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Preparation method of coating composite material

A composite material and coating technology, applied in coatings, anti-corrosion coatings, conductive coatings, etc., can solve the problem of high cost and achieve the effects of low production cost, low surface resistance and good conductivity

Active Publication Date: 2019-01-04
ANHUI POLYTECHNIC UNIV MECHANICAL & ELECTRICAL COLLEGE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But the use of silver leads to high cost

Method used

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  • Preparation method of coating composite material

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preparation example Construction

[0025] Not only that, the present invention also provides a method for preparing the above-mentioned coating composite material. The preparation method includes: weighing the following raw materials according to the proportion and mixing them uniformly: in terms of mass percentage, 13%-18% of zinc powder, alloy Powder 1 5%-9%, alloy powder 2 0.6%-1.2%, manganese acetate 5%-8%, manganese nitrate 3%-6%, polyethylene glycol 11%-15%, phenylethyl polyoxyethylene ether 3%-7%, nonylphenol polyoxyethylene ether 2%-6%, composite ceramic powder 2%-7%, and the balance is water; among them, alloy powder 1 is nickel powder, aluminum powder, silicon powder, gadolinium powder , a mixture of tantalum powder and copper powder; alloy powder two is a mixture of antimony powder, silicon powder, gadolinium powder and lead powder.

[0026]Through the above technical solution, the coating composite material of the present invention has low surface resistance, good electrical conductivity, long salt ...

Embodiment 1

[0040] A coating composite material, the weight percentage of each component in the material is: zinc powder 13%, alloy powder 1 5%, alloy powder 2 0.6%, manganese acetate 5%, manganese nitrate 3%, polyethylene glycol 11% , 3% styrene ethyl polyoxyethylene ether, 2% nonylphenol polyoxyethylene ether, 2% composite ceramic powder, and the rest is water. The weight percentages of the components in the alloy powder 1 are: 12% nickel powder, 2% aluminum powder, 2% silicon powder, 0.01% gadolinium powder, 0.001% tantalum powder, and the remaining copper powder. The weight percentage of each component in the alloy powder 2 is: 12% of antimony powder, 0.02% of silicon powder, 0.01% of gadolinium powder, and the rest of lead powder. The weight percentage of each component in the composite ceramic powder is: Al 2 o 3 20%, CaO 0.4%, BaO 6%, MnO 4%, Li 2 O 0.1%, Fe 2 o 3 0.7%, GeO 2 0.1%, Lu 2 o 3 0.001%, K 2 O 2%, B 2 o 3 2%, I SiO 2 .

Embodiment 2

[0042] A coating composite material, the weight percentage of each component in the material is: zinc powder 15%, alloy powder 1 7%, alloy powder 2 0.9%, manganese acetate 7%, manganese nitrate 5%, polyethylene glycol 13% , 5% styrene ethyl polyoxyethylene ether, 4% nonylphenol polyoxyethylene ether, 4% composite ceramic powder, and the rest is water.

[0043] The weight percentage of each component in alloy powder 1 is: nickel powder 14%, aluminum powder 4%, silicon powder 3%, gadolinium powder 0.03%, tantalum powder 0.003%, and the rest copper powder. The weight percent of each component in the alloy powder 2 is: 14% of antimony powder, 0.04% of silicon powder, 0.04% of gadolinium powder, and the rest of lead powder. The weight percentage of each component in the composite ceramic powder is: Al 2 o 3 22%, CaO0.6%, BaO8%, MnO6%, Li 2 O 0.3%, Fe 2 o 3 0.9%, GeO 2 0.34%, Lu 2 o 3 0.002%, K 2 O 5%, B 2 o 3 4%, I SiO 2 .

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Abstract

The invention discloses a preparation method of a coating composite material. The preparation method has the advantages that the method is simple in process, low in production cost and suitable for industrial production; the prepared coating composite material is low in surface resistance, good in conductivity, lasting in salt mist resistance and capable of effectively avoiding metal rusting and corrosion; various metal materials can be coated with the coating material, and the metal materials with the coating material are applicable to fields such as petrochemical industry, cars, ships, engineering machinery and power industry.

Description

technical field [0001] The invention relates to the technical field of iron and steel, in particular to a method for preparing a coating composite material. Background technique [0002] CN200910190689.8 discloses a method for improving the conductivity of dacromet coating and a metal piece with high conductivity dacromet coating, adding metallic silver particles or containing metallic silver to the dacromet solution coated with metal substrate The aqueous conductive silver paste of particles, the diameter of the metal silver particles is 1-20 μm. The invention provides a method that not only ensures the excellent corrosion resistance of the coating, but also improves the conductivity of the dacromet coating on the metal substrate. However, the use of silver leads to high costs. Contents of the invention [0003] In view of the above-mentioned technical defects, the object of the present invention is to provide a coating composite material and its application. The coatin...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D171/02C09D5/24C09D5/10C09D7/61
CPCC08K2003/023C08K2003/0812C08K2003/085C08K2003/0893C08L2205/025C08L2205/03C09D5/103C09D5/106C09D5/24C09D7/61C09D171/02C08L71/02C08K3/08C08K3/02
Inventor 赵浩峰张椿英于鹏夏俊柴阜桐王清清
Owner ANHUI POLYTECHNIC UNIV MECHANICAL & ELECTRICAL COLLEGE
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