Impact-resistant high-hardness wear-resistant ball

A wear-resistant ball and impact-resistant technology, which is applied in the field of wear-resistant materials, can solve the problems of poor impact resistance of wear-resistant balls, achieve excellent corrosion resistance, improve hardness and impact resistance, and reduce the friction coefficient.

Active Publication Date: 2014-11-19
宁国市宁武新材料科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This patented technology describes how we can create better materials for use in applications where they will be subjected to severe conditions such as shocks or vibrational loads. These improvements include increased strength without losing their effectiveness due to excessive amounts of metal left over after processing by thermal treatments like sintering (hot) oxidation). Additionally, this new method allows for controlled formation of specific types of carbons called nitrides that enhance its properties while reducing cost compared to traditional methods.

Problems solved by technology

This patented technical problem addressed in this patents relates to improving the durable nature of conventional welded steel balls while maintaining their ability to prevent damage from small objects such as stones during use at extreme temperatures.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] The impact-resistant high-hardness wear-resistant ball of the present invention, its raw material comprises by weight: 100 parts of steel scrap, 25 parts of ferrochrome, 1.5 parts of ferromolybdenum, 1.15 parts of ferro-vanadium, 0.3 part of ferromanganese, 0.46 part of ferrosilicon, metal Zinc 2 parts;

[0027] According to the above raw material ratio, the impact-resistant high-hardness wear-resistant ball is prepared according to the following process:

[0028] S1. Put steel scrap into the medium frequency induction melting furnace and heat it to 1498°C. After holding for 44 minutes, add ferrochromium, ferromolybdenum, and ferrovanadium. After complete melting, add ferrosilicon, ferromanganese and metal zinc, and heat up to 1595°C. After the molten steel is completely melted, the molten steel is poured, and the mold is opened after the molten steel is completely solidified, and the furnace is cooled to room temperature to obtain a wear-resistant ball green body;

[...

Embodiment 2

[0035] The impact-resistant high-hardness wear-resistant ball of the present invention, its raw material comprises by weight parts: 100 parts of scrap steel, 18 parts of ferrochrome, 1 part of ferromolybdenum, 1.3 parts of ferro-vanadium, 0.23 parts of ferromanganese, 0.6 part of ferrosilicon, metal 5 parts of zinc;

[0036] According to the above raw material ratio, the impact-resistant high-hardness wear-resistant ball is prepared according to the following process:

[0037] S1. Add steel scrap to an intermediate frequency induction melting furnace and heat to 1490°C. After holding for 50 minutes, add ferrochromium, ferromolybdenum, and ferrovanadium. After complete melting, add ferrosilicon, ferromanganese and metal zinc, and heat up to 1600°C. After the molten steel is completely melted, the molten steel is poured, and the mold is opened after the molten steel is completely solidified, and the furnace is cooled to room temperature to obtain a wear-resistant ball green body...

Embodiment 3

[0044] The impact-resistant high-hardness wear-resistant ball of the present invention, its raw material comprises by weight parts: 100 parts of scrap steel, 20 parts of ferrochromium, 1.4 parts of ferromolybdenum, 1 part of ferrovanadium, 0.3 part of ferromanganese, 0.2 part of ferrosilicon, metal Zinc 4.3 parts;

[0045] According to the above raw material ratio, the impact-resistant high-hardness wear-resistant ball is prepared according to the following process:

[0046] S1. Put steel scrap into the medium frequency induction melting furnace and heat it to 1510°C. After holding the heat for 25 minutes, add ferrochromium, ferromolybdenum, and ferrovanadium. After it is completely melted, add ferrosilicon, ferromanganese and metal zinc, and heat up to 1550°C. After the molten steel is completely melted, the molten steel is poured, and the mold is opened after the molten steel is completely solidified, and the furnace is cooled to room temperature to obtain a wear-resistant b...

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PUM

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Abstract

The invention discloses an impact-resistant high-hardness wear-resistant ball which comprises the following raw materials in parts by weight: 100 parts of waste steel, 18-25 parts of ferrochromium, 1-1.5 parts of ferromolybdenum, 1-1.3 parts of ferrovanadium, 0.1-0.3 part of ferromanganese, 0.2-0.6 part of ferrosilicon and 2-5 parts of zinc. In a preparation process of the impact-resistant high-hardness wear-resistant ball, the surface of the wear-resistant ball is modified by adopting plasma cladding and electric spark deposition technologies; plasma cladding process parameters comprise non-transferred arc voltage, non-transferred arc current, transferred arc voltage, transferred arc current, ionized gas stream, powder feeding gas flow, protection gas flow, cladding speed, welding gun swing range and spraying distance; the electric spark deposition process parameters comprise argon gas flow, deposition voltage, deposition frequency, deposition power, deposition time and rotary deposition gun speed. The wear-resistant ball is excellent in impact resistance, corrosion resistance, hardness, heat resistance and wear resistance.

Description

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Claims

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Application Information

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Owner 宁国市宁武新材料科技有限公司
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