JP2002126640A - Method for forming coating film, coating film, and waterbase coating material composition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for forming a coating film suitable for use in a three-wet one-bake coating method which aims at the shortening of a coating process, cost saving and diminution in influence on the environmental and capable of forming a multilayer coating film free of yellowing and having excellent appearance. SOLUTION: The method for forming a coating film includes a step (1) for coating the top of a body to be coated with a waterbase coating material to form a coating film and a step (4) for curing the coating film by heating. The waterbase coating material contains a dispersion prepared by dispersing a component containing a solvent type thermosetting resin in water with a nonionic dispersant and/or a cationic dispersant.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for forming a coating film using an aqueous paint, and more particularly, to a coating film forming method capable of preventing yellowing and obtaining a coating film having excellent appearance. A method and a coating film obtained thereby, and
The present invention relates to an aqueous coating composition that can be suitably used in the above-mentioned coating film forming method.

[0002]

2. Description of the Related Art In recent years, in the field of paints, especially in the field of automotive coatings, water-based paints have attracted attention in order to solve the problem of reducing environmental load (VOC, etc.). Aqueous paints are generally coated film-forming resins that incorporate hydrophilic functional groups such as anionic functional groups and cationic functional groups in the resin, or film-forming resins that do not have these hydrophilic functional groups. A mixture of a resin and a film-forming resin incorporating these hydrophilic functional groups in the resin, in a hydrophilic solvent such as water or alcohol, made water-soluble, water-dispersed or emulsified. is there.

Among these, a film-forming resin in which a hydrophilic functional group such as an anionic functional group or a cationic functional group is incorporated in a resin, a film-forming resin having no hydrophilic functional group, and a film-forming resin having no hydrophilic functional group. An aqueous coating obtained by dispersing in water a mixture of a film-forming resin having a hydrophilic functional group incorporated in the resin and a polymerizable monomer having an anionic functional group or a cationic functional group is used. The resin obtained is prepared by adding a neutralizing agent such as an amine and water and dispersing in water. As described above, the water-based paint containing the film-forming resin which is water-dispersed using a neutralizing agent such as an amine has a problem that the obtained multilayer coating film turns yellow.

On the other hand, in the conventional automobile coating finishing procedure, a three-coat three-bake coating method in which an electrodeposition coating film, an intermediate coating film, and a top coating film are baked after each coating has been performed. After baking the electrodeposition coating film after electrodeposition coating, three coating processes of intermediate coating, base coating and clear coating are performed on the coating by wet-on-wet, and these three wet coatings are baked collectively. Attempts have also been made to reduce the number of baking steps with a coating system to save resources and save energy. However, the problem that the above-mentioned multilayer coating film yellows,
It was more pronounced in the three-wet coating system.

[0005]

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for forming a coating film which can be suitably used in a three-wet coating system aiming at shortening the coating process, reducing costs and reducing the environmental burden. An object of the present invention is to provide a method for forming a coating film capable of forming a multilayer coating film having an excellent appearance without any problem.

[0006]

The present invention comprises a step (1) of applying a water-based paint on an object to be coated to form a coating film, and a step (4) of heating and curing the coating film. A coating film forming method, wherein the water-based paint contains a component containing a solvent-type thermosetting resin and is dispersed in water with a nonionic dispersant and / or a cationic dispersant. This is a method for forming a coating film. Hereinafter, the present invention will be described in more detail.

[0007] The coating film forming method of the present invention comprises:
Step (1) of applying a water-based paint to form a coating film, and
Including a step (4) of heating and curing the coating film.
You.Process (1)  In the above step (1), a water-based paint is applied on an object to be coated.
It forms a coating film.

The water-based paint can be obtained by dispersing a component containing a solvent-type thermosetting resin in a hydrophilic medium such as water or alcohol. Examples of the water-based paint include an intermediate paint. The intermediate coating is applied to conceal the base, secure the surface smoothness after the top coating (improve the appearance), and impart the coating properties such as impact resistance and chipping resistance.

The component containing the solvent-type thermosetting resin is one which is dispersed in water by a nonionic dispersant and / or a cationic dispersant. When a water-based paint containing an anionic dispersant is applied, a basic substance such as an amine present as a counter ion of the anionic functional group is contained in the coating film. In the above, the basic substance causes a chemical change or a color-forming substance is formed, and the coating film turns yellow. In particular, when the upper coating film such as a clear coating film is overcoated, the volatile substances that are volatilized are trapped inside the upper coating film, and the upper coating film also turns yellow. Is reduced.

In the present invention, the above-mentioned yellowing of the coating film is suppressed by using a nonionic dispersant and / or a cationic dispersant for dispersing the component containing the solvent type thermosetting resin in water. can do. That is, when a nonionic dispersant having a nonionic functional group is used, the nonionic functional group does not need to form a salt with an amine or the like, so that a volatile basic substance does not exist as a counter ion, No yellowing of the coating occurs. When using a cationic dispersant having a cationic functional group, -COO present as a counter ion of the cationic functional group ^- anion having an acidic group such as will not cause yellowing of the paint film.

The nonionic dispersant and the cationic dispersant are not particularly limited as long as they can disperse a component containing a solvent-type thermosetting resin in water, and include a surfactant and a dispersing resin. . The nonionic dispersant and the cationic dispersant may be any one having a structure including a portion having affinity for a component including a solvent-type thermosetting resin and a hydrophilic group, and a surfactant and a dispersing resin. Need not be strictly distinguished.

Although the nonionic dispersant has a nonionic hydrophilic group, the present invention does not exclude those having a cationic functional group in the molecule. The nonionic dispersant is not particularly limited and includes, for example, polyoxyalkylene alkyl ethers such as polyoxyethylene lauryl ether, polyoxyethylene oleyl ether, and polyoxyethylene stearyl ether; polyoxyethylene alkyl phenyl ether;
Sorbitan polyoxyalkylene ethers and / or fatty acid esters such as polyoxyethylene sorbitan stearate; oxyalkylene copolymers such as oxyethylene oxypropylene block copolymers; glycerin polyoxyalkylene ethers such as polyoxyethylene glyceride and / or Fatty acid esters and the like can be mentioned. Among them, polyoxyalkylene alkyl ethers are preferable, and polyoxyethylene lauryl ether, polyoxyethylene oleyl ether, and polyoxyethylene stearyl ether are more preferable.

As the nonionic dispersant, commercially available nonionic surfactants can be used. Examples of the commercially available products include Newcol 1120 and Newcol 1820 (all manufactured by Nippon Emulsifier Co., Ltd.). be able to. As the nonionic dispersant, for example,
A nonionic dispersion resin having a nonionic functional group such as a hydroxyl group, an oxyethylene group, or an amide group introduced into the resin can also be used.

The above-mentioned cationic dispersant has a cationic functional group which is ionized in water to become an organic cation. In the present invention, a cationic dispersant which further has a nonionic functional group in the molecule is excluded. Not something. The cationic dispersant may have a counter ion. Examples of the counter ion include inorganic acids such as hydrochloric acid, nitric acid, and phosphoric acid; formic acid, acetic acid, lactic acid, sulfamic acid, and acetylglycinic acid. And those derived from organic acids.

The cationic dispersant is not particularly restricted but includes, for example, alkyltrimethylammonium chloride; polyoxyethylene alkylamine and the like. Commercially available cationic surfactants can also be used as the cationic dispersant. Examples of the commercially available products include ADEKAMIN 4MAC-30 and ADEKAMIN LDM (all manufactured by Asahi Denka Co., Ltd.). .

As the above cationic dispersant, for example, a cationic dispersing resin into which a cationic functional group such as an amino group, an imino group or a hydrazino group has been introduced can also be used.

When a surfactant is used as the nonionic and cationic dispersants, the hydrophilic-lipophilic balance (HL
B) is preferably 6 or more. If it is less than 6,
In some cases, the hydrophilicity is too low, and the component containing the solvent-type thermosetting resin cannot be sufficiently dispersed. More preferably, it is 12 or more.

When a dispersing resin is used as the nonionic or cationic dispersing agent, the number average molecular weight is 400 to 2
0000 is preferred. If it is less than 400,
In some cases, the dispersion of the component containing the solvent-type thermosetting resin becomes insufficient, and if it exceeds 20,000, the fluidity of the obtained resin solution is reduced, and handling may be difficult. More preferably, it is 600 to 10,000.

The nonionic and cationic dispersants may be used alone or in combination of two or more.
These may be used in combination. The content of the nonionic dispersant and / or the cationic dispersant is determined based on the components including the solvent-type thermosetting resin and the nonionic dispersant and / or the cationic dispersant.
Alternatively, the content is preferably 2 to 50% by weight based on the solid content based on the total amount of the cationic dispersant. 2% by weight
If less than, the dispersion of the component containing the solvent-type thermosetting resin becomes insufficient, and the dispersion stability may be reduced,
If it exceeds 50% by weight, the physical properties of the resulting coating film may be reduced. More preferably, it is 2 to 40% by weight.

In the present specification, the component containing the solvent-type thermosetting resin is not particularly limited as long as it is water-dispersible with the above-mentioned nonionic dispersant and / or cationic dispersant. In addition to the curable resin, for example, a curing agent and / or a pigment can be included. The solvent-type thermosetting resin is not particularly limited, and examples thereof include an acrylic resin; a polyester resin; an alkyd resin;
Modified alkyd resins such as rosin-modified and phenolic resins; polyurethane resins; olefin resins; ether resins and other resins used in ordinary solvent-based paints, and one or more of these may be used. Can be. Of these, polyester resins are preferred from the viewpoints of water resistance and weather resistance.

The solvent type thermosetting resin preferably has a number average molecular weight of 1,000 to 30,000. 100
If it is less than 0, physical properties such as solvent resistance of the cured coating film may be inferior, and if it exceeds 30,000, since the viscosity of the resin solution is high, it is difficult to handle in operation such as emulsification and dispersion of the obtained resin. Not only that, the appearance of the resulting coating film may be significantly reduced. More preferably, 1500 to
15,000.

The above-mentioned solvent type thermosetting resin has an acid value of 3 to 1.
It is preferably 00 (mgKOH / g resin). 3
If it is less than 1, the coating film adhesion is poor and curing may be poor. If it exceeds 100, it may be difficult to emulsify when it is made into an aqueous dispersion and may gel, and the hydrophilicity is high. This may result in poor water resistance of the coating film. More preferably, it is 5 to 70.

The solvent type thermosetting resin has a hydroxyl value of 2
It is preferably from 300 to 300. If it is less than 2, poor curing may occur. If it exceeds 300, excess hydroxyl groups may remain in the cured coating film, resulting in poor water resistance. More preferably, it is 40 to 250.

The method for producing the above-mentioned solvent-type thermosetting resin is not particularly limited, and can be appropriately selected depending on the kind and properties of the intended aqueous paint. For example, a melt polymerization method, a transesterification method Conventionally known production methods such as an interfacial polymerization method and a solution polymerization method can be used.

The curing agent is not particularly limited, and for example, those usually used for a solvent-type thermosetting resin can be used, and examples thereof include an amino resin and a blocked isocyanate resin. From the viewpoint of pigment dispersibility and workability, a combination of an acrylic resin and / or a polyester resin with a melamine resin is preferred. One or more of the above curing agents can be used. The curing agent is
An amount usually used can be blended with the resin solid content of the solvent-type thermosetting resin. The curing agent, together with the solvent-type thermosetting resin, may be dispersed in water with a nonionic dispersant and / or a cationic dispersant and blended in an aqueous paint, or when a water-soluble curing agent is used. Can be blended as it is.

The water-based paint may contain a pigment, if necessary. In the present invention, the pigment together with the solvent-type thermosetting resin and, if necessary, the curing agent can be dispersed in water by the nonionic dispersant and / or the cationic dispersant. In addition, an aqueous pigment paste obtained by separately dispersing the above pigment using a pigment dispersing resin is obtained by dispersing a component containing a solvent-type thermosetting resin in water with the above nonionic dispersant and / or cationic dispersant. Can be further mixed into an aqueous medium containing As the pigment-dispersed resin, those generally used can be used.

The above-mentioned pigments are not particularly restricted but include those usually used in paints, such as azochelate pigments, insoluble azo pigments, condensed azo pigments, phthalocyanine pigments, indigo pigments, perinone pigments and perylene pigments. Organic pigments such as pigments, dioxane pigments, quinacridone pigments, isoindolinone pigments, and metal complex pigments; graphite, yellow iron oxide, red iron oxide, carbon black,
And inorganic color pigments such as titanium dioxide. As the above-mentioned pigment, extenders such as calcium carbonate, barium sulfate, clay and talc may be used. One or more of the above pigments can be used, and one or a combination of two or more of the coloring pigment and the extender can be used.

When the water-based paint is an intermediate paint, for example, a standard gray intermediate paint using carbon black and titanium dioxide as main pigments as the pigment, or a top paint and lightness can be used. Alternatively, a so-called color intermediate coating which is a combination of set gray having various hues or various color pigments may be used.

The pigment concentration (PWC) in the water-based paint is
Generally, it is 10 to 70% by weight. If it exceeds 70% by weight, the appearance of the coating film may be deteriorated. Additive components such as an ultraviolet absorber, an antioxidant, an antifoaming agent, a surface conditioner, and an anti-bake agent can be further added to the water-based paint. The aqueous coating composition thus obtained is also within the scope of the present invention.

In the above step (1), the water-based paint obtained as described above is applied on an object to be coated to form a coating film. In the above step (1), the method of forming a coating film by applying a water-based paint on an object to be coated is not particularly limited, and examples thereof include a roll coater, dip coating, spray coating, brush coating, and electrostatic coating. Conventionally known coating methods can be used, of which electrostatic coating is preferred.

The above-mentioned electrostatic coating is performed, for example, by an air electrostatic spray commonly called “react gun”; commonly called “micro-micro (μμ) bell”, “micro (μ) bell”,
It can be carried out by using a rotary atomizing type electrostatic coating machine called "Metabell" or the like, and preferably, a method using a rotary atomizing type electrostatic coating machine or the like can be used. For coating a vehicle body such as an automobile body, for example, the above-described electrostatic coating method can be suitably used.

The dry film thickness of the coating film obtained in the above step (1) can be appropriately selected depending on the type and use of the water-based paint to be used. It is preferably from 40 μm to 40 μm. 5μ
If it is less than m, the base may not be concealed and the film may be cut off. If it exceeds 40 μm, the sharpness may be deteriorated, or defects such as unevenness and flow may occur during coating.

The object to be coated is not particularly limited, but when the method of forming a coating film of the present invention is applied to, for example, vehicle coating, a substrate coated with electrodeposition is coated from the viewpoint of corrosion protection and the like. It is preferable to use it as a product. The material for the electrodeposition coating is not particularly limited, and examples thereof include iron, copper, aluminum, tin, and zinc; and alloys and castings containing these metals. Specific examples include automobile bodies and parts such as passenger cars, trucks, motorcycles, and buses. It is particularly preferable that these metals have been subjected to a chemical conversion treatment with a phosphate, a chromate or the like before the electrodeposition coating is performed.

The electrodeposition paint used for the electrodeposition coating is not particularly limited, and for example, conventionally known cationic and anion type electrodeposition coatings can be used. A cationic electrodeposition coating is preferred because a coating having excellent anticorrosion properties can be obtained.

After the above step (1), a step of applying another paint to form a coating film on the coating film formed by applying the aqueous paint in the above step (1) may be performed. The coating film formed in the above-mentioned step (1) is a case where the above-mentioned other coating material is not applied again, that is, the coating film formed in the above-mentioned step (1) is the final coating in the coating film forming system according to the present invention. When it becomes a film, it is an uncured coating film.

The coating film formed in the above step (1) may be an uncured coating film or a heat-cured coating film when the above-mentioned other coating material is applied on top of the other coating material. Often, the above-mentioned other paint can be applied over any of these coating films. In the case where the other paint is applied over the coating film formed in the above step (1), the finish appearance of the coating film is often excellent, so the above step (1)
It is preferable to apply heat curing or preheating to the coating film formed in the above.

Other paints that can be applied on the coating film formed in the above step (1) are not particularly limited, and include, for example, water-based paints, organic solvent-based paints, non-aqueous dispersion-type paints, and powders. Body paints and the like.
Species or two or more can be used. Examples of the other paint include a base paint and a clear paint.

Examples of the base paint include an aqueous color base paint, an aqueous metallic base paint, and an aqueous solid base paint. The above-mentioned various water-based paints are mainly applied to impart and maintain aesthetics and design properties such as color and glitter to the paint film.

The base paint is not particularly limited.
For example, those composed of a film-forming resin, a curing agent, a pigment and other additives can be mentioned. The film-forming resin is not particularly limited, for example, acrylic resin, polyester resin, alkyd resin, epoxy resin,
Urethane resins and the like, which are amino resins and / or
Alternatively, it is used in combination with a curing agent such as a blocked isocyanate resin. From the viewpoint of pigment dispersibility and workability, a combination of an acrylic resin and / or a polyester resin with a melamine resin is preferred.

When an aqueous coating is used as the above base coating, a composition in which a component containing a solvent-type thermosetting resin is dispersed in water with a nonionic dispersant and / or a cationic dispersant may be used. The above-mentioned thing can be mentioned as what disperse | distributed the component containing a solvent type thermosetting resin in water with the said nonionic dispersant and / or cationic dispersant.

The above base paint can be used as a metallic base paint by adding a glittering pigment, or by blending a coloring pigment such as red, blue or black and / or an extender pigment without blending the glittering pigment. Can be used as a solid base paint. The glitter pigment is not particularly limited, for example, an uncolored or colored metallic glitter material such as a metal or an alloy and a mixture thereof,
Examples include interference mica powder, colored mica powder, white mica powder, graphite, and colorless colored flat pigments.

The pigment concentration (PWC) of the bright pigment in the base paint is generally 23% by weight or less. When the content exceeds 23% by weight, the appearance of the coating film is deteriorated. Preferably, 0.
0.01 to 20% by weight, more preferably 0.01 to 20% by weight.
18% by weight.

As the pigments other than the above-mentioned brilliant pigments, the coloring pigments and extenders described in the above-mentioned aqueous paints can be used. As the pigment, one or a combination of two or more of a brilliant pigment, a coloring pigment, and an extender can be used. The pigment concentration (P) in the base paint including the bright pigment and all other pigments
WC) is generally from 0.1 to 50% by weight, preferably from 0.5 to 40% by weight, more preferably from 1 to 50% by weight.
30% by weight. If it exceeds 50% by weight, the appearance of the coating film will be reduced.

The base paint may be any of an organic solvent type, an aqueous type (water-soluble, water-dispersible, emulsion) and a non-aqueous type, but an aqueous type is preferred from the viewpoint of environmental protection. Other additives used in the base paint and methods for preparing the base paint include those well known to those skilled in the art.

In the case where a metallic paint containing a brilliant pigment is used as the base paint, unevenness of the base coating film caused by the brilliant pigment may be reduced.
It is preferable to apply on the above-mentioned base coat in order to smooth flicker and protect the above-mentioned base coat.

In the present invention, the clear paint is not particularly limited, and examples thereof include those comprising a film-forming resin, a curing agent and other additives.
The film-forming resin is not particularly limited, for example,
Acrylic resins, polyester resins, epoxy resins, urethane resins, and the like can be used as in the case of the above-mentioned base coat paint-forming resin, and these are used in combination with a curing agent such as an amino resin and / or a blocked isocyanate resin. From the viewpoint of transparency or acid etching resistance, it is preferable to use a combination of an acrylic resin and / or a polyester resin and an amino resin, or an acrylic resin and / or a polyester resin having a carboxylic acid / epoxy curing system.

When an aqueous coating is used as the clear coating, a coating obtained by dispersing a component containing a solvent-type thermosetting resin in water with a nonionic dispersant and / or a cationic dispersant may be used. The above nonionic dispersant and / or
Alternatively, the above-mentioned components can be mentioned as those obtained by dispersing a component containing a solvent-type thermosetting resin in water with a cationic dispersant.

When the above-mentioned base paint is applied in an uncured state after the above-mentioned base paint is applied, a viscosity control agent is used as an additive in order to prevent adaptation, inversion or sagging between layers. It is preferred to contain. The addition amount of the viscosity control agent is 0.01 to 10 parts by weight, preferably 0.02 to 8 parts by weight, more preferably 0.03 to 6 parts by weight, based on 100 parts by weight of the resin solid content of the clear paint. Department. If the amount exceeds 10 parts by weight, the appearance is deteriorated, and the amount is reduced to 0.1%.
If the amount is less than 1 part by weight, the effect of controlling the viscosity cannot be obtained, which may cause problems such as sagging.

The form of the clear coating may be any of an organic solvent type, an aqueous type (water-soluble, water-dispersible, emulsion), a non-aqueous dispersion type, and a powder type. An adjusting agent or the like can be used. The method for preparing the clear paint is not particularly limited, and includes, for example, a method well known to those skilled in the art.

The method for forming a coating film by applying another coating material on the coating film formed by applying the aqueous coating material in the step (1) is not particularly limited. It can be appropriately selected depending on the application and the use. Even when the other paint is a base paint and / or a clear paint, the method of applying these paints is not particularly limited, and examples thereof include methods well known to those skilled in the art. When the base paint is applied to an automobile body or the like, in order to enhance the design, multi-stage painting by air electrostatic spray, preferably painted in two stages, or air electrostatic spray and the above It is preferable to carry out by a coating method combining a rotary atomizing type electrostatic coating machine.

The dry film thickness of the coating film formed by the above-mentioned other paint can be appropriately selected depending on the type and use of the above-mentioned other paint, and the above-mentioned other paint is a base paint and / or a clear paint. In the case of a paint, the thickness is preferably 5 to 35 μm for the base coating film and 10 to 70 μm for the clear coating film. If these values are less than the lower limit, the base material cannot be concealed and the film may be cut off.If the value exceeds the upper limit, the sharpness may be reduced, or irregularities may occur during coating, causing problems such as flow. is there.

[0052]Step (4)  Step (4) in the coating film forming method of the present invention is the same as the above-described step.
The coating film formed in (1) is cured by heating.
is there. The step (4) is formed in the step (1).
The base paint and / or the clear
When a coating film is formed with the above other paints such as
This includes cases where these coatings are simultaneously cured by heating.
No.

The heat curing temperature is 110 to 1
By performing at 80 ° C., preferably at 120 to 160 ° C., a cured coating film having a high degree of crosslinking can be obtained. 18
If it exceeds 0 ° C., the coating film becomes hard and brittle, and if it is less than 110 ° C., curing is not sufficient. The curing time varies depending on the curing temperature, but is suitably from 120 to 160 ° C. for 10 to 60 minutes. In the present invention, when using a water-based coating containing an anionic dispersant, the coating film is formed by suppressing the chemical change of an amine as a counter ion in the anionic dispersant and the formation of a color-forming substance. From the viewpoint of suppressing yellowing of
It is preferable to cure at a relatively low temperature such as 20 to 150 ° C.

The thickness of the coating film obtained by the coating film forming method of the present invention is usually 30 to 300 μm, preferably 50 to 300 μm.
250 μm. If it exceeds 300 μm, the physical properties of the film such as a thermal cycle decrease, and if it is less than 30 μm, the strength of the film itself decreases.

The coating film forming method of the present invention can also be applied to a coating method usually called a three-wet one-bake coating method. The three-wet, one-bake coating method is a method in which an intermediate coating, a base coating, and a clear coating are applied in a wet-on-wet manner, and the three coating films are heated and cured at one time. This is a method having an excellent advantage of load reduction. However, since each coating film is not separately heat-cured, when an anionic dispersant is used in the intermediate coating, the base coating and / or the clear coating, there is a problem that the obtained coating turns yellow. However, the method for forming a coating film according to the present invention comprises the above-mentioned method (3).
It can also be suitably used for a wet 1 bake coating method.

That is, the above-mentioned three-wet one-bake coating method uses the above-mentioned water-based paint as an intermediate coat, and further applies an aqueous paint on the uncured intermediate coat obtained in the above step (1). A step of applying a base paint to form an uncured base coating film (2); and a step of applying a clear paint thereon to form an uncured clear coating film (3). In the step (4), the intermediate coating film, the base coating film and the clear coating film are simultaneously heated and cured. In the present specification, the term “uncured” is a concept including, for example, a state after preheating. The preheating is a step of leaving or drying at room temperature to about 100 ° C. for 1 to 10 minutes after application.

As described above, the step (1) in the three-wet one-bake coating method is performed in view of improving the appearance.
It is preferable to perform preheating after applying the intermediate coating and before applying the aqueous base coating. Similarly, in the step (2), after applying the aqueous base paint,
It is preferable that the method includes a step of performing preheating before applying the clear paint.

According to the coating film forming method of the present invention, in the aqueous paint used in the above step (1), a component containing a solvent type thermosetting resin is dispersed in water with a nonionic dispersant and / or a cationic dispersant. Since it is used, the resulting finished coating film has an excellent appearance without yellowing. In particular, the coating film forming method of the present invention is a three-wet one-bake coating method in which an aqueous intermediate coating material, an aqueous base coating material, and a clear coating material are applied wet-on-wet, and the resulting three uncured coating films are simultaneously heated and cured. The method can also be used for the method, whereby the advantages of shortening the coating process, reducing the cost and reducing the environmental load can be maintained, and the yellowing of the coating film can be prevented.

[0059]

The present invention will be described in more detail with reference to the following examples.
As will be described, the present invention is limited to only these examples.
is not. Parts and% mean parts by weight and% by weight.Production Example 1 Production of solvent-type polyester resin  200.0 parts of isophthalic acid, 1 phthalic anhydride in a reaction vessel
79.0 parts, adipic acid 176.0 parts, trimethylol
150.0 parts of propane, neopentyl glycol 29
5.0 parts, 2.0 parts of dibutyltin oxide were charged,
After heating in a nitrogen stream to melt the raw materials, do not mix and stir.
The temperature was gradually raised to 170 ° C. Then another three hours
Deesterification while heating to 220 ° C
Was. When the acid value reaches 10, cool to 150 ° C
Was. Further, 114.0 parts of hexahydrophthalic acid was added.
The reaction was completed for 1 hour. Up to 100 ° C
After cooling, add 112.0 parts of butyl cellosolve and add
A ester resin was obtained. The obtained polyester resin is
Resin solid content 70%, solid content acid value 50, hydroxyl value 65, G
The number average molecular weight obtained by PC is 10,000
Was.

[0060]Production Example 2 Production of cationic dispersion resin  Reaction vessel equipped with stirrer, cooling pipe, nitrogen inlet pipe, thermometer
Epototo YDCN-703 having an epoxy equivalent of 203
(Cresol novolac epoxy resin, Toto Kasei Co., Ltd.
122 parts, diethanolamine 10 parts, Farmin
D86 (mixture of dialkylamines having 14 to 18 carbon atoms)
Product, manufactured by Kao Corporation) 74 parts and methyl isobutyl ketone 52
And reacted at 120 ° C. for 1 hour in a nitrogen atmosphere.
Was. Next, after cooling to 70 ° C., SHP-100 (1-
(2-hydroxyethylthio) -2,3-propanedio
48 parts, glacial acetic acid 32 parts and
80 parts of ionic water were added. The reaction mixture at 70-75 ° C
The reaction was held for 6 hours. The resulting cationic component
The resin dispersion has a resin solid content of 60%, a number average molecular weight of 5,000,
The solubility parameter was 10.8.

[0061]Production Example 3 Polyester resin emulsion
Manufacturing of 1  New Co. as a nonionic surfactant in ion exchanged water
1120 (polyoxyethylene lauryl ether, H
LB 16.4, manufactured by Nippon Emulsifier Co.)
6 parts of lenglycol mono-n-hexyl cellosolve
After dispersion, the polyester resin 11 obtained in Production Example 1
1. Drop into the dispersion while stirring 1 part
The nonionic surfactant having a non-volatile content of 47.5%
To obtain a polyester resin emulsion 1 coated with a surfactant
Was.

[0062]Production Example 4 Polyester resin emulsion
Manufacturing of 2  New Co. as a nonionic surfactant in ion exchanged water
1820 (polyoxyethylene stearyl ether,
HLB 15.3, manufactured by Nippon Emulsifier Co.)
6 parts of Tylene glycol mono-n-hexyl cellosolve
After dispersion, the polyester resin 1 obtained in Production Example 1
While stirring 11.1 parts, drop in the dispersion liquid
The nonionic interface of 47.5% of non-volatile content
Activator coated polyester resin emulsion 2
Obtained

[0063]Production Example 5 Polyester resin emulsion
Production of 3  Cationic dispersion resin obtained in Production Example 2 in ion-exchanged water
And 55.7 parts of ethylene glycol mono-n-hexyl
After dispersing 6 parts of Lucerosolve, obtained in Production Example 1
While stirring 111.1 parts of the polyester resin,
Drop of 47.5% of non-volatile content by dropping in dispersion
Emulsi polyester resin coated with on-dispersion resin
You got 3

[0064]Production Example 6 Polyester resin emulsion
Production of 4  SE-20 as an anionic surfactant in ion exchanged water
N (α- {1-[(allyloxy) methyl] -2- (no
Nilphenoxy) ethyl｝ -ω-oxyethylene sulfate
33.4 ammonium salt of Astella, manufactured by Asahi Denka Kogyo KK
Part and ethylene glycol mono-n-hexyl cellosol
After dispersing 6 parts of the polyester resin obtained in Production Example 1,
While stirring 111.1 parts of the resin,
By dropping, an anion of 47.5% of non-volatile content
Emulsi coated polyester resin coated with surfactant
Got 4

[0065]Production Example 7 Production of Colored Pigment Paste 1  Disperbyk 190 (BIC
Chemie Japan Co., Ltd.) 8 parts, ion exchange water 29 parts,
Chill type titanium dioxide 31 parts, barium sulfate 31 parts, tall
After pre-mixing 1 part
Add the glass bead medium at, mix and disperse for 1 hour at room temperature,
Color pigment paste 1 having a particle size of 5 μm or less was obtained.

[0066]Production Example 8 Production of water-soluble acrylic resin  Dipropylene glycol methyl ether 2 in the reaction vessel
3.9 parts and propylene glycol methyl ether 1
6.1 parts were added and mixed and stirred in a nitrogen stream for 120 minutes.
The temperature was raised to ° C. Then, 54.5 parts of ethyl acrylate,
12.5 parts of methyl methacrylate, 2-hydroacrylic acid
14.7 parts of xylethyl, 10.0 parts of styrene, methacrylic acid
Mixed solution consisting of 8.5 parts of phosphoric acid and dipropylene glycol
Methyl ether 10.0 parts, t-butyl peroxy-
Initiator solution consisting of 2.0 parts of 2-ethylhexanoate
Was dropped into the reaction vessel in parallel over 3 hours. Dripping
After completion, aging was performed at the same temperature for 0.5 hour. Furthermore, zip
5.0 parts of propylene glycol methyl ether and t-butyl
0.3 parts of tilperoxy-2-ethylhexanoate
Initiator solution over 0.5 hours
did. After completion of dropping, aging was performed at the same temperature for 1 hour. Next
At 110 Torr under a reduced pressure of 70 Torr by a desolvation apparatus.
At 16.degree. C., 16.1 parts of the solvent was distilled off.
Adding methylaminoethanol, the non-volatile content is 31%,
A water-soluble acrylic resin having an acid value of 56 and a hydroxyl value of 70 is used.
Obtained.

[0067]Production Example 9 Production of Color Pigment Paste 2  The water-soluble acrylic resin obtained in Production Example 8 was used for 67.0.
Parts, 23.2 parts of ion-exchanged water, rutile type titanium dioxide 6
After premixing 7.0 parts, paint conditioner
Add glass bead medium inside and mix and disperse for 1 hour at room temperature
Thus, a colored pigment paste 2 having a particle size of 5 μm or less was obtained.

[0068]Production Example 10 Formulation of aqueous base paint  Water-soluble acrylic resin obtained in Production Example 8, Cymel
204 (melamine resin, manufactured by Mitsui Cytec) and manufacturing
Using the colored pigment paste 2 obtained according to Example 9,
And water-based coating.
I got the fee. Rutile titanium dioxide 20.0 parts Water-soluble acrylic resin 56.0 parts Cymel 204 24.0 parts

[0069]Examples 1 to 3, Comparative Example 1  (Production of paint) Pigment-colored paste obtained in Production Example 7
1. Emulsi polyester resin obtained in Production Examples 3 to 6
1 to 4 and hexamethoxy as melamine resin
Methylol melamine (HMMM, trade name: Cymel 23)
5, manufactured by Mitsui Cytec Co., Ltd.)
To obtain an intermediate coating.

(Coating method) A power top U-50 (cationic electrodeposition paint, manufactured by Nippon Paint Co., Ltd.) was electrodeposited on a dull steel plate treated with zinc phosphate so that the dry coating film became 20 μm, and then heated at 160 ° C. Baked for 30 minutes, and a two-stage coating of Olga P-2 (melamine-curable polyester resin intermediate coating, Nippon Paint Co., Ltd.) diluted beforehand with an air spray to a dry film thickness of 35 μm was performed at 140 ° C.
For 30 minutes to obtain a coating film. Subsequently, coating for yellowing evaluation was further performed by the following two methods.

1. Yellowing (1) On the obtained coating film, each intermediate coating material was applied by air spray coating as shown in Table 1 so as to have a dry film thickness of 50 µm, and baked at 180 ° C for 60 minutes.

2. Yellowing (2) On the obtained coating film, each intermediate coating was applied by air spray coating as shown in Table 1 so as to have a dry film thickness of 20 μm, and baked at 80 ° C. for 5 minutes. Then, the aqueous base paint obtained in Production Example 10 was applied as a base paint by air spray coating so as to have a dry film thickness of 20 μm.
Bake at 5 ° C. for 5 minutes. Further, MacFlow O-1801W Clear (manufactured by Nippon Paint Co., Ltd.) was applied as a clear paint on the coated plate by air spray coating to a dry film thickness of 50 μm.
After painting so that
Baking was performed at 0 ° C. for 60 minutes.

(Evaluation method for yellowing) The b value of the coating film obtained by the coating method of the above yellowing (1) and (2) was measured using a colorimeter (SM Color Computer SM-4, manufactured by Suga Test Instruments Co., Ltd.). Measured. The larger the b value, the stronger the yellow color. Table 1 shows the results.

[0074]

[Table 1]

From Table 1, it can be seen that in Comparative Example 1 in which a polyester resin dispersed in water with an anionic dispersant was used, yellowing was observed in the obtained coating film. In Examples 1 to 3 using the water-dispersed polyester resin, the yellowing of the coating film obtained under any of the baking conditions was suppressed as compared with the comparative example. In Examples 1 to 3, baking and curing at a relatively low temperature is preferable because the base film contains a basic substance and the coating film is liable to yellow under baking conditions of 160 ° C. for 60 minutes. I also understood.

[0076]

Since the method for forming a coating film of the present invention has the above-mentioned structure, a coating film forming method comprising a step of heating and curing a coating film obtained by applying an aqueous coating material, particularly, a three-wet coating method.
In the baking method, a coating film having an excellent appearance can be formed without yellowing of the coating film. For this reason, the coating film forming method of the present invention can be suitably used particularly for coating a vehicle such as an automobile body.

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification code FI theme coat ゛ (reference) C09D 201/00 C09D 201/00 F term (reference) 4D075 AE12 BB26Z BB89X CA04 CA32 CA33 CA38 CA48 CA50 CB06 DA06 DB02 DB05 DB06 DB07 DC12 DC13 EA06 EA07 EA10 EA43 EB13 EB22 EB32 EB33 EB35 EB36 EB37 EB38 EB45 EB52 EC11 EC31 EC54 4J038 DD001 KA09 MA08 PA19

Claims (10)

[Claims] 1. A method for forming a coating film, comprising: a step (1) of applying a water-based paint on an object to be coated to form a coating film; and a step (4) of heating and curing the coating film. The method for forming a coating film, wherein the water-based paint contains a component containing a solvent-type thermosetting resin, which is dispersed in water with a nonionic dispersant and / or a cationic dispersant. 2. The object to be coated has an electrodeposition coating film formed in advance, the aqueous coating material is used as an intermediate coating material, and the coating film forming method is performed after the step (1). Further, a step (2) of applying an aqueous base paint on the uncured intermediate coating film obtained in the step (1) to form an uncured base coating film. Step of forming uncured clear coating film by applying paint (3)
The method according to claim 1, wherein step (4) comprises simultaneously heating and curing the intermediate coating film, the base coating film, and the clear coating film. 3. The method according to claim 1, wherein the solvent type thermosetting resin is a polyester resin. 4. The coating film forming method according to claim 1, wherein the component containing the solvent-type thermosetting resin further contains a curing agent. 5. The content of the nonionic dispersant and / or the cationic dispersant is based on the total amount of the components including the solvent type thermosetting resin and the total amount of the nonionic dispersant and / or the cationic dispersant. 5. The method for forming a coating film according to claim 1, wherein the content is 2 to 50% by weight on a solid basis. 6. The number average molecular weight of the solvent type thermosetting resin is as follows:
The coating film forming method according to claim 1, 2, 3, 4, or 5, which is 1,000 to 30,000. 7. The component containing the solvent-type thermosetting resin further contains a pigment.
Or the coating film formation method of 6. 8. A coating film formed by the coating film forming method according to claim 1, 2, 3, 4, 5, 6, or 7. 9. An aqueous coating composition comprising a component containing a solvent-type thermosetting resin and dispersed in water with a nonionic dispersant and / or a cationic dispersant. 10. The aqueous coating composition according to claim 9, wherein the solvent-type thermosetting resin is a polyester resin.