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Coating process of silicon-copper alloy foil explosion-proof material

A technology of coating technology and explosion-proof materials, applied in the direction of anti-corrosion coatings, coatings, etc., can solve problems such as poor stability, long processing time, and low temperature of the processing solution

Inactive Publication Date: 2013-08-21
SHANGHAI HUAPENG EXPLOSION PROOF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Rare earth conversion coating technology is mainly immersion treatment, which is simple to operate and easy to maintain; but its disadvantages are that the long-term immersion process takes too long to form a thin film layer and poor adhesion to explosion-proof substrates
After long-term exploration and research, it is found that adding a strong oxidizing agent, such as H 2 o 2 , KMnO 4 , (NH 4 ) 2 S 2 o 8 Such strong oxides greatly increase the film forming rate and greatly shorten the treatment time. At the same time, the temperature of the treatment solution is not high, so it can be applied at room temperature, but the stability of the treatment process is poor due to the existence of strong oxidants.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] (1) Prepare the following components (parts by mass):

[0029] a Methacryloxypropyltrimethoxysilane 1;

[0030] b n-octanol 40;

[0031] c SiO 2 particle 1;

[0032] d Neodymium oxide6;

[0033] e deionized water 5;

[0034] f acetic acid 4;

[0035] g carbon fiber 5;

[0036] h polyimide 1;

[0037] k. Zirconia 5;

[0038] (2) Mix the above components and perform aging treatment, then spray, brush or dip on the surface of the explosion-proof substrate, and form a coating on the surface of the explosion-proof substrate after deposition to achieve surface anti-corrosion treatment.

Embodiment 2

[0040] (1) Prepare the following components (parts by mass):

[0041] a Methacryloxypropyltrimethoxysilane 10;

[0042] b n-octanol 60;

[0043] c SiO 2 particle 5;

[0044] d Neodymium oxide 10;

[0045] e deionized water 25;

[0046] f Acetic acid 6;

[0047] g carbon fiber 7;

[0048] h polyimide 3;

[0049] k. Zirconia 10;

[0050] (2) Mix the above components and perform aging treatment, then spray, brush or dip on the surface of the metal foil explosion-proof material, and form a coating on the surface of the explosion-proof material after deposition to achieve surface anti-corrosion treatment.

Embodiment 3

[0052] (1) Prepare the following components (parts by mass):

[0053] a Methacryloxypropyltrimethoxysilane 5;

[0054] b n-octanol 50;

[0055] c SiO 2 Particle 3;

[0056] d Neodymium oxide8;

[0057] e deionized water 15;

[0058] f Acetic acid 5;

[0059] g carbon fiber 6;

[0060] h polyimide 2;

[0061] k. Zirconia 8;

[0062] (2) After mixing the above components, perform aging treatment, then spray, brush or dip on the surface of the silicon-copper alloy foil explosion-proof material, and form a coating on the surface of the explosion-proof material after deposition to achieve surface anti-corrosion treatment.

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PUM

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Abstract

The invention discloses a coating process of an anticorrosive coating. The coating process comprises the steps of mixing components such as siloxane, a solvent, silica particles, a rare earth compound, deionized water, a catalyst, carbon fibers, polyimide and the like, carrying out curing treatment, filtering the cured mixture, spraying, brushing or impregnating the product on the surface of an explosion-proof substrate, and forming a coating on the surface of the explosion-proof substrate after deposition, thus achieving anticorrosion treatment of the surface.

Description

technical field [0001] The invention relates to an anti-corrosion paint coating process, in particular to a metal foil explosion-proof material, especially a coating process for a silicon-copper alloy foil explosion-proof material. The method uses an environmentally friendly paint that does not contain an aromatic hydrocarbon solvent. Background technique [0002] In modern industry and daily life, metal corrosion can be seen everywhere, especially the crevice corrosion, stress corrosion and corrosion fatigue in storage containers of hazardous fuel chemicals, especially the damage in the form of corrosion of metal explosion-proof materials, which have caused serious damage to people's lives. Great security risk. The manufacturing process of the metal explosion-proof material generally includes: ingot casting, rolling into foil, slitting with a slitting machine, and stretching to form a mesh material. [0003] The metal protection methods currently used can be roughly divide...

Claims

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Application Information

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IPC IPC(8): C09D183/06C09D179/08C09D7/12C09D5/08
Inventor 黄晓东
Owner SHANGHAI HUAPENG EXPLOSION PROOF TECH