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Magnesium oxide-silicon carbide composite for upper part of copper smelting converter and preparation method of composite

A technology for copper smelting converters and composite materials, applied in the field of refractory materials for copper smelting converters, can solve problems such as threats to human and animal health, damage to magnesia-chrome bricks, chemical erosion of materials, etc., and improve thermal shock resistance and spalling resistance. , Reduce the apparent porosity and pore size, and improve the effect of slag penetration resistance

Active Publication Date: 2018-05-29
WUHAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Because the structure and properties of the metamorphic layer are quite different from those of the original brick layer, repeated fluctuations in the upper furnace temperature of the copper smelting converter will cause part of the refractory material to separate from the brick body, resulting in peeling off; in addition, the acid gas on the upper part of the furnace lining chemically corrodes the material, resulting in smelting The magnesia-chrome brick used for the upper part of the copper converter was severely damaged
[0004] In addition, chromium ions in magnesia-chrome bricks may produce hexavalent chromium, which is highly carcinogenic, during use and stacking after use. Extensive use of magnesia-chrome bricks is bound to seriously pollute the environment and threaten the health of humans and animals.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0041] A magnesium oxide-silicon carbide composite material for the upper part of a copper smelting converter and a preparation method thereof. The preparation method described in this embodiment is:

[0042] First, 40-50wt% fused magnesia particles, 15-25wt% silicon carbide particles, 6-9wt% sintered magnesia fine powder, 12-15wt% zircon fine powder, 4-6wt% raw Alumina micropowder, 5-7wt% titanium oxide fine powder, 1-3wt% elemental silicon fine powder and 3-5wt% nickel oxide fine powder are raw materials, and then 6-8wt% zirconia sol and 1-3wt% of cerium oxide micropowder is evenly stirred, molded, dried, and kept in a carbon-buried atmosphere at 1250-1300°C for 2-4 hours to obtain a magnesium oxide-silicon carbide composite prefabricated material. Then the magnesia-silicon carbide composite prefabricated material is immersed in the zirconium oxychloride solution for 0.5-1.5 hours, and finally kept at 600-700°C for 2-4 hours to obtain the magnesia-silicon carbide for the up...

Embodiment 2

[0045] A magnesium oxide-silicon carbide composite material for the upper part of a copper smelting converter and a preparation method thereof. The preparation method described in this embodiment is:

[0046]First use 45-55wt% fused magnesia particles, 10-20wt% silicon carbide particles, 8-11wt% sintered magnesia fine powder, 10-13wt% zircon fine powder, 5-7wt% raw Bauxite fine powder, 4-6wt% titanium oxide fine powder, 1-3wt% elemental silicon fine powder and 2-4wt% nickel oxide fine powder are raw materials, and 7-9wt% zirconia sol and 1-3wt% of cerium oxide micropowder is evenly stirred, molded, dried, and kept in a carbon-buried atmosphere at 1290-1340°C for 3-5 hours to obtain a magnesium oxide-silicon carbide composite prefabricated material. Then the magnesia-silicon carbide composite prefabricated material is immersed in the zirconium oxychloride solution for 0.8-1.8 hours, and finally kept at 700-800°C for 3-5 hours to obtain the magnesia-silicon carbide for the uppe...

Embodiment 3

[0049] A magnesium oxide-silicon carbide composite material for the upper part of a copper smelting converter and a preparation method thereof. The preparation method described in this embodiment is:

[0050] First, 50-60wt% fused magnesia particles, 5-15wt% silicon carbide particles, 10-13wt% sintered magnesia fine powder, 8-11wt% zircon fine powder, 6-8wt% raw Alumina fine powder, 3-5wt% titanium oxide fine powder, 1-3wt% elemental silicon fine powder and 3-5wt% nickel oxide fine powder are raw materials, and 8-10wt% zirconia sol and 1-3wt% of cerium oxide micropowder is evenly stirred, shaped, dried, and kept in a carbon-buried atmosphere at 1330-1380°C for 4-6 hours to obtain a magnesium oxide-silicon carbide composite prefabricated material. Then the magnesia-silicon carbide composite prefabricated material is immersed in the zirconium oxychloride solution for 1.1-2.1 hours, and finally kept at 800-900°C for 4-6 hours to obtain the magnesia-silicon carbide for the upper ...

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Abstract

The invention relates to a magnesium oxide-silicon carbide composite for the upper part of a copper smelting converter and a preparation method of the composite. The technical scheme is as follows: firstly, 40wt%-60wt% of fused magnesia particles, 5wt%-25wt% of silicon carbide particles, 6wt%-16wt% of sintered magnesia fine powder, 5wt%-15wt% of zircon fine powder, 4wt%-8wt% of raw alumina micro powder, 3wt%-7wt% of titanium oxide fine powder, 1wt%-3wt% of monatomic silicon fine powder and 2wt%-5wt% of nickel oxide fine powder are taken as raw materials, 6wt%-10wt% of zirconium oxide sol and 1wt%-3wt% of cerium oxide micro powder are added, uniform mixing, forming and drying are performed, the obtained mixture is kept at the constant temperature of 1,250-1,450 DEG C in a carbon embedded atmosphere for 2-8 h, then impregnated in a zirconium oxychloride solution for 0.5-3 h and kept at the constant temperature of 600-900 DEG C for 2-6 h, and the magnesium oxide-silicon carbide compositefor the upper part of the copper smelting converter is obtained. The produced product has the characteristics of environmental friendliness, low apparent porosity, high anti-stripping capacity and excellent residue permeation corrosion resistance.

Description

technical field [0001] The invention belongs to the field of refractories for copper smelting converters. Specifically relates to a magnesium oxide-silicon carbide composite material for the upper part of a copper smelting converter and a preparation method thereof. Background technique [0002] The copper smelting converter is an important smelting equipment in the matte blowing process. During the blowing process, air is blown into the matte in the converter, FeS is preferentially oxidized to FeO and reacts with the added quartz to enter the slag; then Cu 2 S is oxidized to desulfurize, and crude oil with a content of more than 98% is obtained. Therefore, the lining material of the copper smelting converter is used in a very harsh environment, and needs to withstand high temperature, erosion, acid slag erosion and sharp fluctuations in temperature. [0003] At present, magnesia-chrome bricks are generally used as lining materials for copper smelting converters. Although...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/043C04B41/87
CPCC04B35/0435C04B41/009C04B41/5042C04B41/87C04B2235/3217C04B2235/3229C04B2235/3232C04B2235/3244C04B2235/3248C04B2235/3279C04B2235/3826C04B2235/428C04B2235/656C04B2235/6567C04B2235/658C04B2235/9607C04B2235/9676C04B41/4535
Inventor 徐义彪李亚伟桑绍柏王庆虎
Owner WUHAN UNIV OF SCI & TECH
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