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Coating and preparation method and application thereof

A coating and coating technology, used in polyester coatings, epoxy resin coatings, coatings, etc., can solve problems such as peeling or cracking, unstable performance, easy aging, etc., to improve adhesion and tightness, The preparation method is simple and convenient, and the impact resistance is improved.

Active Publication Date: 2014-02-12
梁明森
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to their good mechanical properties, metal materials are often used in the shipbuilding industry, but their corrosion resistance is limited, and the hull is easily corroded after a period of use; non-metallic materials are used in the shipbuilding industry, such as the commonly used material FRP , which has the advantages of light weight, especially suitable for high-performance ships and racing boats with limited weight, corrosion resistance and resistance to marine growth, more suitable for use in marine environments than traditional shipbuilding materials, good dielectric properties and microwave penetration , It is also suitable for military ships, with good impact toughness, the ship is not easy to be damaged by general collision and extrusion, and the appearance is more beautiful, and the maintenance cost is low, but the elastic modulus of FRP is low, the performance is unstable and easy to aging. Limits its use on ships
[0003] In order to combine the advantages of metal materials and non-metal materials, the adhesives used to bond metal materials and non-metal materials in the prior art tend to make the composite materials obtained after bonding not fastened, due to the linear expansion coefficient of the two materials It is easy to cause shedding or cracking when the temperature difference occurs

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] The coating of this embodiment includes the following raw materials in parts by weight: 6 parts of phenolic resin, 10 parts of aluminum powder with a particle size of 0.8 micron and glass fiber powder with a particle size of 1 micron, and 5 parts of diluent cyclohexanone. The preparation method is as follows: select aluminum powder and glass fiber powder with a total weight of 10 parts, add them to 6 parts of phenolic resin, stir evenly, and then add 5 parts of diluent cyclohexanone.

[0023] During use, prepare 3 parts of coatings with different ratios of aluminum powder and glass fiber powder. They are: the content of aluminum powder in the first coating is 7 parts, the content of glass fiber powder is 3 parts; the content of aluminum powder in the second coating is 5 parts, and the content of glass fiber powder is 5 parts; the third coating The aluminum powder content is 3 parts, and the glass fiber powder content is 7 parts.

[0024] The coating of this embodiment ...

Embodiment 2

[0026] The coating of this embodiment comprises the following raw materials by weight: 8 parts of epoxy resin, 0.5 micron stainless steel powder and 2 micron glass fiber powder with a particle diameter of 8 parts, 5 parts of diluent acetone, curing agent dicyandiamide 3 parts of amine. The preparation method is as follows: select 10 parts of stainless steel powder and glass fiber powder with a total weight of 10 parts, add them to 8 parts of epoxy resin, stir evenly, and then add 5 parts of diluent acetone and 3 parts of curing agent dicyandiamide.

[0027] During use, prepare 7 parts of coatings with different ratios of stainless steel powder and glass fiber powder. They are respectively: the content of stainless steel powder in the first coating paint is 8 parts, and the content of glass fiber powder is 2 parts; the content of stainless steel powder in the second coating paint is 7 parts, and the content of glass fiber powder is 3 parts; the third coating paint 6 parts of s...

Embodiment 3

[0030] The coating of the present embodiment comprises the following raw materials in parts by weight: 10 parts of epoxy resin, copper powder with a particle diameter of 1 micron and glass fiber powder with a particle diameter of 3 microns, 11 parts in total, 7 parts of diluent n-butanol, curing agent 4 parts m-phenylenediamine. Its preparation method is: select copper powder and glass fiber powder with a total weight of 11 parts, add them to 10 parts of epoxy resin, stir evenly, and then add 7 parts of diluent n-butanol and 4 parts of curing agent m-phenylenediamine .

[0031] When in use, prepare 5 parts of coatings with different ratios of copper powder and glass fiber powder. They are: the content of copper powder in the first coating paint is 9 parts, and the content of glass fiber powder is 2 parts; the content of copper powder in the second coating paint is 7 parts, and the content of glass fiber powder is 4 parts; the third coating paint 5 parts in the coating, the g...

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PUM

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Abstract

The invention relates to a coating and a preparation method and application thereof. The coating is characterized by comprising the following raw materials in parts by weight: 10-11 parts of metal powder and glass fiber powder in total, and 6-10 parts of glue components. The part between a metal plate and a fiberglass plate is coated with a plurality of layers of coatings at different raw material ratios, is solidified and formed into a composite board with the coefficient of linear expansion gradually varying to fiberglass coefficient of linear expansion from metal coefficient of linear expansion, so that the metal plate and the fiberglass plate are bonded more firmly and are not easy to shed, and the composite board is endowed with both good mechanical property and good corrosion resistance and impact resistance.

Description

technical field [0001] The invention relates to a paint, a preparation method and an application thereof. Background technique [0002] Shipbuilding materials are generally divided into two categories: metallic materials and non-metallic materials. Due to their good mechanical properties, metal materials are often used in the shipbuilding industry, but their corrosion resistance is limited, and the hull is easily corroded after a period of use; non-metallic materials are used in the shipbuilding industry, such as the commonly used material FRP , which has the advantages of light weight, especially suitable for high-performance ships and racing boats with limited weight, corrosion resistance and resistance to marine growth, more suitable for use in marine environments than traditional shipbuilding materials, good dielectric properties and microwave penetration , It is also suitable for military ships, with good impact toughness, the ship is not easy to be damaged by general ...

Claims

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Application Information

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IPC IPC(8): C09D163/00C09D161/06C09D167/06C09D7/12C09J163/00C09J161/06C09J167/06C09J11/04B32B7/12
Inventor 吴伟峰
Owner 梁明森
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