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High-strength alloy material wear-resistant treatment material

A high-strength alloy, wear-resistant treatment technology, applied in the field of wear-resistant materials, can solve problems such as alarming economic losses, and achieve the effects of improving physical and chemical properties, rational formulation, and improved wear resistance.

Inactive Publication Date: 2019-12-20
马鞍山海华耐磨材料科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although wear rarely causes catastrophic damage to metal workpieces, its economic losses are staggering

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0013] A wear-resistant treatment material for high-strength alloy materials. The wear-resistant treatment material is composed of the following components in parts by weight: 2 parts of potassium titanate whiskers, 3 parts of iron oxide, 6 parts of dimethyl sebacate, quartz 7 parts of sand, 6 parts of iron hydroxide, 2 parts of butyrate, 7 parts of corundum, 2 parts of chromium oxide, 3 parts of limestone, 5 parts of silicon dioxide, 7 parts of butanone, 2 parts of magnesium oxide, 6 parts of graphite, 4 parts of magnesium bicarbonate, 2 parts of aramid short fiber, 9 parts of stannous octoate, 3 parts of hematite, 2 parts of barium stearate, 3 parts of vermiculite powder, 3 parts of metronidazole, 5 parts of ammonium dihydrogen phosphate , 3 parts of titanium diboride fiber, 2 parts of silicon nitride, 9 parts of calcium oxide, 3 parts of zirconium dioxide, 4 parts of chromium trioxide, 2 parts of silicon nitride, 8 parts of ferric oxide, wollastonite fiber 1 part, 2 parts o...

Embodiment 2

[0016] A wear-resistant treatment material for high-strength alloy materials. The wear-resistant treatment material is composed of the following components in parts by weight: 5 parts of potassium titanate whiskers, 7 parts of iron oxide, 14 parts of dimethyl sebacate, quartz 11 parts of sand, 15 parts of iron hydroxide, 8 parts of butyrate, 11 parts of corundum, 5 parts of chromium oxide, 6 parts of limestone, 9 parts of silicon dioxide, 13 parts of butanone, 4 parts of magnesium oxide, 12 parts of graphite, Magnesium bicarbonate 6 parts, aramid staple fiber 7 parts, stannous octoate 14 parts, hematite 11 parts, barium stearate 5 parts, vermiculite powder 7 parts, metronidazole 7 parts, ammonium dihydrogen phosphate 14 parts , 14 parts of titanium diboride fiber, 10 parts of silicon nitride, 12 parts of calcium oxide, 6 parts of zirconium dioxide, 12 parts of chromium trioxide, 4 parts of silicon nitride, 12 parts of ferric oxide, wollastonite fiber 3 parts, 4 parts of fricti...

Embodiment 3

[0019] The wear-resistant treatment material is composed of the following components in parts by weight: 4 parts of potassium titanate whiskers, 6 parts of iron oxide, 10 parts of dimethyl sebacate, 9 parts of quartz sand, 10 parts of iron hydroxide, butyrate 5 parts of ester, 9 parts of corundum, 4 parts of chromium oxide, 5 parts of limestone, 7 parts of silicon dioxide, 10 parts of butanone, 3 parts of magnesium oxide, 9 parts of graphite, 5 parts of magnesium bicarbonate, 4 parts of aramid staple fiber, 11 parts of stannous octoate, 6 parts of hematite, 4 parts of barium stearate, 5 parts of vermiculite powder, 5 parts of metronidazole, 9 parts of ammonium dihydrogen phosphate, 8 parts of titanium diboride fiber, 6 parts of silicon nitride 11 parts of calcium oxide, 5 parts of zirconia, 8 parts of chromium trioxide, 3 parts of silicon nitride, 10 parts of ferric oxide, 2 parts of wollastonite fiber, 3 parts of friction powder, 5 parts of mica, silicon Zirconium acid 5 part...

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PUM

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Abstract

The invention discloses a high-strength alloy material wear-resistant treatment material. The wear-resistant treatment material is composed of the following components by weight: 2-5 parts of potassium titanate whisker, 3-7 parts of iron oxide, 6-14 parts of dimethyl sebacate, 7-11 parts of quartz sand, 6-15 parts of ferric hydroxide, 2-8 parts of benzyl butyrate, 7-11 parts of corundum, 2-5 partsof chromium oxide, 3-6 parts of limestone, 5-9 parts of silicon dioxide, 7-13 parts of butanone, 2-4 parts of magnesium oxide, 6-12 parts of graphite, 4-6 parts of magnesium bicarbonate, 2-7 parts ofaramid staple fiber, 9-14 parts of stannous octoate, 3-11 parts of hematite, 2-5 parts of barium stearate, 3-7 parts of vermiculite powder, 3-7 parts of metronidazole, 5-14 parts of ammonium dihydrogen phosphate, 3-14 parts of titanium diboride fiber and 2-10 parts of silicon nitride. The material provided by the invention has a reasonable formula, the wear resistance of the finished product material is greatly improved, the physical performance and chemical performance of the alloy material are greatly improved through reasonable proportioning of the alloy material and ingenious adding of various components, and the service life of the alloy material is fully guaranteed, therefore the high-strength alloy material wear-resistant treatment material is worthy of popularization and use.

Description

technical field [0001] The invention belongs to the field of wear-resistant materials, in particular to a high-strength alloy material for wear-resistant treatment. Background technique [0002] Abrasion is one of the forms of material failure. Although wear rarely causes catastrophic damage to metal workpieces, its economic losses can be staggering. A large number of wear-resistant materials are used in industries with severe wear such as metallurgical mines, agricultural machinery, and coal, and most of them fail due to wear. According to statistics, the economic loss caused by the wear of mechanical equipment and parts in industrially developed countries accounts for about 4% of the total output value of the national economy, of which abrasive wear accounts for 50% of the total metal wear. my country consumes more than one million tons of steel every year due to abrasive wear, and only the middle groove of the scraper conveyor used in coal mines consumes 60,000 to 80,00...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09K3/14
CPCC09K3/1436
Inventor 张桂兵
Owner 马鞍山海华耐磨材料科技有限公司
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