CN108753162A - A kind of fluorine carbon-nano anti-pollution anti-scratch varnish and its preparation method and application - Google Patents

Abstract

The present invention provides a kind of fluorine carbon-nano anti-pollution anti-scratch varnish, count in parts by weight, including 30~60 parts of fluorocarbon resin, 30~60 parts of fluorine silicon resin, containing 10~20 parts of amino resins, 0~5 part of auxiliary agent, 2~10 parts of solvent.The fluorine carbon-nano anti-pollution anti-scratch varnish of the present invention has excellent gloss and hardness, and there is splendid effect at the anti-graffiti aspect of stain resistance, especially there is excellent anti-scratch performance, it can meet to the higher region of erasibility demand, expand the use scope of fluorocarbon varnish, the fluorine carbon-nano anti-pollution anti-scratch varnish also has preferable compatibility, it can be coated on routine PVDF fluororine-carbon coatings, and it has fabulous ply adhesion with conventional PVDF fluororine-carbon coatings, after baking-curing, neither sacrifice the weatherability and other traditional performances of script fluororine-carbon coating, more former coating provides excellent gloss and hardness.The present invention also provides a kind of preparation method and application of above-mentioned fluorine carbon-nano anti-pollution anti-scratch varnish.

Description

A kind of fluorine carbon-nano anti-pollution anti-scratch varnish and its preparation method and application

Technical field

The present invention relates to fluorocarbon varnish technical field more particularly to a kind of fluorine carbon-nano anti-pollution anti-scratch varnish and its preparation sides Method and application.

Background technology

With the development of social science and technology, coating products show high performance development trend.PVDF fluorocarbon coatings are as " painting The king of material " is favored by market always because of its excellent weatherability, but F-C paint coating hardness is low, gloss is mute, is easy contaminated And property easy to clean is bad, is easy to be scratched, and reduces the performance of F-C paint coating；Especially decorated using fluororine-carbon coating plank Build low layer or hall channel, the big place of flow of the people, coating is easily by contact to easy damaged and dirty.

In this regard, it is necessary to develop a kind of fluorine carbon-nano anti-pollution anti-scratch varnish to solve above-mentioned technical problem.

Invention content

An object of the present invention is to provide a kind of fluorine carbon-nano anti-pollution anti-scratch varnish, the fluorine carbon-nano anti-pollution anti-scratch varnish It is decorative good when being used for the coating of plank with excellent gloss and hardness；There is pole at the anti-graffiti aspect of stain resistance simultaneously Good effect especially has excellent anti-scratch performance, disclosure satisfy that the higher region of erasibility demand, it is clear to expand fluorine carbon The use scope of paint.

The second object of the present invention is to provide the preparation method of above-mentioned fluorine carbon-nano anti-pollution anti-scratch varnish.

The third object of the present invention is to provide application of the above-mentioned fluorine carbon-nano anti-pollution anti-scratch varnish in plank.

To achieve the above object, the present invention provides a kind of fluorine carbon-nano anti-pollution anti-scratch varnish, which is characterized in that by weight Number meter, including：

Wherein, fluorocarbon resin can be selected as 30 parts, 35 parts, 40 parts, 45 parts, 50 parts, 55 parts, 60 parts；Fluorine silicon resin can be with It is selected as 30 parts, 35 parts, 40 parts, 45 parts, 50 parts, 55 parts, 60 parts；It can be selected as 10 parts, 15 parts, 20 parts containing amino resins；Auxiliary agent It can be selected as 0 part, 1 part, 2 parts, 3 parts, 4 parts, 5 parts；Solvent can be selected as 2 parts, 4 parts, 6 parts, 8 parts, 10 parts.

Compared with prior art, fluorine carbon-nano anti-pollution anti-scratch varnish of the invention uses fluorocarbon resin and fluorine silicon resin conduct Matrix resin, cooperation is containing amino resins, auxiliary agent and solvent composition.Wherein, it is C-F using the primary structure of fluorocarbon resin, F is in member In plain periodic table, electronegativity is most strong, and C-F keys are extremely short, and bond energy is up to 486KT/mol, it is difficult to by heat, light and chemical factor It destroys, obtained fluorine carbon-nano anti-pollution anti-scratch varnish has anti-scratch performance；Fluorine silicon resin refers generally to nano fluorine-silicon resin, also known as fluorine Silicon copolymer resins, nano fluorine-silicon resin have both the characteristic of fluorocarbon resin and organic siliconresin, and organic siliconresin hardness is high, decorative Good, fluorination rear surface can be reduced greatly, there is splendid reprimand oiliness (anti-stickiness) and repellency (anti-pollution)；By containing ammonia Base resin and fluorocarbon resin and fluorine silicon resin carry out crosslinking film forming, due to the functional group of amino and fluorocarbon resin and fluorine silicon resin into Row reaction, while polycondensation reaction can also occur between molecule containing amino resins, therefore can make the film that there is three-dimensional (solid) netted knot Structure possesses excellent compactness, i.e. anti-scratch performance.Therefore the fluorine carbon-nano anti-pollution anti-scratch varnish of gained is with excellent gloss and firmly Degree, and have splendid effect at the anti-graffiti aspect of stain resistance, especially there is excellent anti-scratch performance, disclosure satisfy that anti-scratch The property higher region of demand, expands the use scope of fluorocarbon varnish.

Preferably, the present invention containing amino resins be selected from melamine formaldehyde resin, benzoguanamine formaldehyde resin and Any one or more in hexamethoxymethyl melamine, it is highly preferred that at least trimerization of methyl containing hexakis-methoxy containing amino resins Cyanamide, the film not softened can be generated by carrying out cross-linking reaction using hexamethoxymethyl melamine and fluorocarbon resin and fluorine silicon resin, Keep the anti-scratch performance of fluorine carbon-nano anti-pollution anti-scratch varnish more excellent.

Preferably, the solid content containing hydroxyl is 50~80% in fluorine silicon resin, since amino can be with the hydroxyl of fluorine silicon resin Base is reacted, and the solid content of hydroxyl has an impact the compactness of film, therefore, selects proper amount of hydroxyl extremely important, is passed through Experiment, it is preferably 50~80% that fluorine silicon resin, which is the solid content containing hydroxyl, in the application, for example, 50%, 60%, 70%, 80%, anti-scratch performance is preferable.

Preferably, the one kind of solvent in ethyl acetate, butyl acetate, propylene glycol methyl ether acetate and nylon acid methyl esters Or it is a variety of.There is positive effect to the luster performance of fluorine carbon-nano anti-pollution anti-scratch varnish using esters solvent, gloss is beautiful, can get The effect of good decorative property.

Preferably, the auxiliary agent of the present invention is levelling agent, levelling agent is selected from polyether polyester azo polyether polyeste, dimethyl-silicon One kind in oxygen alkane and fluorine richness polyacrylate.More preferably levelling agent selects fluorine richness polyacrylate, which contains Fluorine can generate certain effect with fluorocarbon resin and fluorine silicon resin, improve coating effect so that coating surface flatness is good.

Preferably, the auxiliary agent of the present invention is ethers antifoaming agent, ethers antifoaming agent is selected from polyoxyethylene polyoxypropylene Ji Wusi Alcohol ether, polyoxyethylene polyoxy propyl alcohol amidogen ether, polypropylene glycerol aether and one kind or more in polyoxyethylene polyoxypropylene glycerin ether Kind.The introducing of ethers antifoaming agent can make fluorine carbon-nano anti-pollution anti-scratch varnish have good diffusivity and adhesive force.

The present invention also provides a kind of preparation methods of fluorine carbon-nano anti-pollution anti-scratch varnish, including：

1) fluorocarbon resin and fluorine silicon resin is added according to proportioning in the reaction vessel and is stirred；

2) it sequentially adds containing amino resins and auxiliary agent, and stirs evenly during stirring；

3) solvent of recipe ratio is added in the reaction vessel, and stirred evenly.

The present invention also provides a kind of application of above-mentioned fluorine carbon-nano anti-pollution anti-scratch varnish in plank.The fluorine carbon of the present invention Nanometer anti-pollution anti-scratch varnish can be coated on routine PVDF fluororine-carbon coatings, meanwhile, fluorine carbon-nano anti-pollution anti-scratch of the invention is clear Paint has a fabulous ply adhesion with routine PVDF fluororine-carbon coatings, and after baking-curing, neither sacrifice script fluororine-carbon coating is resistance to It waits and other traditional performances, more former coating provides excellent gloss and hardness, therefore, compatibility is very good.Fluorine carbon-nano Anti-pollution anti-scratch varnish can also be individually coated on plank, to adapt to the demand in a variety of regions.It is particularly suitable for both in weather-proof side Face has higher requirements, and to the anti-graffiti region for having demand of stain resistance.

Specific implementation mode

The technical solution further illustrated the present invention below by specific implementation mode, but do not constitute and the present invention is appointed What is limited.

Embodiment 1

The fluorine carbon-nano anti-pollution anti-scratch varnish of the present embodiment, is counted in parts by weight, including：

The method that fluorine carbon-nano anti-pollution anti-scratch varnish is prepared using above-mentioned composition, including：

1) 60 parts of 30 parts of fluorocarbon resin and fluorine silicon resin are added in the reaction vessel and is stirred, the rotating speed of stirring is 800r/min；

2) 10 parts of melamine formaldehyde resin is added during stirring, and stirs evenly；

3) by ethyl acetate 2 parts be added in reaction vessel, adjust suitable viscosity, and stir evenly, you can obtain fluorine Carbon nanometer anti-pollution anti-scratch varnish.

Embodiment 2

The fluorine carbon-nano anti-pollution anti-scratch varnish of the present embodiment, is counted in parts by weight, including：

The method that fluorine carbon-nano anti-pollution anti-scratch varnish is prepared using above-mentioned composition, including：

1) 40 parts of 40 parts of fluorocarbon resin and fluorine silicon resin are added in the reaction vessel and is stirred, the rotating speed of stirring is 800r/min；

2) sequentially added during stirring 13.5 parts of benzoguanamine formaldehyde resin, 0.5 part of dimethyl siloxane, 0.5 part of polyoxyethylene polyoxy propyl alcohol amidogen ether, and stir evenly；

3) by ethyl acetate 5.5 parts be added in reaction vessel, adjust suitable viscosity, and stir evenly, you can obtain Fluorine carbon-nano anti-pollution anti-scratch varnish.

Embodiment 3

The fluorine carbon-nano anti-pollution anti-scratch varnish of the present embodiment, is counted in parts by weight, including：

Wherein, the preparation method of the embodiment fluorine carbon-nano anti-pollution anti-scratch varnish is identical as the preparation method of embodiment 2, This does not elaborate.

Embodiment 4

The fluorine carbon-nano anti-pollution anti-scratch varnish of the present embodiment, is counted in parts by weight, including：

Wherein, the preparation method of the embodiment fluorine carbon-nano anti-pollution anti-scratch varnish is identical as the preparation method of embodiment 2, This does not elaborate.

Embodiment 5~7

The fluorine carbon-nano anti-pollution anti-scratch varnish of embodiment 5~7, is counted in parts by weight, including：

The wherein component of embodiment 5~7 and content all same, unlike：

In embodiment 5, fluorine silicon resin is that the solid content containing hydroxyl is 20%；

In embodiment 6, fluorine silicon resin is that the solid content containing hydroxyl is 60%；

In embodiment 7, fluorine silicon resin is that the solid content containing hydroxyl is 90%.

Wherein, the preparation method of the embodiment fluorine carbon-nano anti-pollution anti-scratch varnish is identical as the preparation method of embodiment 2, This does not elaborate.

Embodiment 8

The fluorine carbon-nano anti-pollution anti-scratch varnish of the present embodiment, is counted in parts by weight, including：

Wherein, the preparation method of the embodiment fluorine carbon-nano anti-pollution anti-scratch varnish is identical as the preparation method of embodiment 2, This does not elaborate.

Comparative example 1

The fluorine carbon-nano anti-pollution anti-scratch varnish of the comparative example, is counted in parts by weight, including：

Wherein, the preparation method of the comparative example fluorine carbon-nano anti-pollution anti-scratch varnish is identical as the preparation method of embodiment 2, This does not elaborate.

Comparative example 2

The fluorine carbon-nano anti-pollution anti-scratch varnish of this comparative example, is counted in parts by weight, including：

Wherein, the preparation method of the comparative example fluorine carbon-nano anti-pollution anti-scratch varnish is identical as the preparation method of embodiment 2, This does not elaborate.

Comparative example 3

The fluorine carbon-nano anti-pollution anti-scratch varnish of this comparative example, is counted in parts by weight, including：

Wherein, the preparation method of the comparative example fluorine carbon-nano anti-pollution anti-scratch varnish is identical as the preparation method of embodiment 2, This does not elaborate.

The fluorine carbon-nano anti-pollution anti-scratch varnish obtained to above-described embodiment 1~8 and comparative example 1~3 carries out resistance to MEK (first and second Ketone) rubbing test and anti-pollution test, test result such as table 1.

Wherein, the test method of resistance to MEK (methyl ethyl ketone) wiping is as follows：

On index finger and four layers of gauze of MEK solvents are impregnated with volume when test, with about 19.6~24.5N pressure to be measured Test product surface is moved forward and backward wiping, and round trip is at least 200mm, and wiping speed is about 100 times/min round-trip (past previous It is secondary, once can be regarded as round trip backward), until paint film destroys, record wiping number.

The test method of anti-pollution is as follows：

It is scribbled to fluorine carbon-nano anti-pollution anti-scratch enamelled coating using aqueous marking pen, sees whether markedness.

Table 1：Resistance to MEK (methyl ethyl ketone) wiping and anti-pollution test

	Resistance to MEK wipings	Anti-pollution is tested
			Embodiment 1	1100 times	Without mark
Embodiment 2	1120 times	Without mark
			Embodiment 3	1180 times	Without mark
Embodiment 4	1290 times	Without mark
			Embodiment 5	1080	Without mark
Embodiment 6	1110	Without mark
			Embodiment 7	1070	Without mark
Embodiment 8	1200	Without mark
			Comparative example 1	600	Markedness
Comparative example 2	530	Markedness
			Comparative example 3	360	Markedness

As can be known from Table 1, the resistance to wiping in Examples 1 to 8 and stain resistance antigraffiti properties be far superior to comparative example 1~ 3, the reason is that Examples 1 to 8 uses the synergistic effect of fluorocarbon resin and fluorine silicon resin, improve fluorine carbon-nano anti-pollution anti-scratch varnish Repellency, i.e. anti-pollution；Crosslinking film forming is carried out by with fluorocarbon resin and fluorine silicon resin again, due to amino and fluorocarbon resin It is reacted with the functional group of fluorine silicon resin, while polycondensation reaction occurs between molecule containing amino resins, make the film that there is three-dimensional (solid) reticular structure, possesses excellent compactness, i.e., resistance to wiping properties.

Compared with Example 2, the anti-scratch performance of fluorine carbon-nano anti-pollution anti-scratch varnish is more excellent in embodiment 4 for embodiment 4, be by Make for hexamethoxymethyl melamine containing amino resins in embodiment 4, hexamethoxymethyl melamine and fluorocarbon resin and fluorine Silicones, which carries out cross-linking reaction, can generate the film not softened, and keep the anti-scratch performance of fluorine carbon-nano anti-pollution anti-scratch varnish more excellent.

Embodiment 5~7 is compared, and the anti-scratch performance of fluorine carbon-nano anti-pollution anti-scratch varnish is more excellent in embodiment 6, it may be possible to due to Amino can be reacted with the hydroxyl of fluorine silicon resin, and the solid content of hydroxyl has an impact the compactness of film, it is therefore preferable that being fluorine silicon The solid content containing hydroxyl is 60% in resin.

Compared with Example 2, the anti-scratch performance of fluorine carbon-nano anti-pollution anti-scratch varnish is more excellent in embodiment 8 for embodiment 8, be by It is fluorine richness polyacrylate in levelling agent, the levelling agent is fluorine-containing, may generate certain effect with fluorocarbon resin and fluorine silicon resin, Improve coating effect so that coating surface flatness is good, has good effect to anti-scratch performance.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention rather than is protected to the present invention The limitation of range is protected, although the present invention is described in detail with reference to preferred embodiment, the invention is not limited in above Embodiments of the disclosure, and modification, equivalent combinations that various essence according to the present invention carry out should be covered.

Claims (10)

1. a kind of fluorine carbon-nano anti-pollution anti-scratch varnish, which is characterized in that it counts in parts by weight, including：

2. fluorine carbon-nano anti-pollution anti-scratch varnish as described in claim 1, which is characterized in that described to be selected from trimerization containing amino resins Any one or more in cyanogen amine-formaldehyde resin, benzoguanamine formaldehyde resin and hexamethoxymethyl melamine.

3. fluorine carbon-nano anti-pollution anti-scratch varnish as described in claim 1, which is characterized in that contain hydroxyl in the fluorine silicon resin Solid content be 50~80%.

4. fluorine carbon-nano anti-pollution anti-scratch varnish as described in claim 1, which is characterized in that the solvent selects ethyl acetate, second It is one or more in acid butyl ester, propylene glycol methyl ether acetate and nylon acid methyl esters.

5. fluorine carbon-nano anti-pollution anti-scratch varnish as described in claim 1, which is characterized in that the auxiliary agent is levelling agent.

6. fluorine carbon-nano anti-pollution anti-scratch varnish as claimed in claim 5, which is characterized in that the levelling agent is selected from polyether polyester It is one or more in azo polyether polyeste, dimethyl siloxane and fluorine richness polyacrylate.

7. fluorine carbon-nano anti-pollution anti-scratch varnish as described in claim 1, which is characterized in that the auxiliary agent is ethers antifoaming agent.

8. fluorine carbon-nano anti-pollution anti-scratch varnish as claimed in claim 7, which is characterized in that the ethers antifoaming agent is selected from polyoxy Ethylene polyoxypropylene pentaerythrite ether, polyoxyethylene polyoxy propyl alcohol amidogen ether, polypropylene glycerol aether and polyoxyethylene polyoxypropylene It is one or more in glycerin ether.

9. a kind of application of the fluorine carbon-nano anti-pollution anti-scratch varnish in plank as described in claim 1~8 any one.

10. the preparation method of the fluorine carbon-nano anti-pollution anti-scratch varnish as described in claim 1~8 any one, which is characterized in that Including：

1) fluorocarbon resin and fluorine silicon resin is added according to proportioning in the reaction vessel and is stirred；

2) it sequentially adds containing amino resins and auxiliary agent, and stirs evenly during stirring；

3) solvent of recipe ratio is added in the reaction vessel, and stirred evenly.