate is added, and the mixture is uniformly mixed and shaken. Molding, curing at 25~30°C for 12~24 hours, drying at 180~200°C for 12~18 hours; finally placed in a muffle furnace, heated to 1500~1600°C at a heating rate of 3~5°C / min ℃, keep the temperature for 1~2 hours, and cool with the furnace to obtain the magnetized roasting rotary kiln l...

Embodiment 2

[0032] A magnetization roasting rotary kiln lining brick of lean iron ore and a preparation method thereof. Using 61~63wt% high-purity magnesia particles as aggregate, 11~13wt% ρ-Al 2 O 3 Micropowder, 22~24wt% of light-burned magnesia fine powder and 1~3wt% of nickel trioxide micropowder are base materials; ingredients are carried out according to the content of the aggregate and the composition and content of the base material. The base material is mixed uniformly, then the mixed base material is added to the aggregate, and the mixture is uniform; then the zirconium sol accounting for 5-7wt% of the sum of the base material and the aggregate is added, and the mixture is uniformly mixed and shaken. Molding, curing at 25~30°C for 12~24 hours, drying at 180~200°C for 12~18 hours; finally placed in a muffle furnace, heated to 1500~1600°C at a heating rate of 3~5°C / min ℃, keep the temperature for 1~2 hours, and cool with the furnace to obtain the magnetized roasting rotary kiln l...

Embodiment 3

[0035] A magnetization roasting rotary kiln lining brick of lean iron ore and a preparation method thereof. Using 62~64wt% high-purity magnesia particles as aggregate, 12~14wt% ρ-Al 2 O 3Micropowder, 21~23wt% of light-burned magnesia fine powder and 2~4wt% of nickel trioxide micropowder are base materials; ingredients are prepared according to the content of the aggregate and the composition and content of the base material. The base material is mixed uniformly, then the mixed base material is added to the aggregate, and the mixture is uniform; then the zirconium sol that accounts for 6-8wt% of the sum of the base material and the aggregate is added, mixed uniformly, and vibrated. Molding, curing at 25~30°C for 12~24 hours, drying at 180~200°C for 12~18 hours; finally placed in a muffle furnace, heated to 1500~1600°C at a heating rate of 3~5°C / min ℃, keep the temperature for 1~2 hours, and cool with the furnace to obtain the magnetized roasting rotary kiln lining brick of le...

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Abstract

The invention relates to a lining brick of a lean iron ore magnetizing and roasting rotary kiln and a preparation method of the lining brick. The lining brick is characterized by taking 60 weight percent to 65 weight percent of high-purity magnesia particle as aggregate, and taking 10 weight percent to 15 weight percent of rho-Al2O3 micro-powder, 20 weight percent to 25 weight percent of light-burnt magnesia fine powder and 1 weight percent to 4 weight percent of nickel sesquioxide micro-powder as a matrix material; the preparation method comprises the following steps: preparing the materials according to the content of the aggregate and the components and content of the matrix material; uniformly mixing the matrix material; adding the uniformly mixed matrix material into the aggregate and uniformly mixing; additionally adding zirconium sol which accounts for 5 weight percent to 8 weight percent of the sum of the matrix material and the aggregate, and uniformly mixing; vibrating and molding; curing and drying; finally, putting a mixture into a muffle furnace and rising the temperature to be 1500 DEG C to 1600 DEG C at the temperature rate of 3 DEG C/min to 5 DEG C/min; keeping the heat for 1h to 2h; cooling along a furnace to prepare the lining brick of the lean iron ore magnetizing and roasting rotary kiln. The lining brick of the lean iron ore magnetizing and roasting rotary kiln and the preparation method of the lining brick have the characteristics of low cost and simple process flow; the prepared lining brick of the lean iron ore magnetizing and roasting rotary kiln has high slag corrosion resistance, small coefficient of heat conductivity and great cold-state compressive strength.

Description

technical field [0001] The invention belongs to the technical field of magnetized roasting rotary kiln lining bricks. Specifically, it relates to a magnetized roasting rotary kiln lining brick of lean iron ore and a preparation method thereof. Background technique [0002] Lean iron ore refers to iron ore with low iron oxide content, generally Fe 2 O 3 The content is 30~40wt%, or even lower. The lean iron ore contains a lot of gangue, which is easy to produce a large amount of slag during the smelting process, which increases the fuel consumption and reduces the productivity of the equipment. In addition, gangue in lean iron ore contains a large amount of impurity elements, which affects the quality of steel. Therefore, magnetization roasting pretreatment should be carried out before the lean iron ore is put into the furnace (to facilitate the magnetic separation of iron ore) to increase the iron content, reduce the gangue content and reduce harmful elements. [0003] M...

Claims

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Application Information

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IPC IPC(8): C04B35/66C04B35/043
Inventor 张寒赵惠忠李静捷余俊赵鹏达陈建威易萍
Owner 乐陵市回弹仪厂
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