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Metallic aluminium and non-silicone low-carbon alumina-zirconia-carbon slide plate for pouring high manganese steel and production method thereof

A technology of metal aluminum and high manganese steel, which is applied in the field of casting high manganese steel with metal aluminum combined with silicon-free low-carbon aluminum-zirconium-carbon slide plate and its production field, can solve the problem of oxidation, erosion and erosion, and can not meet the requirements of continuous sliding, Skateboards are not resistant to erosion and other problems, to achieve the effect of increasing thermal shock stability, good chemical stability, and improving erosion resistance

Active Publication Date: 2017-05-24
HENAN RONGJIN HIGH TEMPERATRUE MATERIALS CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Second, the pouring temperature is relatively high, which further intensifies oxidation, erosion and erosion
Therefore, when casting high manganese steel, the sliding plate often has phenomena such as corrosion resistance, hole expansion, and roughness, which cannot meet the requirements of continuous sliding use. It is necessary to develop a new material for high manganese steel sliding plate

Method used

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  • Metallic aluminium and non-silicone low-carbon alumina-zirconia-carbon slide plate for pouring high manganese steel and production method thereof
  • Metallic aluminium and non-silicone low-carbon alumina-zirconia-carbon slide plate for pouring high manganese steel and production method thereof

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] The metal aluminum-bonded silicon-free low-carbon aluminum-zirconium-carbon sliding plate for casting high manganese steel of the present invention includes main materials and additives, and the main materials include the following raw materials in weight percentages: 49.5% of dense fused corundum, 6% of a-Alumina fine powder, 25% zirconium corundum, 4% silicon carbide, 6% metal aluminum powder, 6% zirconia powder, 3% carbon black, 0.5% boron carbide, the total amount of the above raw materials is 100 %.

[0029] The admixture is phenolic resin, and the weight of the admixture is 5.5% of the total weight of the main material.

[0030] The dense fused corundum is granular, including three different particle sizes: 2mm≤particle size 1≤3mm, 1mm≤particle size 2<2mm and particle size 3<1mm, particle size 1, particle size 2 and particle size The weight ratio between dense fused corundum with a diameter of 3 is 1:2:1.95.

[0031] The zirconium corundum includes powder and gr...

Embodiment 2

[0037] The aluminum-bonded silicon-free low-carbon aluminum-zirconium-carbon sliding plate for casting high manganese steel of the present invention includes main materials and additives, and the main materials include the following raw materials in weight percentages: 44% of dense fused corundum, 8% of a-Alumina fine powder, 30% zirconium corundum, 6% silicon carbide, 5% metal aluminum powder, 4% zirconia powder, 2% carbon black, 1% boron carbide, the total amount of the above raw materials is 100 %.

[0038] The admixture is phenolic resin, and the weight of the admixture is 4.5% of the total weight of the main material.

[0039] The dense fused corundum is granular, including three different particle sizes: 2mm≤particle size 1≤3mm, 1mm≤particle size 2<2mm and particle size 3<1mm, particle size 1, particle size 2 and particle size The weight ratio between dense fused corundum with a diameter of 3 is 5:7:10.

[0040] The zirconium corundum includes powder and granular, the ...

Embodiment 3

[0044] The aluminum-bonded silicon-free low-carbon aluminum-zirconium-carbon sliding plate for casting high manganese steel of the present invention includes main materials and additives, and the main materials include the following raw materials in weight percentages: 39.5% of dense fused corundum, 10% of a-Alumina fine powder, 35% zirconium corundum, 8% silicon carbide, 4% metal aluminum powder, 2% zirconia powder, 1% carbon black, 0.5% boron carbide, the total amount of the above raw materials is 100 %.

[0045] The admixture is phenolic resin, and the weight of the admixture is 4.5% of the total weight of the main material.

[0046] The dense fused corundum is granular, including three different particle sizes: 2mm≤particle size 1≤3mm, 1mm≤particle size 2<2mm and particle size 3<1mm, particle size 1, particle size 2 and particle size The weight ratio between dense fused corundum with a diameter of 3 is 1:1:1.95.

[0047] The zirconium corundum includes powder and granular,...

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Abstract

The invention discloses a metallic aluminium and non-silicone low-carbonalumina-zirconia-carbon slide plate for pouring high manganese steel. The metallic aluminium and non-silicone low-carbon alumina-zirconia-carbon slide plate for pouring the high manganese steel is prepared from a main ingredient and an addition agent, wherein the main ingredient is prepared from the following raw materials in percentage by weight: 39 to 50 percent of dense electro-fused alumina, 6 to 10 percent of alpha-aluminum oxide micropowder, 25 to 35 percent of fused alumina zirconia, 4 to 8 percent of silicon carbide, 4 to 6 percent of metal aluminum powder, 2 to 6 percent of zirconium oxide powder, 1 to 3 percent of carbon black, and 0.5 to 1 percent of boron carbide; the addition agent is phenolic resin; the weight of the addition agent is 4 to 6 percent of the total weight of the main ingredient. A production method comprises the steps of weighing the raw materials according to the weight, and uniformly mixing to obtain a clay; extrusion forming, drying for 8 to 10h at the temperature ranging from 190 to 210 DEG C, hooping, grinding, and drying to obtain the slide plate. The product provided by the invention has no need to be subjected to sintering and oil immersing, is simplified in process and short in production cycle, cannot cause pollution to the environment, has excellent oxidation resistance and corrosion resistance, can meet the use requirement on continuous sliding for 3 to 4 times through a research and development experiment, and has a remarkable comprehensive benefit.

Description

technical field [0001] The invention relates to an aluminum-zirconium-carbon slide plate, in particular to a metal-aluminum bonded silicon-free low-carbon aluminum-zirconium-carbon slide plate for casting high manganese steel and a production method thereof. Background technique [0002] With the deepening of the adjustment of the variety structure of the iron and steel industry, the output of special steel has increased rapidly. Strong, causing carbon oxidation in the skateboard, resulting in loose structure; at the same time, high MnO content is more corrosive to the skateboard. The second is that the pouring temperature is relatively high, which further intensifies oxidation, erosion and erosion. Currently casting high manganese steel using Al 2 o 3 -C, Al 2 o 3 -ZrO 2 -C skateboard, wherein the C content is generally 6-10%. Due to the high C content, the pores increase after oxidation and the structure is loose. MnO and SiO in skateboard 2 、Al 2 o 3 The reacti...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/106B22D41/32
CPCB22D41/32C04B35/106C04B2235/3821C04B2235/3826C04B2235/402C04B2235/424C04B2235/77C04B2235/96
Inventor 梁保青刘宗辉徐跃庆李宏宇李爱梅王全喜张志峰赵臣瑞徐光雷
Owner HENAN RONGJIN HIGH TEMPERATRUE MATERIALS CO LTD
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