JP2019038905A - Colored aggregate-containing multicolor coating material - Google Patents

Abstract

To provide finishing excellent in design without contaminating a coating material and a coating film formed of the material by its coloring component even when gelatinous particles are broken against stirring before coating and a pressure during coating.SOLUTION: A coating composition is formed of gelatinous particles and a dispersion liquid, where the gelatinous particles are composed of synthetic resin emulsion and a coloring aggregate, and accordingly finishing excellent in design can be obtained without contaminating a coating material and a coating film formed of the material by its coloring component even when the gelatinous particles are broken against stirring before coating and a pressure during coating.SELECTED DRAWING: None

Description

  The present disclosure relates to an aggregate-containing various paint used for a wall surface of a structure such as a building.

Examples of the paint used for coating the wall surface of the structure include a monochromatic enamel paint and a colored aggregate-containing paint using a colored aggregate. Monochromatic paints such as enamel paints often have a single color finish and are poor in design.
In the case of a colored aggregate-containing paint, the colorfulness of the coating film is expressed by the size of the mixed colored aggregate. Therefore, the size of the colored aggregate to be mixed is about 1 mm. There is a limit.

  A variety of paints that can easily paint a variety of patterns are increasingly used. This multicolored paint is one in which colored particles of one color or two or more colors are dispersed in a paint such as a single color paint or a clear paint, and the paint film formed from the multicolored paint has the particles in the paint film. Various designs that exist in granular form can be easily provided.

Many of these colored particles are 2 mm or more, and the particles are relatively large. Therefore, the coated film formed by the paint exhibits a solid granularity and gives a more colorful finish. It is something that can be done.
Many of these colored particles are devised so as not to be mixed with the paint as a dispersion. As an example, there is one in which particles are covered with a gelled film (see Patent Document 1 and Patent Document 2). In addition, there is also one in which these particles are gelled and dispersed (Patent Document 3).

JP 2008-044991 A JP 2011-052052 A Japanese Patent Laid-Open No. 2003-041196

In a paint in which colored particles are covered with a gelled film, if the stirrer is used when the paint is used, the gelled film may be damaged and the contents of the colored particles may flow out. If you do,
The paint is mixed with the paint as a dispersion, and the paint film formed from the various paints may be colored.

Further, the colored particles may be crushed by the pressure during coating. In particular, when a coating roller is used, coating is performed while crushing the colored particles, and the painted surface may be soiled.
In this invention, even when the gel-like particles are damaged with respect to the pressure during stirring or painting before painting, the coating composition and the coating film formed thereby are not stained by the colored components, and the design is excellent. To provide a finish.

  It is a coating composition composed of gel particles and a dispersion liquid, and the gel particles are composed of a synthetic resin emulsion and a colored aggregate. Even in the case of breakage, it is possible to obtain an excellent design finish without staining the paint or the coating film formed by the colored component.

  Since the particle size of the colored aggregate is in the range of 37 to 1000 μm, the colored aggregate particles increase the versatility and make the design more excellent.

  The ratio of the gel particles and the dispersion is in the range of 1: 0.5 to 3.0 by weight ratio, and the weight ratio of the volatile components in the gel particles and the volatile component in the dispersion is 1: 0.5 to Since it is in the range of 1.5, there is a case where stirring is performed before coating, the gel-like particles are not damaged, the shape stability is good, and the stability of the paint is excellent.

  Since the solid content of the gel-like particles is in the range of 10 to 40% by weight, the resin content is in the range of 5 to 25% by weight, and the size is in the range of 2 to 20 mm, the shape stability of the gel-like particles is It is more excellent and can express clear particles even in the coating film.

  An embodiment of the present invention will be described. The colored aggregate-containing multicolored paint of this invention is a coating composition comprising gel-like particles and a dispersion, and the gel-like particles are composed of a synthetic resin emulsion and a colored aggregate.

(Gel particles)
First, the gel-like particles are those in which a synthetic resin emulsion and a colored aggregate are the main components, and those components are made into gel-like particles, and the shape is maintained in a soft state containing moisture.
This shape is not limited to a spherical shape, but includes an elliptical shape, a disc shape, a cylindrical shape, a shape similar to these shapes, and a substantially spherical shape such as an irregular shape close to a circle.

  Synthetic resin emulsion is an important component for forming gel-like particles, and forms gel-like particles containing colored aggregates in combination with a gelling agent described later. This is also for maintaining the shape of the dried particles obtained by drying the gel-like particles in the coating film and improving the adhesion to the object to be coated.

The gel-like particles containing the colored aggregate express a color by collecting a plurality of colored aggregates, and only the colored aggregate is colored. That is, it is difficult for the gel-like particles colored with the colored aggregate to express the color unless a certain amount of the colored aggregate is collected, and there is almost no concealing property to hide the color of the base.
Therefore, even when the gel-like particles are broken and the colored aggregate is mixed in the dispersion, the coating film formed thereby is not noticeable. Moreover, even if it is damaged on the painted surface, the same is not noticeable.

  When colored with a pigment or the like, the entire gel-like particle is colored. Moreover, although it depends on the blending thereof, the gel-like particles obtained by pigmentation also have a concealing property. For this reason, the gel-like particles damaged on the painted surface remain on the painted surface in the damaged shape.

Gel particles having a size in the range of 2 to 20 mm are preferable, and a plurality of different colors are mixed and overlapped with each other. It will be excellent with a natural texture.
In the case where the size is smaller than 2 mm, when the painted surface is separated by about 5 m, the presence is often unknown and the design may be inferior.

If it is larger than 20 mm, it may affect the coating suitability such as clogging the nozzle during coating.
The size can be adjusted by filtering using a mesh or the like.

The hardness of the gel particles is such that the gel particles are not pulverized by mechanical stirring such as a stirrer in addition to the dispersion, and are not deformed or damaged by stirring or coating work before coating.
For example, when a spray gun is used, it is soft enough not to get caught in the diameter of the spray gun, and soft enough not to be deformed by painting with a brush or roller.

Hereinafter, the components of gel particles will be described (gel particles / synthetic resin emulsion).
This synthetic resin emulsion is not particularly limited as it is appropriately selected depending on the compatibility with the gelling agent and the required performance of the dried particles after drying, and is excellent in water resistance, alkali resistance and weather resistance, Those having good adhesion to an object to be coated are preferred.

  These include acrylic, urethane, acrylic / urethane, acrylic silicone, silicone, fluorine, epoxy, ester, vinyl synthetic resin emulsions, natural or synthetic rubbers and their co-polymers. There are synthetic resin emulsions that are generally commercially available, such as polymers, and may be any one that can be gelled by a gelling agent.

  Synthetic resin emulsions such as acrylic resins, acrylic silicon resins, urethane resins, and fluorine resins having excellent weather resistance and water resistance are preferably used, and two or more of these may be used.

(Gel-like particles / colored aggregate)
Colored aggregates include natural stones such as quartz sand, cold water stone, and marble, and pulverized products obtained by pulverizing natural stones, ceramics, glass, synthetic resin solids, and the like.
There are also non-metallic slags that are produced when metals are melted and refined. This slag is mostly composed mainly of lime, magnesia, silicic anhydride, alumina and the like. Furthermore, lightweight aggregates such as shirasu balloon, pearlite, and foamed crushed glass can be used.

  These are artificially colored or industrially produced. Artificial coloration of pulverized materials and slag is applied to those coated with pigments such as paints and glazes, and when processing glass or synthetic resin, such as granulation, There are colored ones. It is also possible to color the transparent aggregate.

  From the viewpoint of color stability, artificially colored materials are preferably used, and the color and shape formed by the colored aggregate-containing various paints are also stable.

It is more preferable that the colored aggregate is coated with a paint as a colorant on silica sand containing silicon dioxide as a main component, cold water sand containing calcium carbonate as a main component, or crushed particles of ceramics. By coating the easily-breakable crushed particles with a paint, the adhesion between the colored aggregate and the synthetic resin emulsion is improved, and the strength of the coating film can be improved.
Furthermore, the particle size can be adjusted and stabilized in the pulverization step, granulation step and coloring step. Therefore, the color and size of the gel particles can be stabilized.

It is more preferable to use the same synthetic resin as the gel particles for the paint used for the colorant, and the adhesion performance may be further improved.
As the coloring component used for coloring, those generally used for toning of paints can be used, and there are pigments and dyes.

  There are inorganic and organic coloring components, and it is preferable to use an inorganic pigment from the viewpoint of weather resistance when it becomes a coating film, and these may be used alone or in combination of two or more. Good. These coloring components include inorganic coloring components such as titanium dioxide, carbon black, iron oxide, lead chromate, cadmium yellow, cadmium red, and other organic coloring components.

The particle diameter of the colored aggregate is preferably in the range of 37 to 1000 μm. The colored aggregate particles increase the variegation and make the design more excellent.
When the particle size is smaller than 37 μm, the multicolored feeling due to the particles becomes poor, and in the process where the gel-like particles become dry particles, cracking may occur due to shrinkage.

When the particle size is larger than 1000 μm, the solid content of the gel-like particles becomes low, and it becomes difficult to form a variety of dry particles, which may not adhere to the object to be coated at the time of coating. In addition, the surface may be rough and not good.
Furthermore, it is more preferable that it is the range of 37-800 micrometers, and can make the shape of a coating film comparatively smooth.

If it is the range of 44-500 micrometers, formation of a gel-like particle | grain will become easy, the coating workability | operativity will be good and the thing which was excellent in various feeling can be obtained.
Using one or a plurality of colored aggregates, the dry particles are toned to adjust the desired color.

(Gel particles and other ingredients)
In addition, dispersants such as sulfonates, phosphates, silicates, polyoxyethylene alkyl ethers, viscosity modifiers such as methyl cellulose, hydroxyethyl cellulose, carboxymethyl cellulose, and polyvinyl alcohol, and alkali swelling viscosity adjusters, inorganic Necessary additives such as viscosity modifiers, urethane-associative viscosity modifiers, antifoaming agents such as silicone and mineral oils, matting agents such as resin beads, preservatives, and antifungal agents Accordingly, they are appropriately blended.

  It is also possible to add bright pigments such as pearl pigments, mica pigments, and aluminum powder, and by adding these, it is possible to impart a glittering design to the dry particles.

(Gel-like particles / gelling agent)
In addition, a gelling agent is added. As this gelling agent, known ones can be used. Main components are magnesium montmorillonite clay, hectorite, sodium pentachlorophenol, borate, tannic acid, titanium lactate, sodium alginate, calcium chloride, magnesium chloride and the like. And those based on surfactants, and those synthesized based on these.

Examples of the gelling agent include those prepared by synthesizing a plurality of these. Moreover, you may use combining 2 or more types.
Since the type and amount of the gelling agent vary depending on the type of synthetic resin emulsion and the components added thereto, it is necessary to examine in advance. Moreover, since the hardness and size of the gel-like particles can be adjusted, it is necessary to determine the type and amount of addition as necessary.

(Gel-like particles, creation method)
The gel-like particles can be obtained by mixing the synthetic resin emulsion, the colored aggregate, and the additive, and adding the gelling agent while mixing, thereby obtaining a gelled mixture of relatively large lumps.
The apparatus used for the mixing is not particularly limited, and may be mixed by a conventionally known method. Mixing is performed using a stirrer such as a disper, a twin-screw mixer, a butterfly mixer, or a planetary mixer as a mixing apparatus. A method can be mentioned.

  To this mixture is added water or a gel-like particle preparation liquid obtained by adding a gelling agent to water, followed by stirring. In this stirring, since the size of the gel-like particles is determined by the rotational speed of the stirrer, the stirring speed, the stirring time, and the like, the stirring is performed until a desired size is obtained. Also in this stirring, the same stirrer as described above can be used.

  In the stirring here, the size of the gel-like particles can be adjusted by adjusting the rotation speed, speed, etc. of the stirring. For example, if the number of rotations and speed are increased and the intensity is increased, the gel-like particles become smaller, and if the stirring is moderated, relatively large particles can be obtained. By increasing the stirring time, the gel-like particles can be made smaller.

By adjusting the stirring in this way, a plurality of gel particles obtained in a desired size and shape are present in the gel particle preparation liquid, and the gel particles may exist independently without being attached to each other. it can.
It is also possible to prepare a plurality of colors at the same time, and the mixture of the plurality of colors is put into one gel particle preparation liquid and stirred. Even in such a case, the gel particles of a plurality of colors can maintain the colors of the individual colors without being mixed.

(Gel-like particles / gel-like particle preparation liquid)
As the gel particle preparation liquid, a method using a liquid in which a gelling agent is added to water is preferable. By making gel particles in this liquid, gelation of the surface of the gel particles progresses and is relatively stable. become. The amount of the gelling agent to be added needs to be adjusted depending on the type of the gelling agent, the synthetic resin emulsion, and the strength of the gelled particles to be obtained.

  The obtained gel-like particles can be stored in the gel-like particle preparation liquid. However, when the storage period is long, the shape of the gel-like particles may change, so that it is as soon as possible. It is desirable to use it.

(Dispersion)
Next, the dispersion is to uniformly disperse the gel-like particles described above to obtain a colored aggregate-containing multicolored paint. The gel-like particles in the gel-like particle preparation liquid are mixed with the dispersion to obtain a uniform By being dispersed in the coating, the coating material can be coated with fluidity as a paint.

This dispersion is a mixture of the components described below and the gel particle preparation liquid.
As the dispersion liquid, water can be used alone, but a binder resin to which a synthetic resin is added is preferable, and a synthetic resin emulsion is preferably used as a form of the synthetic resin. This synthetic resin emulsion may be the same as that used for the gel-like particles.

However, the synthetic resin emulsion in this case is preferably one that does not gel even when the gelling agent used in preparing the gel-like particles is added.
The dispersion preferably has an appropriate viscosity. By providing the viscosity, workability as a paint can be adjusted, and separation of the gel-like particles dispersed in the dispersion can be reduced. The viscosity adjusting agent described above can be used for this viscosity.

  Furthermore, a color pigment or a luster pigment can be added to the dispersion to obtain a color clear. By adding the pigment, it is possible to calm down the multicolored feeling of the coating film formed by the colored aggregate-containing multicolored paint and to obtain a finished finish as a whole. Further, kaolin, barium sulfate, hydrous magnesium silicate, clay, talc, diatomaceous earth, calcium carbonate and the like can be added as a matting agent if necessary.

(Colored aggregate-containing various paints)
As described above, the colored aggregate-containing multicolored paint is prepared by mixing the gel-like particles present in the gel-like particle preparation liquid and the dispersion. The gel-like particles preferably contain two or more colors in the paint, and can form a pattern having a complex depth when formed into a coating film.

  The adjusted colored aggregate-containing multicolored paint has a weight ratio of the gel particles constituting the mixture and the dispersion in the range of 1: 0.5 to 3.0, and the volatile matter in the gel particles The weight ratio of volatile components in the dispersion is in the range of 1: 0.5 to 1.5. The dispersion liquid in this case also includes the gel particle preparation liquid used when preparing the gel particles.

  If it is this range, even if it stirs before coating, a gel-like particle | grain is not damaged, its shape stability is good, and also it becomes what was excellent in the stability of the coating material. This agitation before painting is used to make the colored aggregate-containing various paints uniform by diluting for viscosity adjustment or re-stirring the separated components immediately before painting. , Using a hand mixer.

  If the ratio of the gel-like particles to the dispersion is less than 1: 0.5 by weight, the ratio of the gel-like particles is high and the gel-like particles are crushed during stirring before coating. Becomes smaller. On the other hand, when the amount of the dispersion is larger than 1: 3.0, the gel-like particles are hardly separated, and a stable aggregate-containing colorful paint is obtained. It will be inferior.

As a more preferable range, the ratio between the gel-like particles and the dispersion is in the range of 1: 1 to 2 by weight ratio.
Within this range, the size of the gel-like particles does not change much when agitated, and the separation in the water-based multicolored paint is reduced, so that the pattern of the coating film using the paint has a more stable multicolored pattern. Can be formed.

  At the same time, the weight ratio of the volatile content in the gel-like particles and the volatile content in the dispersion is also in the range of 1: 0.5 to 1.5, and the gel-like particles are damaged even when stirring before coating. The stability of the paint is excellent. This volatile matter has a boiling point in gel-like particles or dispersion of 100 ° C. or less, and most corresponds to moisture in the material structure.

  When the weight ratio of the volatile matter in the gel-like particles and the volatile matter in the dispersion is less than 1: 0.5, that is, in the case where the dispersion has a small volatile matter, the dispersion contains little volatile matter such as water. Volatiles such as water in the particles move to the dispersion, the gel particles become smaller, and conversely, if the weight ratio is greater than 1: 1.5, the volatiles in the dispersion move to the gel particles. And it becomes swollen.

If it is in this range, the change in the size of the gel-like particles will be small, and the viscosity of the water-based multicolored paint will be small and stable due to the movement of volatile matter.
Preferably, the weight ratio of the volatile content in the gel-like particles and the volatile content in the dispersion is also in the range of 1: 0.7 to 1.2. The change is less and the change in viscosity of the water-based multicolored paint is less stable due to the movement of volatile matter. A value close to 1: 1 is more preferable.

This dispersion preferably contains a synthetic resin and has a viscosity in the range of 2000 to 6000 mPa · s.
Within this range, the coating suitability is excellent and a sufficient film thickness can be secured. This viscosity is based on a B-type viscometer, and this dispersion contains a gel particle preparation liquid.

  When the viscosity is lower than 2000 mPa · s, the flow of the paint is good and the paintability is excellent, but the paint may flow when it is applied to an object to be coated, and a stable film thickness may not be obtained. When it is higher than 6000 mPa · s, a sufficient film thickness can be ensured, but since the paint is often a paint having a relatively small solid content, the coating film may be cracked.

Furthermore, when it is higher than 6000 mPa · s, when the dispersion and the gel-like particles are mixed with a stirrer, a stirring force is required, and the gel-like particles may be damaged. In this case, the size of the gel-like particles may become fine and a desired design may not be obtained.
More preferably, it is the range of 2500-5500 mPa * s. Within this range, there is less paint flow during painting, a sufficient film thickness can be ensured, and the size of the gel-like particles can be stably produced during the production of colored aggregate-containing various paints. it can.

The solid content of the gel particles is preferably in the range of 10 to 40% by weight.
Within this range, the shape stability of the gel-like particles is more excellent, and clear particles can be expressed even in the coating film. Moreover, it will have moderate softness.

When the solid content is less than 10% by weight, the strength of the gel-like particles is weak and may be broken at the time of production, stirring and coating, and the coating film design may not be stable.
When the solid content of the gel-like particles is more than 40% by weight, the gel-like particles have high strength and are less flexible, and may clog the nozzle of the coating machine during spray coating. A relatively high concentration of the dispersion may affect the coating suitability.

  More preferably, it is in the range of 15 to 30% by weight. If it exists in this range, the intensity | strength of gel-like particle | grains will become an appropriate range, and will become what was more excellent in design.

The resin content of the gel particles is preferably in the range of 5 to 25% by weight.
Within this range, the change in gel particles in the paint is small, and it is possible to express clear particles even in the coating film, and if it is less than this range, the strength of the gel particles is weak. The design of the coating film may not be stable.
On the other hand, when the amount is larger than this range, the strength of the gel-like particles is strong, the flexibility is reduced, and the coating suitability may be affected.

More preferably, it is in the range of 10 to 25% by weight, the strength and flexibility of the gel-like particles are in an appropriate range, and the design is more excellent.
The size of the gel particles is preferably in the range of 2 to 20 mm. Within this range, it is possible to express clear particles even in the coating film, and it is more preferable that the range occupies 60% or more of the painted surface. If it is this range, the wall surface with a sufficient variety can be made.

  Colored aggregate-containing various paints configured as described above are concrete, mortar, ALC panel, siding board, extruded board, gypsum board, slate, ceramic, plastic, wood, stone, It can be applied to various objects such as tiles. The coating method can be applied by brush, roller, spray gun coating, etc., and can be dried at room temperature or by heating.

The coating amount of the colored aggregate-containing multicolored coating is preferably applied so as to be 150 to 800 g / m ^2, and within this range, not only those formed with gel-like particles, but also a three-dimensional effect, It has a sense of shading and can be seen through the groundwork, resulting in an excellent design with a complex depth.

  Moreover, the thickness of the coating film formed with this colored aggregate-containing multicolored paint is preferably in the range of 20 to 500 μm, and can sufficiently coat the object to be coated, thereby obtaining a coated object having excellent weather resistance. it can.

According to the above embodiment, the following effects can be obtained.
-A coating composition comprising gel particles and a dispersion, and the gel particles are composed of a synthetic resin emulsion and a colored aggregate. Even when the ink is damaged, it is possible to obtain an excellent design finish without staining the paint or the coating film formed by the colored component.

-If the synthetic resin emulsion is one of acrylic resin, acrylic silicon resin, urethane resin, and fluorine resin, it has excellent water resistance, alkali resistance and weather resistance, and good adhesion to the object to be coated. Become.
-If the colored aggregate is artificially colored, the color and shape formed by the various colored aggregate-containing paints will be stable.

・ If colored aggregates are silica sand, cold water sand, crushed smashed ceramics, and the paint is coated as a colorant, coating the easily available smashed crushed particles with the paint will produce colored aggregates and synthetic resin emulsions. The adhesiveness of the film can be improved, and the strength of the coating film can be improved.
In addition, the particle size can be adjusted and stabilized in the pulverization step, granulation step and coloring step. Therefore, the color and size of the gel particles can be stabilized.

-Adhesion performance may be further improved by using the same synthetic resin as the gel particles for the paint used for the colorant.
-If an inorganic pigment is used as a coloring component of a coating material that is a colorant, the coating has excellent weather resistance when it becomes a coating film.

-Since the particle diameter of the colored aggregate is in the range of 37 to 1000 µm, the colored aggregate particles increase the variety of feelings and make the design more excellent.
-If the particle diameter of a colored aggregate is 37-800 micrometers, the shape of a coating film can be made comparatively smooth.
If the particle size of the colored aggregate is in the range of 44 to 500 μm, the formation of gel-like particles becomes easy, and the coating workability is good and a variety of excellent varieties can be obtained.

The ratio of the gel-like particles and the dispersion is in the range of 1: 0.5 to 3.0 by weight, and the weight ratio of the volatile matter in the gel-like particles and the volatile matter in the dispersion is 1: 0.5. Since it is in the range of ˜1.5, stirring may be performed before coating, the gel-like particles are not damaged, the shape stability is good, and the stability of the paint is excellent.

  -If the ratio of the gel-like particles to the dispersion is in the range of 1: 1 to 2 by weight, the size of the gel-like particles will not change much during stirring, and separation will be reduced in the various paints containing aggregates. The pattern of the coating film using the paint can form a more stable and colorful pattern.

  If the weight ratio of the volatile matter in the gel-like particles and the volatile matter in the dispersion is in the range of 1: 0.7 to 1.2, the change in the size of the gel-like particles is less and the volatile matter is transferred. Therefore, it becomes a stable paint with less change in viscosity of water-based colorful paint.

-Since the solid content of the gel-like particles is in the range of 10 to 40% by weight, the resin content is in the range of 5 to 25% by weight, and the size is in the range of 2 to 20 mm, the shape stability of the gel-like particles Is more excellent and can express clear particles even in the coating film.
If the solid content of the gel-like particles is in the range of 15 to 30% by weight, the strength of the gel-like particles is in an appropriate range, and the design is more excellent.
If the resin content of the gel-like particles is in the range of 10 to 25% by weight, the strength and flexibility of the gel-like particles will be in an appropriate range, and the design will be more excellent.

-If two or more colors of gel-like particles are contained in the colored aggregate-containing various paints, a pattern having a complex depth feeling can be formed when a coating film is formed.

-If a dispersion liquid contains a synthetic resin and the viscosity is the range of 2000-6000 mPa * s, it is excellent in coating suitability and can ensure sufficient film thickness.
・ If the viscosity of the dispersion is in the range of 2500 to 5500 mPa · s, the flow of paint during coating is less, and a sufficient film thickness can be secured. Can be stably manufactured.

-If the size of the gel-like particles is in the range of 2 to 20 mm and the particles occupy 60% or more of the painted surface, a sufficiently colorful wall surface can be made.
-If the coating amount of the colored paint containing colored aggregate is in the range of 150 to 800 g / m ² , it has not only those formed with gel-like particles, but also a three-dimensional effect and shading, and the base is transparent. It looks good and has an excellent design with a complex depth.
-If the thickness of the coating film formed by the colored aggregate-containing multicolored paint is in the range of 20 to 500 µm, the object to be coated can be sufficiently covered, and a coated object having excellent weather resistance can be obtained. .

The aggregate-containing various paints of the present disclosure will be specifically described with reference to examples.
First, the composition of the aggregate-containing paint and the dispersion is shown below. This colored paint is gelled to produce gel-like particles.

Aggregate-containing paint Water 62.1 parts by weight Acrylic synthetic resin emulsion 31.7 parts by weight Film-forming aid (Texanol) 2.1 parts by weight Colored aggregate 2.1 parts by weight Thickener (methylcellulose type) 1.3 Part by weight Antifoaming agent (silicone) 0.3 part by weight Dispersant (carboxyl) 0.2 part by weight PH adjusting agent 0.2 part by weight

Dispersion Silicon acrylic synthetic resin emulsion 80.5 parts by weight Water 11.8 parts by weight Film-forming aid (Texanol) 4.9 parts by weight Defrosting agent (ethylene glycol) 2.0 parts by weight Thickener (hydroxyethylcellulose-based) 0.6 part by weight Antifoaming agent (silicone) 0.1 part by weight PH adjusting agent 0.1 part by weight

  The solid content of the acrylic synthetic resin emulsion described in this formulation was 50%, and the solid content of the silicon acrylic synthetic resin emulsion was 35%. The solid content of the aggregate-containing paint was 19.5%, the resin content was 15.9%, and the solid content of the dispersion was 28.0%. The viscosity of the dispersion was 4500 mPa · s.

The colored aggregate is obtained by coating crushed particles of silica sand with a red acrylic paint as a colorant. The particle size was 44 to 500 μm.
As the gelling agent, a powdered hectorite synthesized was used. This gelling agent was selected after confirming compatibility with the synthetic resin emulsion used in advance, and the amount added was also confirmed.

First, 2 parts by weight of a gelling agent was added to the aggregate-containing paint to prepare a gel-like material. In this case, stirring was performed using a dissolver as a stirrer.
50 parts by weight of the gel-like particle preparation liquid was added to 100 parts by weight of the gel-like material, and stirred with a stirrer to obtain gel-like particles. For this stirring, a dissolver was used as a mixer, and stirring was performed for 1 minute at 1000 rpm. This gel-like particle preparation liquid is prepared by adding 5% of the gelling agent to water.

  This gel-like particle preparation liquid and gel-like particles were placed in a dispersion and mixed to prepare an aggregate-containing multicolor paint. The ratio of the gel particles, the gel particle preparation liquid, and the dispersion liquid is 2: 1: 1, and the gel particle preparation liquid is included in the dispersion liquid as described above. The ratio of liquid = 1: 1. This aggregate-containing multicolored paint is used as the aggregate-containing multicolored paint A of the example, and the paint of the comparative example is prepared based on this paint or the blend.

Various paint A containing aggregate
Ratio (parts by weight) Gel particles: dispersion = 1: 1
Volatiles weight ratio Gel particles: Dispersion liquid = 80.5: 86.0 = 1: 1.06
Viscosity 4500mPa · s
Solid content of gel-like particles 19.5% Resin content 15.9%
Gel particles with a size of 2-3mm are around 70%

  The above formulation was adjusted, and as a comparative example, paint A, paint B, and paints 1 to 5 were prepared as follows.

Paint A
To this paint, 2.0 parts by weight of titanium oxide was added instead of the colored aggregate, and 0.1 parts by weight of a red pigment was added.
Ratio (parts by weight) Gel particles: dispersion = 1: 1
Volatiles weight ratio Gel particles: Dispersion liquid = 80.5: 86.0 = 1: 1.06
Viscosity 4500mPa · s
Solid content of gel-like particles 19.5% Resin content 15.9%
Gel particles with a size of 2-3mm are around 70%

Paint B
As the paint, a colored aggregate having a particle size of 1000 μm or more was used. The same red color was used.
Ratio (parts by weight) Gel particles: dispersion = 1: 1
Volatiles weight ratio Gel particles: Dispersion liquid = 80.5: 86.0 = 1: 1.06
Viscosity 4500mPa · s
Solid content of gel-like particles 19.5% Resin content 15.9%
Gel particles with a size of 2-3mm are around 70%

Various paints containing colored aggregates were compared with paint A and paint B.
First, these were painted with a lysing gun. Regarding paint B, the surface area of the colored aggregate was small, and the strength of the gelled particles was insufficient, so that a dry particle having a desired size could be obtained, and the design was a fine pattern.

Regarding paint A, when some gelled particles hit the object to be coated, the feeling that the particles were crushed remained on the design surface.
It seems that some of the colored aggregate-containing paints had some of the gelled particles crushed, but it was possible to achieve a desired design feeling enough that it was impossible to understand until it was close.

Subsequently, the paints 1 to 5 were compared with the various paints containing the colored aggregate.
Paint 1
Ratio (parts by weight) Gel particles: dispersion = 1: 3.5
Volatiles weight ratio Gel particles: Dispersion = 1: 2
Viscosity 1800mPa · s
Solid content of gel-like particles 19.5% Resin content 15.9%
About 70% of gel-like particle size is about 2-3mm

Paint 2
Ratio (parts by weight) Gel particles: dispersion = 1: 0.3
Volatiles by weight ratio Gel particles: Dispersion liquid = 1: 0.3
Viscosity 7000mPa · s
Solid content of gel-like particles 40.0% Resin content 25.0%
About 70% of gel-like particles are about 1mm in size

Paint 3
Ratio (parts by weight) Gel particles: dispersion = 1: 2
Volatiles weight ratio Gel particles: Dispersion = 1: 2
Viscosity 4000 mPa · s
Solid content of gel-like particles 45.0% Resin content 20.5%
About 60% of gel-like particles are about 2-3mm

Paint 4
Ratio (parts by weight) Gel particles: dispersion = 1: 1
Volatiles weight ratio Gel particles: Dispersion liquid = 80.5: 86.0 = 1: 1.06
Viscosity 1000mPa · s
Solid content of gel-like particles 19.5% Resin content 15.9%
Gel particles with a size of 2-3mm are around 70%

Paint 5
Ratio (parts by weight) Gel particles: dispersion = 1: 1
Volatiles weight ratio Gel particles: Dispersion liquid = 80.5: 86.0 = 1: 1.06
Viscosity 1000mPa · s
Gel content solid content 19.5% Resin content 4.2%
Gel particles with a size of about 1 mm are about 70%

The coating material 1 of the comparative example had a large amount of dispersion and a large amount of volatile matter in the dispersion, and the coating material 2 had a small amount of dispersion and a small amount of volatile matter in the dispersion. The paint 3 had less gel-like particles than the various colored aggregate-containing paints, and had a large amount of volatile components in the dispersion.
Moreover, the coating material 4 was a thing with the low viscosity of a dispersion liquid, and the coating material 5 reduced the resin part of the gel-like particle | grains.

A storage stability test was conducted on the various colored aggregate-containing paints and paints 1-5.
Each of these paints was put in a bottle of about 1 kg and allowed to stand in an atmosphere of 50 ° C. for 1 week, and then compared with a blank paint.
Although there was some material separation, the paint did not harden. When the viscosity of these paints was measured, there was almost no change in the viscosity of the colored aggregate-containing various paints and the paints 4 and 5 of the comparative examples. In paints 1 and 3, a decrease in viscosity was confirmed, and in paint 2, an increase in viscosity was confirmed.

In addition, when the size of the gel particles is compared with that before the stability test, it can be confirmed that the gel particles of the paint 1 and the paint 3 are small, and the paint 2 is confirmed to be large. I was able to.
Furthermore, painting was performed using these paints. First, these paints were stirred for about 30 seconds with a hand mixer to confirm the size of the gel-like particles. In the paint 2, the gel-like particles became fine by this stirring due to the high volatile content of the gel-like particles and the high viscosity of the dispersion.

These were painted with a lysing gun. Since the paint 4 had a low viscosity, the painted paint flowed down due to gravity, making it impossible to make a coated plate.
The paint plate finished with the water-based colorful paint was able to obtain the planned design feeling, but with the paint 1 and paint 3, the gel-like particles became smaller, so the colored aggregate-containing various paint It was different from the one. Also, the paint 1 was thin due to the low viscosity.

Moreover, in the coating material 5, the gel-like particle | grains were crushed at the time of coating, and it was lacking in the clarity.
In the case of the paint 2, the gel-like particles were changed by stirring, so that they were different from those in the examples.

Claims (3)

A coating composition comprising gel particles and a dispersion,
A colorful paint containing colored aggregates in which gel-like particles are composed of a synthetic resin emulsion and colored aggregates. The colored aggregate-containing multicolored paint according to claim 1,
Colored aggregate-containing multicolored paint in which the particle size of the colored aggregate is in the range of 37 to 1000 μm. A colored aggregate-containing multicolored paint according to claim 1 or 2,
A colored aggregate-containing various paint in which the solid content of the gel particles is in the range of 10 to 40% by weight, the resin content is in the range of 5 to 25% by weight, and the size is in the range of 2 to 20 mm.