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High-temperature-oxidation-resistant coating for electronic product and preparation method thereof

A high-temperature oxidation-resistant, electronic product technology, applied in the direction of coating, etc., can solve the problems that affect the appearance of metal, lack of protection, anti-rust and anti-static, etc., and achieve the effect of good protection of metal, small particles, and not easy to precipitate

Inactive Publication Date: 2014-04-30
SUZHOU CITY BANGCHENG ELECTRICITY TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The shell of electronic products is generally made of metal materials, and metal materials sometimes need to be processed at high temperatures. Ordinary metal surface coatings will be oxidized due to high temperature, which affects the appearance of the metal.
Existing high-temperature oxidation-resistant coatings for metals on the market are prone to precipitation, and do not have protective, anti-rust and anti-static properties

Method used

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  • High-temperature-oxidation-resistant coating for electronic product and preparation method thereof

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Experimental program
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Effect test

Embodiment 1

[0009] This embodiment provides a high-temperature oxidation-resistant coating for electronic products, which contains the following components in parts by mass: 68 parts of nano-titanium dioxide, 20 parts of aluminum oxide, 7 parts of sodium nitrite, 3 parts of magnesium oxide, 10 parts of feldspar powder, 10.5 parts of cooked high alumina powder, 1.5 parts of ferrous oxide, 7 parts of ceramic micropowder, 0.23 parts of spinel, 5 parts of liquid sodium silicate, 3 parts of water, 12 parts of paint antistatic agent.

[0010] The preparation steps of a high-temperature oxidation-resistant coating for electronic products are as follows: put nano-titanium dioxide, aluminum oxide, sodium nitrite, magnesium oxide, feldspar powder, cooked high-alumina powder, ferrous oxide and liquid sodium silicate into the kiln For melting, raise the temperature from 900°C to 1500°C within 4 hours, then cool to room temperature, add ceramic micropowder, spinel and water after crushing, add coating ...

Embodiment 2

[0012] This embodiment provides a high-temperature oxidation-resistant coating for electronic products, which contains the following components in parts by mass: 50 parts of nano-titanium dioxide, 8 parts of aluminum oxide, 3 parts of sodium nitrite, 1.2 parts of magnesium oxide, 5 parts of feldspar powder, 5 parts of cooked high alumina powder, 0.6 part of ferrous oxide, 3 parts of ceramic micropowder, 0.1 part of spinel, 2 parts of liquid sodium silicate, 1 part of water, 5 parts of paint antistatic agent.

[0013] The preparation steps of a high-temperature oxidation-resistant coating for electronic products are as follows: put nano-titanium dioxide, aluminum oxide, sodium nitrite, magnesium oxide, feldspar powder, cooked high-alumina powder, ferrous oxide and liquid sodium silicate into the kiln For melting, raise the temperature from 900°C to 1500°C within 4 hours, then cool to room temperature, add ceramic micropowder, spinel and water after crushing, add coating antistat...

Embodiment 3

[0015] This embodiment provides a high-temperature oxidation-resistant coating for electronic products, which contains the following components in parts by mass: 59 parts of nano-titanium dioxide, 14 parts of aluminum oxide, 5 parts of sodium nitrite, 2.1 parts of magnesium oxide, 7.5 parts of feldspar powder, 7.5 parts of cooked high alumina powder, 1 part of ferrous oxide, 5 parts of ceramic micropowder, 0.16 part of spinel, 3.5 parts of liquid sodium silicate, 2 parts of water, 8.5 parts of paint antistatic agent.

[0016] The preparation steps of a high-temperature oxidation-resistant coating for electronic products are as follows: put nano-titanium dioxide, aluminum oxide, sodium nitrite, magnesium oxide, feldspar powder, cooked high-alumina powder, ferrous oxide and liquid sodium silicate into the kiln For melting, raise the temperature from 900°C to 1500°C within 4 hours, then cool to room temperature, add ceramic micropowder, spinel and water after crushing, add coating...

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Abstract

The invention provides a high-temperature-oxidation-resistant coating for an electronic product and a preparation method thereof. The coating comprises the following components in parts by mass: 50-68 parts of nano titanium dioxide, 8-20 parts of aluminum oxide, 3-7 parts of sodium nitrite, 1.2-3 parts of magnesium oxide, 5-10 parts of feldspar powder, 5-10.5 parts of calcined high aluminum powder, 0.6-1.5 parts of ferrous oxide, 3-7 parts of ceramic micro powder, 0.1-0.23 part of spinel, 2-5 parts of liquid sodium silicate, 1-3 parts of water and 5-12 parts of a coating antistatic agent. The coating provided by the invention is fine in particles, does not precipitate easily, is high in high-temperature resistance and hardness, can be used for well protecting metal, and has antirust and antistatic performance.

Description

technical field [0001] The invention relates to the field of coatings, in particular to a high-temperature oxidation-resistant coating for electronic products and a preparation method thereof. Background technique [0002] Nowadays, people's daily life is inseparable from electronic products, and there are various types of electronic products. The shells of electronic products are generally made of metal materials, and metal materials sometimes need to be processed at high temperatures. Ordinary metal surface coatings will be oxidized due to high temperature, which affects the appearance of the metal. Existing high-temperature oxidation-resistant coatings for metals on the market are prone to precipitation, and do not have protective, anti-rust and anti-static properties. Contents of the invention [0003] Technical problem to be solved: Aiming at the shortcomings of the above-mentioned high-temperature oxidation-resistant coating for metals, the present invention provide...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D1/00C09D7/12
Inventor 陈汉刚
Owner SUZHOU CITY BANGCHENG ELECTRICITY TECH
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