CN110655854A - Antiwear method for coating on surface of metal and inorganic non-metal material - Google Patents

Abstract

The invention discloses an abrasion-resistant method for coating on the surface of metal and inorganic non-metallic materials, in particular to the technical field of material surface protective coatings, which comprises a novel abrasion-resistant resin coating composition for the surface of metal and inorganic non-metallic materials, wherein the used main materials comprise the following raw materials in parts by weight: polyurethane resin, organic silicon resin, high-density polyethylene, cycloethanone, dimethylbenzene, glass fiber mesh cloth, glass fiber, a high polymer material adhesive, titanium dioxide and talcum powder; the high polymer material adhesive is polyvinyl alcohol adhesive. According to the invention, the surface of the material is protected by the resin composition, so that direct friction of the material is avoided, abrasion protection of the surface of the material is realized, the resin composition has high strength, tear resistance and wear resistance, and the surface lubricating property, friction coefficient and wear resistance of the resin composition are improved by adding titanium dioxide and talcum powder, so that the antifouling capacity is improved, and the surface of the material is convenient to clean.

Description

Antiwear method for coating on surface of metal and inorganic non-metal material

Technical Field

The invention relates to the technical field of material surface protective coatings, in particular to an abrasion-resistant method for coating the surface of a metal or inorganic non-metallic material.

Background

Many processing materials can be used in the machining process, various materials can be divided into metal materials and non-metal materials according to the materials, after products are made on the smooth surfaces of metal or inorganic non-metal materials, the products are easy to abrade in the using process, so that the surfaces of the materials are abraded, the attractiveness of the products is affected slightly, the service life of the materials is affected heavily, after the surfaces of the materials are abraded, pollutants are attached to the abraded parts of the surfaces of the materials easily, the pollutants are attached to the materials in an accelerating manner, and the corrosion of the metal materials is accelerated for the metal materials, so that the service life of the products is affected seriously.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide an anti-abrasion method applied to the surface of metal and inorganic non-metal materials, the resin composition protects the surface of the material, so as to avoid direct friction of the material, thereby realizing the abrasion protection of the surface of the material, the resin composition has high strength, tear resistance and abrasion resistance, and the glass fiber is added into the resin composition, so that during spraying, the glass fiber mesh cloth is used as the lining of the film, thereby improving the flexibility of the anti-abrasion film, improving the warp and weft high tensile strength, and improving the tear resistance of the anti-abrasion film, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a wear-resistant method for coating the surface of metal and inorganic non-metallic materials comprises a novel wear-resistant resin coating composition for the surface of metal and inorganic non-metallic materials, and is characterized in that: the used main materials comprise the following raw materials in parts by weight: 95-100 parts of polyurethane resin, 86-92 parts of organic silicon resin, 50-54 parts of high-density polyethylene, 23-26 parts of cycloethanone, 24-27 parts of dimethylbenzene, 40-46 parts of glass fiber mesh cloth, 20-25 parts of glass fiber, 2-5 parts of high polymer material adhesive, 5-7 parts of titanium dioxide and 6-8 parts of talcum powder;

the high polymer material adhesive is polyvinyl alcohol adhesive, and the granularity of the titanium dioxide and the talcum powder is set to be below 80 mu m;

the method specifically comprises the following operation steps.

The method comprises the following steps: weighing polyurethane resin, high-density polyethylene, cycloethanone and xylene, putting into a reaction kettle, melting, and uniformly mixing;

step two: weighing glass fiber and a high polymer material adhesive, adding into a reaction kettle, and uniformly stirring and mixing;

step three: weighing titanium dioxide and talcum powder, drying in drying equipment, filtering by using fine selection equipment, and standing the dried and fine-selected titanium dioxide and talcum powder for later use;

step four: putting the obtained titanium dioxide and talcum powder into a reaction kettle, and uniformly stirring at a high speed to obtain a resin coating composition;

step five: selecting metal and inorganic non-metal material products needing surface abrasion-resistant treatment, firstly washing with water, and wiping water stains off, and then wiping and cleaning the material surface with acetone;

step six: selecting glass fiber mesh cloth, flatly paving the glass fiber mesh cloth on the surface of the material, and cutting the part of the glass fiber mesh cloth extending out of the surface of the material;

step seven: putting the resin coating composition into spraying equipment, heating and melting, and uniformly spraying the surface of the material;

step eight: standing and cooling the material sprayed with the resin coating composition, and forming an anti-wear film on the surface of the material after the resin coating composition is naturally cooled and solidified, so as to finish the anti-wear treatment on the surface of the material;

in a preferred embodiment, in the first step, the reaction kettle is melted, and the polyurethane resin, the high-density polyethylene, the cycloethanone and the xylene are uniformly mixed and stirred at the temperature of 60-85 ℃, wherein the mixing and stirring time is set to be 15 min.

In a preferred embodiment, the temperature of the reaction kettle in the second step is increased to 130-140 ℃, the mixture in the first step is uniformly mixed and stirred with the glass fiber and the high polymer material binder, and the mixing and stirring time is set to be 30 min.

In a preferred embodiment, in the third step, the drying temperature of the titanium dioxide and the talcum powder is 110 ℃, and the titanium dioxide and the talcum powder are completely dried.

In a preferred embodiment, the spray coating composition uniformly sprayed in the seventh step completely covers the glass fiber mesh cloth provided in the sixth step, and the spray thickness of the resin spray coating composition is 2 mm.

The invention has the technical effects and advantages that:

1. according to the invention, the polyurethane resin, the organic silicon resin, the high-density polyethylene, the cycloethanone and the dimethylbenzene are melted and mixed to form the resin composition, the resin composition is used for protecting the surface of a material, the direct friction of the material is avoided, the abrasion protection of the surface of the material is realized, the resin composition has high strength, tear resistance and wear resistance, the surface lubricating property of the resin composition is improved by adding the titanium dioxide and the talcum powder, the friction coefficient is reduced, the wear resistance is improved, the stain adhesion capability of the surface of the material is reduced, the stain resistance capability is improved, the surface of the material is convenient to clean, and the resin composition material is convenient to spray;

2. according to the invention, the glass fiber is added into the resin composition, and during spraying operation, the glass fiber mesh cloth is used as the lining of the film, so that the flexibility of the wear-resistant film is improved, the warp and weft high tensile resistance is improved, the tear resistance of the wear-resistant film is not less than 17MPa, the tear resistance of the wear-resistant film is strong, the service life of the wear-resistant film is further prolonged, the lubrication degree of the surface of the wear-resistant film is very high, the friction coefficient of the surface of the material is reduced, the tear resistance of the wear-resistant film is further improved, and the protection time of the surface of the metal and inorganic non-metal material is prolonged.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the attached tables in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The invention provides an abrasion-resistant method for coating on the surfaces of metal and inorganic non-metallic materials, which comprises a novel abrasion-resistant resin coating composition for the surfaces of metal and inorganic non-metallic materials, wherein the used main materials comprise the following raw materials in parts by weight: 95 parts of polyurethane resin, 86 parts of organic silicon resin, 50 parts of high-density polyethylene, 23 parts of cycloethanone, 24 parts of dimethylbenzene, 40 parts of glass fiber mesh fabric, 20 parts of glass fiber, 2 parts of high polymer material adhesive, 5 parts of titanium dioxide and 6 parts of talcum powder;

the high polymer material adhesive is polyvinyl alcohol adhesive, and the granularity of the titanium dioxide and the talcum powder is set to be below 80 mu m;

the method specifically comprises the following operation steps:

the method comprises the following steps: weighing polyurethane resin, high-density polyethylene, cycloethanone and xylene, putting into a reaction kettle, melting, and uniformly mixing;

step two: weighing glass fiber and a high polymer material adhesive, adding into a reaction kettle, and uniformly stirring and mixing;

step three: weighing titanium dioxide and talcum powder, drying in drying equipment, filtering by using fine selection equipment, and standing the dried and fine-selected titanium dioxide and talcum powder for later use;

step four: putting the obtained titanium dioxide and talcum powder into a reaction kettle, and uniformly stirring at a high speed to obtain a resin coating composition;

step five: selecting metal and inorganic non-metal material products needing surface abrasion-resistant treatment, firstly washing with water, and wiping water stains off, and then wiping and cleaning the material surface with acetone;

step six: selecting glass fiber mesh cloth, flatly paving the glass fiber mesh cloth on the surface of the material, and cutting the part of the glass fiber mesh cloth extending out of the surface of the material;

step seven: putting the resin coating composition into spraying equipment, heating and melting, and uniformly spraying the surface of the material;

step eight: standing and cooling the material sprayed with the resin coating composition, and forming an anti-wear film on the surface of the material after the resin coating composition is naturally cooled and solidified, so as to finish the anti-wear treatment on the surface of the material;

and in the first step, the reaction kettle is melted, and the polyurethane resin, the high-density polyethylene, the cycloethanone and the dimethylbenzene are uniformly mixed and stirred at the temperature of 60 ℃, wherein the mixing and stirring time is set to be 15 min.

And in the second step, the temperature of the reaction kettle is increased to 130 ℃, and the temperature of the reaction kettle is reduced, the mixture in the first step is uniformly mixed and stirred with the glass fiber and the high polymer material adhesive, and the mixing and stirring time is set to be 30 min.

In the third step, the drying temperature of the titanium dioxide and the talcum powder is 110 ℃, and the titanium dioxide and the talcum powder are completely dried.

And the spraying composition uniformly sprayed in the seventh step completely covers the glass fiber mesh cloth arranged in the sixth step, and the spraying thickness of the resin spraying composition is 2 mm.

Example 2

The invention provides an abrasion-resistant method for coating on the surfaces of metal and inorganic non-metallic materials, which comprises a novel abrasion-resistant resin coating composition for the surfaces of metal and inorganic non-metallic materials, wherein the used main materials comprise the following raw materials in parts by weight: 97.5 parts of polyurethane resin, 89 parts of organic silicon resin, 52 parts of high-density polyethylene, 24.5 parts of cycloethanone, 25 parts of dimethylbenzene, 43 parts of glass fiber mesh cloth, 22.5 parts of glass fiber, 3.5 parts of high polymer material adhesive, 6 parts of titanium dioxide and 7 parts of talcum powder;

the high polymer material adhesive is polyvinyl alcohol adhesive, and the granularity of the titanium dioxide and the talcum powder is set to be below 80 mu m;

the method specifically comprises the following operation steps:

the method comprises the following steps: weighing polyurethane resin, high-density polyethylene, cycloethanone and xylene, putting into a reaction kettle, melting, and uniformly mixing;

step two: weighing glass fiber and a high polymer material adhesive, adding into a reaction kettle, and uniformly stirring and mixing;

step three: weighing titanium dioxide and talcum powder, drying in drying equipment, filtering by using fine selection equipment, and standing the dried and fine-selected titanium dioxide and talcum powder for later use;

step four: putting the obtained titanium dioxide and talcum powder into a reaction kettle, and uniformly stirring at a high speed to obtain a resin coating composition;

step five: selecting metal and inorganic non-metal material products needing surface abrasion-resistant treatment, firstly washing with water, and wiping water stains off, and then wiping and cleaning the material surface with acetone;

step six: selecting glass fiber mesh cloth, flatly paving the glass fiber mesh cloth on the surface of the material, and cutting the part of the glass fiber mesh cloth extending out of the surface of the material;

step seven: putting the resin coating composition into spraying equipment, heating and melting, and uniformly spraying the surface of the material;

step eight: standing and cooling the material sprayed with the resin coating composition, and forming an anti-wear film on the surface of the material after the resin coating composition is naturally cooled and solidified, so as to finish the anti-wear treatment on the surface of the material;

and in the first step, the reaction kettle is melted, and the polyurethane resin, the high-density polyethylene, the cycloethanone and the dimethylbenzene are uniformly mixed and stirred at the temperature of 75 ℃, wherein the mixing and stirring time is set to be 15 min.

And in the second step, the temperature of the reaction kettle is increased to 135 ℃, and the temperature of the reaction kettle is reduced, the mixture in the first step is uniformly mixed and stirred with the glass fiber and the high polymer material adhesive, and the mixing and stirring time is set to be 30 min.

In the third step, the drying temperature of the titanium dioxide and the talcum powder is 110 ℃, and the titanium dioxide and the talcum powder are completely dried.

And the spraying composition uniformly sprayed in the seventh step completely covers the glass fiber mesh cloth arranged in the sixth step, and the spraying thickness of the resin spraying composition is 2 mm.

Example 3

The invention provides an abrasion-resistant method for coating on the surfaces of metal and inorganic non-metallic materials, which comprises a novel abrasion-resistant resin coating composition for the surfaces of metal and inorganic non-metallic materials, wherein the used main materials comprise the following raw materials in parts by weight: 100 parts of polyurethane resin, 92 parts of organic silicon resin, 54 parts of high-density polyethylene, 26 parts of cycloethanone, 27 parts of xylene, 46 parts of glass fiber mesh cloth, 25 parts of glass fiber, 5 parts of high polymer material adhesive, 7 parts of titanium dioxide and 8 parts of talcum powder;

the high polymer material adhesive is polyvinyl alcohol adhesive, and the granularity of the titanium dioxide and the talcum powder is set to be below 80 mu m;

the method specifically comprises the following operation steps:

the method comprises the following steps: weighing polyurethane resin, high-density polyethylene, cycloethanone and xylene, putting into a reaction kettle, melting, and uniformly mixing;

step two: weighing glass fiber and a high polymer material adhesive, adding into a reaction kettle, and uniformly stirring and mixing;

step three: weighing titanium dioxide and talcum powder, drying in drying equipment, filtering by using fine selection equipment, and standing the dried and fine-selected titanium dioxide and talcum powder for later use;

step four: putting the obtained titanium dioxide and talcum powder into a reaction kettle, and uniformly stirring at a high speed to obtain a resin coating composition;

step five: selecting metal and inorganic non-metal material products needing surface abrasion-resistant treatment, firstly washing with water, and wiping water stains off, and then wiping and cleaning the material surface with acetone;

step six: selecting glass fiber mesh cloth, flatly paving the glass fiber mesh cloth on the surface of the material, and cutting the part of the glass fiber mesh cloth extending out of the surface of the material;

step seven: putting the resin coating composition into spraying equipment, heating and melting, and uniformly spraying the surface of the material;

step eight: standing and cooling the material sprayed with the resin coating composition, and forming an anti-wear film on the surface of the material after the resin coating composition is naturally cooled and solidified, so as to finish the anti-wear treatment on the surface of the material;

and in the first step, the reaction kettle is melted, and the polyurethane resin, the high-density polyethylene, the cycloethanone and the dimethylbenzene are uniformly mixed and stirred at the temperature of 85 ℃, wherein the mixing and stirring time is set to be 15 min.

And in the second step, the temperature of the reaction kettle is increased to 140 ℃, and the temperature of the reaction kettle is reduced, the mixture in the first step is uniformly mixed and stirred with the glass fiber and the high polymer material adhesive, and the mixing and stirring time is set to be 30 min.

In the third step, the drying temperature of the titanium dioxide and the talcum powder is 110 ℃, and the titanium dioxide and the talcum powder are completely dried.

And the spraying composition uniformly sprayed in the seventh step completely covers the glass fiber mesh cloth arranged in the sixth step, and the spraying thickness of the resin spraying composition is 2 mm.

Example 4:

the materials coated with the abrasion-resistant film obtained in examples 1 to 3 were tested to obtain the following data:

	whether the surface of the material has obvious abrasion or not in 30min of continuous sand paper polishing test	Tear resistance modulus (MPa)	Soiling resistance test conditions (manually spraying soil onto the surface of a Material sheet, after standing, manually wiping clean)
				Example 1	Is provided with	≥13	Stain removal is rapid, but with a small amount of stain it is difficult to wipe completely
Example 2	Is free of	≥17	The stain is removed quickly without stain adhesion
				Example 3	Is free of	≥15	Stain removal is rapid, but with a small amount of stain it is difficult to wipe completely

As can be seen from the above table, the raw materials in example 2 have a moderate mixing ratio, still have a protective effect on the surfaces of metal and inorganic non-metallic materials within a continuous friction time of 30min, and the glass fiber mesh cloth is used as the lining of the film, so that the flexibility of the wear-resistant film is improved, the tensile strength in the longitudinal and latitudinal directions is improved, the tear resistance of the wear-resistant film is improved, the service life of the anti-abrasion film is prolonged, the protection time of the surface of the metal and inorganic non-metallic materials is prolonged, the anti-abrasion capacity of the anti-abrasion film is more than or equal to 17MPa, the surface lubrication degree of the upper anti-abrasion film is high, the friction coefficient of the surface of the anti-abrasion film is further reduced, the wear resistance is higher, the high lubrication degree of the surface of the anti-abrasion film is high, stains are not easy to be prevented from being attached to the anti-abrasion film, the metal and inorganic non-metallic materials of the anti-abrasion film of the spraying head can be conveniently cleaned, and the use of the product is.

And finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (5)

1. A wear-resistant method for coating the surface of metal and inorganic non-metallic materials comprises a novel wear-resistant resin coating composition for the surface of metal and inorganic non-metallic materials, and is characterized in that: the used main materials comprise the following raw materials in parts by weight: 95-100 parts of polyurethane resin, 86-92 parts of organic silicon resin, 50-54 parts of high-density polyethylene, 23-26 parts of cycloethanone, 24-27 parts of dimethylbenzene, 40-46 parts of glass fiber mesh cloth, 20-25 parts of glass fiber, 2-5 parts of high polymer material adhesive, 5-7 parts of titanium dioxide and 6-8 parts of talcum powder;

the high polymer material adhesive is polyvinyl alcohol adhesive, and the granularity of the titanium dioxide and the talcum powder is set to be below 80 mu m;

the method specifically comprises the following operation steps:

the method comprises the following steps: weighing polyurethane resin, high-density polyethylene, cycloethanone and xylene, putting into a reaction kettle, melting, and uniformly mixing;

step two: weighing glass fiber and a high polymer material adhesive, adding into a reaction kettle, and uniformly stirring and mixing;

step three: weighing titanium dioxide and talcum powder, drying in drying equipment, filtering by using fine selection equipment, and standing the dried and fine-selected titanium dioxide and talcum powder for later use;

step four: putting the obtained titanium dioxide and talcum powder into a reaction kettle, and uniformly stirring at a high speed to obtain a resin coating composition;

step five: selecting metal and inorganic non-metal material products needing surface abrasion-resistant treatment, firstly washing with water, and wiping water stains off, and then wiping and cleaning the material surface with acetone;

step six: selecting glass fiber mesh cloth, flatly paving the glass fiber mesh cloth on the surface of the material, and cutting the part of the glass fiber mesh cloth extending out of the surface of the material;

step seven: putting the resin coating composition into spraying equipment, heating and melting, and uniformly spraying the surface of the material;

step eight: and (3) standing and cooling the material sprayed with the resin coating composition, and forming an anti-wear film on the surface of the material after the resin coating composition is naturally cooled and solidified, so as to finish the anti-wear treatment of the surface of the material.

2. The method as claimed in claim 1, wherein the anti-wear coating is applied to the surface of the metallic and inorganic non-metallic materials, and the method comprises the following steps: and in the first step, the reaction kettle is melted, and the polyurethane resin, the high-density polyethylene, the cycloethanone and the dimethylbenzene are uniformly mixed and stirred at the temperature of 60-85 ℃, wherein the mixing and stirring time is set to be 15 min.

3. The method as claimed in claim 1, wherein the anti-wear coating is applied to the surface of the metallic and inorganic non-metallic materials, and the method comprises the following steps: and in the second step, the temperature of the reaction kettle is increased to 130-140 ℃, and the temperature of the reaction kettle is reduced, the mixture in the first step is uniformly mixed and stirred with the glass fiber and the high polymer material adhesive, and the mixing and stirring time is set to be 30 min.

4. The method as claimed in claim 1, wherein the anti-wear coating is applied to the surface of the metallic and inorganic non-metallic materials, and the method comprises the following steps: in the third step, the drying temperature of the titanium dioxide and the talcum powder is 110 ℃, and the titanium dioxide and the talcum powder are completely dried.

5. The method as claimed in claim 1, wherein the anti-wear coating is applied to the surface of the metallic and inorganic non-metallic materials, and the method comprises the following steps: and the spraying composition uniformly sprayed in the seventh step completely covers the glass fiber mesh cloth arranged in the sixth step.