JP2007154033A - Coating material composition and coated molding - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a coating material composition capable of exhibiting design feature of casting surface tone, and a coated molding. <P>SOLUTION: This coating material composition comprises a resin component becoming the forming element of the coating film 12, a luster pigment 14 affording luster color to the coating film 12 and a resin particle 15 comprising an acrylic resin with a haze value of ≤1.5% and Rockwell hardness of ≥95 in M-scale. The coated molding comprises a resin molding 11 and the coating film 12 covering the surface of the resin molding 11. In the coating film 12, a luster pigment 14 affording luster color to the coating film 12 and a resin particle 15 comprising an acrylic resin with a haze value of ≤1.5% and Rockwell hardness of ≥95 in M-scale are dispersed. SV (scatter value) is ≥60 and gloss is ≤10 at the surface of the coating film 12. The resin molding is constituted with the coating film 12 as the outermost layer. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a coating composition for coating a resin molded body, and a coated molded article coated with the resin composition.

A resin molded body constituting an interior of a vehicle, an electric appliance, or the like is painted to improve design properties. For example, the coating film formed by such coating may require a glitter feeling. Generally, the glitter of the coating film is exhibited by the glitter pigment contained in the coating film. Furthermore, in order to obtain a matting effect on the coating film surface, a matting agent such as silica is contained in the coating film. On the other hand, a matte paint applied to a metal is known to which resin particles are added (see Patent Document 1).
JP 2001-342428 A

  By the way, various design properties come to be exhibited by the coating film formed by the painting to the coating molded product by which the resin molding was painted. That is, design properties that cannot be obtained only by resin molding are expressed by the coating film. For example, the design of the resulting molded product can be improved by using a resin molded body as a base material and finishing the surface in a metallic style by painting. In particular, in a coated molded product having a cast surface-like surface similar to the surface of a casting, a new design property that a solid feeling can be obtained while maintaining the light weight as a resin product comes to be exhibited. Therefore, the present inventors have attempted to express such cast-tone-like design characteristics with a coating film having both glitter and matte properties. However, as shown in FIG. 2, when the coating film 21 contains the glitter pigment 22 and the silica 23 as a matting agent, when the coating film 21 is intended to impart glitter and matting properties, The arrival of light to the pigment is hindered by the matting agent in the coating. That is, when a lustrous feeling is imparted to the coating film, a glittering feeling cannot be obtained, and thus there is a problem that it is difficult to exert a cast surface tone design.

  This invention is made | formed in view of such the conventional situation, The objective is to provide the coating composition and coating molded article which can exhibit the designability of a cast surface tone.

  In order to achieve the above object, the coating composition of the invention according to claim 1 comprises a resin component that is a coating film forming element and a glitter pigment that imparts glitter to the coating film, and a resin. A coating composition for applying a coating to a molded body, comprising a resin particle having a haze value of 1.5% or less and having a Rockwell hardness of 95 or more on an M scale. To do.

  According to this structure, the coating film with the uneven surface can be formed with the resin particles contained in the coating composition. For this reason, a part of the light irradiated on the surface of the coating film is irregularly reflected on the surface, so that the gloss on the surface of the coating film is suppressed, resulting in a matte feeling. Furthermore, the resin particles are formed from an acrylic resin having a haze value of 1.5% or less. Therefore, when incident light incident from the surface of the formed coating film passes through the resin particles, the incident light passes through the resin particles with a high transmittance when reaching the glittering pigment contained in the coating film. To do. As a result, since the incident light easily reaches the glitter pigment, even with a coating film in which the amount of light incident on the coating film decreases by having such an uneven surface, Is fully demonstrated. Furthermore, since the Rockwell hardness of the resin particles is 95 or more on the M scale, the hardness of the coating film can be maintained, and a sufficient tactile sensation having hardness like a cast skin can be obtained in the coating film. It is done. In addition, according to this coating composition, since the matte feeling and glitter can be exhibited by a single layer, the coating on the resin molded body can be simplified.

The gist of the invention described in claim 2 is that, in the coating composition according to claim 1, the resin particles contain resin particles having an average particle diameter of 15 μm or more.
According to this structure, since the surface of a coating film is formed in rougher uneven | corrugated shape, a higher frosting effect is acquired. Furthermore, the surface of this coating film is given a tactile sensation having an uneven feeling like a cast skin.

The gist of the invention described in claim 3 is that, in the coating composition according to claim 1 or 2, the glitter pigment is made of a metal material.
According to this configuration, excellent glitter can be obtained.

The gist of the invention described in claim 4 is that the coating composition according to any one of claims 1 to 3 further contains a color pigment and a polyolefin wax.
According to this configuration, when expressing a color tone such as a cast skin with a color pigment, the slipperiness of the coating film surface is improved with the polyolefin wax, whereby color fading can be suppressed.

  The coated molded article of the invention according to claim 5 is a coated molded article provided with a resin molded body as a base material and a coating film covering at least a part of the resin molded body, A resin component is used as a forming element, and the coating film includes a glitter pigment that imparts glitter to the coating film, an acrylic resin having a haze value of 1.5% or less, and Rockwell hardness is M scale. 95 or more resin particles are dispersed, SV (Scatter value) on the surface of the coating film is 60 or more, glossiness is 10 or less, and the coating film is configured as an outermost layer. And

  According to this configuration, in the coating film having an uneven surface due to the resin particles dispersed in the coating film, a part of the light irradiated on the surface of the coating film is irregularly reflected on the surface. Gloss in the is suppressed. That is, when the glossiness on the surface of the coating film is 10 or less, the matte feeling can be sufficiently obtained. Furthermore, the resin particles dispersed in the coating film are formed from an acrylic resin having a haze value of 1.5% or less. For this reason, when incident light incident from the surface of the coating film passes through the resin particles and reaches the glittering pigment dispersed in the coating film, the incident light is transmitted through the resin particles with high transmittance. Incident light easily reaches the pigment. That is, even if the SV on the surface of the coating film is 60 or more, even if the coating film has such an uneven surface, the amount of light incident on the coating film is reduced. Is fully demonstrated. Furthermore, since the Rockwell hardness of the resin particles is 95 or more on the M scale, the hardness of the coating film can be maintained, and a sufficient tactile sensation having hardness like a cast skin can be obtained in the coating film. It is done. In addition, according to this coating film, since a matte feeling and glitter are exhibited by a single layer, the configuration of the coating film in the coated molded product can be simplified.

  The invention according to claim 6 is the coated molded article according to claim 5, wherein the coating film contains resin particles having an average particle diameter of 15 μm or more as the resin particles, whereby the surface of the coating film is formed. The gist is that the arithmetic average roughness in is formed to be 17 or more.

  According to this configuration, the surface of the coating film is formed into a rougher uneven shape. That is, when the arithmetic average roughness on the surface of the coating film is formed to be 17 or more, the light irradiated to the surface of the coating film is further diffusely reflected and the surface of the coating film has an uneven feeling like a cast skin. A tactile sensation having

  According to the present invention, it is possible to exhibit a cast surface tone design.

Hereinafter, an embodiment embodying the present invention will be described in detail with reference to FIG.
As shown in FIG. 1, the coated molded article includes a resin molded body 11 serving as a base material and a coating film 12 that covers the surface of the resin molded body 11. The coating film 12 is formed in a thin film shape with the resin portion 13 as a forming element. In the coating film 12, a glitter pigment 14 that imparts glitter to the coating film 12 and a resin made of an acrylic resin. Particles 15 are dispersed. The coating film 12 constitutes the outermost layer of the coated molded product, and the coated molded product has a design surface that is the surface of the coated film 12. This coated molded product exhibits a cast surface tone design by the surface of the coating film 12, that is, the design surface. The coating composition for forming this coating film 12 is demonstrated in detail.

<Coating composition>
The coating composition includes a resin component that is a forming element of the coating film 12, a glitter pigment 14 that imparts glitter to the coating film 12, and resin particles 15 that are made of an acrylic resin having a haze value of 1.5% or less. Contains. The haze value of the acrylic resin constituting the resin particle 15 is more preferably 1.0% or less. Further, the Rockwell hardness of the resin particles 15 is 95 or more on the M scale. Furthermore, the coating composition of this embodiment contains a colored pigment and a polyolefin wax which is a slip agent.

(Resin component)
The resin component that forms the coating film 12 is not particularly limited, and may be appropriately selected according to the material of the resin molded body 11 to which the coating composition is applied, the hardness required of the coating film 12, and the like. Examples of the resin component include cellulose resins, alkyd resins, polyester resins, epoxy resins, vinyl chloride resins, polyurethane resins, acrylic silicone resins, fluorine resins, vinyl acetate resins, acrylic resins, acrylic resins. Examples include urethane resins, polyvinyl butyral resins, melamine resins, and the like. These resin components may be used alone or in combination of two or more.

  Among these resin components, since the strength of the coating film 12 can be sufficiently obtained, an acrylic urethane resin is preferable from the viewpoint of improving the scratch resistance. It does not specifically limit as acrylic urethane type resin, A commercial item can be used. Examples of the acrylic urethane-based resin include a reaction product of an acrylic polyol and an isocyanate compound, and a crosslinked product obtained by crosslinking an acrylic resin having a functional group and a urethane resin having a functional group.

  Examples of the acrylic monomer that forms the acrylic urethane resin include acrylic acid esters and methacrylic acid esters. Examples of the acrylate ester include methyl acrylate, ethyl acrylate, propyl acrylate, isopropyl acrylate, butyl acrylate, hexyl acrylate, octyl acrylate, and lauryl acrylate. Examples of the methacrylic acid ester include methyl methacrylate, ethyl methacrylate, propyl methacrylate, isopropyl methacrylate, butyl methacrylate, hexyl methacrylate, octyl methacrylate, lauryl methacrylate and the like.

  Examples of the isocyanate compound that forms the acrylic urethane resin include tolylene diisocyanate, naphthalene diisocyanate, diphenylmethane diisocyanate, isophorone diisocyanate, xylylene diisocyanate, hexamethylene diisocyanate, and the like.

  In addition, the form of the base paint used as the base of the paint composition is not particularly limited. For example, a solvent-type paint in which the resin component is dissolved in a solvent, and an emulsion-type paint in which the resin component is dispersed in a dispersion medium mainly composed of water. Etc. can be adopted. Examples of the solvent for the solvent-type paint include aromatic hydrocarbon solvents, aliphatic hydrocarbon solvents, ester solvents, ketone solvents, alcohol solvents, ether solvents, and the like. Examples of the dispersion medium for the emulsion type paint include a mixture of water and a water-soluble organic solvent in addition to water. Examples of the water-soluble organic solvent include water-soluble alcohols such as methanol, ethanol and isopropyl alcohol, glycols and glycol ethers.

The content of the resin component in the coating composition is not particularly limited, but is preferably 1 to 50% by mass from the viewpoint of easy adjustment of the thickness of the coating film 12.
(Bright pigment)
The glitter pigment 14 is contained in order to impart glitter to the coating film 12 formed from the coating composition. The glitter pigment 14 is not particularly limited, and a known glitter pigment 14 having a scale shape or a powder shape can be used. Examples of the material of the glitter pigment 14 include metals such as aluminum, copper, nickel alloy, stainless steel, and titanium, and metal oxides such as mica, silica, and alumina. In addition, the material which comprises the luster pigment 14 may be single type, or may be combined. Further, it may be a colored colored pigment or a surface-coated colored pigment whose surface is covered with a coating such as a metal oxide. Examples of the colored glitter pigment include colored aluminum flake pigments, and examples of the surface-coated glitter pigment include glass flake pigments coated with metal or titanium dioxide, alumina flake pigments coated with metal oxide, and metal oxides. And silica flake pigment coated with. Among these glitter pigments 14, a pigment made of a metal material is preferable, and aluminum flakes are more preferable from the viewpoint that excellent glitter is easily exhibited.

  The content of the glitter pigment 14 in the coating composition is preferably 1 to 30 mass%, more preferably 2 to 28 mass% with respect to the total mass of the resin component and the glitter pigment 14. More preferably, it is 3 to 25% by mass. If the content of the glitter pigment 14 is less than 1% by mass, sufficient glitter may not be obtained. On the other hand, if the content of the glitter pigment 14 exceeds 30% by mass, the glitter becomes too high, and on the contrary, it is difficult to obtain a cast skin feeling or the strength and durability of the coating film 12 are decreased. There is a fear.

(Resin particles)
The resin particles 15 are contained in order to form the surface of the coating film 12 in an uneven shape. Since the resin particles 15 are formed from an acrylic resin having a haze value of 1.5% or less, the resin particles 15 are excellent in transparency (transmittance of visible light). Furthermore, if an acrylic resin having a haze value of 1.0% or less is used, the transparency is more excellent. Although the minimum of this haze value is not specifically limited, Considering the characteristic of acrylic resin, it is 0.1% or more. In addition, this haze value says the haze value measured based on JISK7105-1981. When this haze value exceeds 1.5%, the light incident from the surface of the coating film 12 does not reach the inside of the coating film 12 sufficiently, so that the glitter by the glitter pigment 14 is not exhibited. That is, the resin particles 15 are formed from an acrylic resin having a haze value of 1.5% or less, so that the light incident from the surface of the coating film 12 sufficiently reaches the glittering pigment 14. 12 glitters are exhibited.

  The acrylic resin that is the material of the resin particles 15 is not particularly limited, but preferably has a glass transition point higher than the curing temperature at which the coating composition is cured in order to reliably maintain the particle shape. Examples of the acrylic resin include methyl methacrylate, crosslinked methyl methacrylate, ethylene glycol dimethacrylate, dimethylaminoethyl methacrylate, and the like. These acrylic resins may be a single material or a composite material. Moreover, the resin particle 15 may contain the resin particle 15 which consists of the same acrylic resin, and may contain the multiple types of resin particle 15 which consists of different acrylic resin. Further, a plurality of types of resin particles 15 having different average particle diameters may be included as the resin particles 15.

  Since the Rockwell hardness of the resin particles 15 is 95 or more on the M scale, the hardness of the coating film 12 is increased, and a tactile sensation having hardness like a cast skin is sufficiently obtained. The Rockwell hardness of the resin particles 15 is preferably 98 or more on the M scale. The upper limit of the hardness of the resin particles 15 is not particularly limited, but is about 110 or less considering the characteristics of the acrylic resin. This Rockwell hardness is a value measured according to JIS K 7202-2-1987 (M scale).

  The average particle diameter of the resin particles 15 is preferably 15 μm or more from the viewpoint that the surface of the coating film 12 can be easily formed in an uneven shape. In addition, the second resin having an average particle diameter of 30 μm or more is formed from the viewpoint that the surface of the coating film 12 is formed into a rougher uneven shape, so that the matte feeling is enhanced and the touch feeling like a cast skin is easily obtained. More preferably, particles are contained. Further, a plurality of types of configurations having different average particle sizes, for example, constituted of at least two types of first resin particles having an average particle size of 15 μm or more and less than 30 μm and second resin particles having an average particle size of 30 μm or more, Alternatively, by constituting only the second resin particles having an average particle diameter of 30 μm or more, it becomes easier to obtain a tactile sensation having an uneven feeling like a cast skin. In addition, it is preferable that the particle size distribution of the 1st resin particle whose average particle diameter is 20 micrometers is about 3-40 micrometers. Moreover, it is preferable that the particle size distribution of the 2nd resin particle whose average particle diameter is 30 micrometers is about 6-60 micrometers.

  Although the upper limit of this average particle diameter is not specifically limited, When the intensity | strength and durability of the coating film 12 are considered, Preferably it is less than 100 micrometers, More preferably, it is less than 70 micrometers, More preferably, it is less than 60 micrometers. In particular, when the average particle size of the resin particles 15 to be blended is 30 μm or more and less than 60 μm, it is possible to form the coating film 12 having strength, design properties, and touch. In addition, this average particle diameter means the average particle diameter measured with the laser diffraction type particle size measuring device.

  The content of the resin particles 15 in the coating composition is preferably 5 to 40% by mass, more preferably 8 to 40% by mass, and still more preferably based on the total mass of the resin component and the resin particles 15. Is 10-40 mass%. When the content of the resin particles 15 is less than 5% by mass, the unevenness on the surface of the coating film 12 becomes too rough, and the matte feeling may not be sufficiently obtained. On the other hand, if the content of the resin particles 15 exceeds 40% by mass, the strength and durability of the coating film 12 may not be sufficiently obtained.

(Color pigment)
The coating composition of the present embodiment contains a color pigment in order to express a color tone like a cast skin with respect to the coating film 12 to be formed. The color pigment is not particularly limited as long as it is a known color pigment for paints. Examples of the color pigment include organic pigments such as azo lake pigments, phthalosinine pigments, indigo pigments, perinone pigments, perylene pigments, quinophthalone pigments, dioxazine pigments, quinacridone pigments, carbon black, chrome lead, yellow oxidation Examples thereof include inorganic pigments such as iron, bengara, and titanium dioxide. The content of the color pigment in the coating composition is not particularly limited as long as it does not impair the glitter of the glitter pigment 14, but is preferably 0.01 to the total mass of the resin component and the color pigment. 1% by mass.

(Slip agent)
The coating composition of this embodiment contains a polyolefin wax as a slip agent. This polyolefin wax is a component that suppresses color fading of the coating film 12 by improving the slipperiness on the surface of the coating film 12. The polyolefin wax is a wax made of a low molecular weight polyolefin having an olefin as a basic structural unit and a weight average molecular weight of 500 to 15,000. Examples of the polyolefin wax include polyethylene wax, polypropylene wax, polybutylene wax, and paraffin wax. This polyethylene wax may be contained alone or in combination of two or more. Among these polyolefin waxes, polyethylene wax is preferable from the viewpoint of hardly affecting the physical properties of the resin particles 15 made of an acrylic resin.

  The content of the slip agent in the coating composition is preferably 1 to 20% by mass, more preferably 2 to 15% by mass, and further preferably 3 to 3% by mass with respect to the total mass of the resin component and the slip agent. 12% by mass. If the content of the slip agent is less than 1% by mass, the effect of improving color fading may not be sufficiently obtained. On the other hand, when it exceeds 20 mass%, there exists a possibility that the intensity | strength and durability of the coating film 12 may not fully be obtained.

<Coated molded products>
By applying a coating to the resin molded body 11 using this coating composition, a coated molded product is obtained. The resin material constituting the resin molded body 11 is not particularly limited. For example, ABS (acrylonitrile / butadiene / styrene copolymer), PC (polycarbonate), PC / ABS alloy, PP (polypropylene), PMMA (polymethacrylic acid). Methyl), olefinic thermoplastic elastomer (TPO), and the like.

  This coated molded product is a molded product that is applied to a site that requires designability, and specifically, a molded product that constitutes the interior of a vehicle such as a console, an instrument panel, a center cluster, a mobile phone, etc. Mobile communication terminal casings, TV, personal computer casings, and the like. Since this paint molded product is particularly demanding for a high-class feeling, profound feeling, etc., and the design property is regarded as important, a paint composition and its paint composition can be formed by forming a molded product that constitutes the interior of a vehicle. It is possible to increase the utility value of coated molded products coated with.

  The coating film 12 is formed from the coating composition, thereby providing a glitter pigment 14 that imparts glitter to the coating film 12 and resin particles 15 made of an acrylic resin having a haze value of 1.5% or less. Contained. Further, the Rockwell hardness of the resin particles 15 is 95 or more on the M scale. In this coated molded product, the coating film 12 formed from the coating composition is configured as the outermost layer, and thus the design property is exhibited by the coating film 12. And, the SV (Scatter value) on the surface of the coating film 12 is 60 or more, so that the coated molded article is configured to obtain a glittering feeling. Furthermore, when the glossiness on the surface of the coating film 12 is 10 or less, the coated molded product is configured to have a matte feeling. Further, SV is preferably 120 or less, and SV is more preferably 70-100. In addition, SV is a value which shows light-scattering property, and is measured using a laser type metallic feeling measuring apparatus Alcorp (registered trademark) LMR-200 (trade name, manufactured by Kansai Paint Co., Ltd.). Further, the glossiness is a value measured according to JIS Z 8741-1997, Method 3 (60 ° glossiness).

  The thickness (film thickness) of the coating film 12 is preferably 10 to 100 μm, more preferably 20 to 80 μm, and still more preferably 30 to 60 μm. If the film thickness is less than 10 μm, there is a possibility that the holding performance of the resin particles 15 and the glitter pigment 14 by the resin component cannot be sufficiently obtained. On the other hand, when this film thickness exceeds 100 micrometers, there exists a possibility that the stable formation of the coating film 12 may be prevented.

  The surface of the coating film 12 is uneven due to the inclusion of the resin particles 15. The degree of unevenness on the surface of the coating film 12 is arithmetic average roughness (Ra, JIS B 0601-2001), preferably 17 or more, more preferably 19 or more. If the arithmetic average roughness is less than 17, the matte effect may not be sufficiently obtained.

  In particular, by including resin particles having an average particle diameter of 15 μm or more in the coating film 12, the arithmetic average roughness is formed to be 17 or more. Become better.

  Now, a coating molded product is manufactured by coating the resin molding 11 with a coating composition. The resin molded body 11 can be coated by a known coating method such as an air spray method, an electrostatic method, brush coating, or immersion.

  At this time, since the resin particle 15 is contained in the coating composition, the surface of the coating film 12 is formed in an uneven shape by the resin particle 15. The coating composition contains a glitter pigment 14. Furthermore, the resin particles 15 are formed from an acrylic resin having a haze value of 1.5% or less. For this reason, when light incident from the surface of the formed coating film 12 passes through the resin particles 15 and reaches the glitter pigment 14, the light passes through the resin particles 15 with a high transmittance. 12 makes it easy for light to reach the bright pigment 14. In addition, since the Rockwell hardness of the resin particles 15 is 95 or more on the M scale, the hardness of the convex portion on the surface of the coating film 12 is increased.

The effects exhibited by this embodiment will be described below.
(1) Since the resin particle 15 is contained in this coating composition, the coating film 12 having an uneven surface can be formed. For this reason, the gloss on the surface of the coating film 12 is suppressed because a part of the light irradiated on the surface of the coating film 12 is irregularly reflected on the surface. Furthermore, since the resin particles 15 are made of an acrylic resin having a haze value of 1.5% or less, incident light incident from the surface of the formed coating film 12 passes through the resin particles 15 with a high transmittance. As a result, since the incident light easily reaches the glitter pigment 14, even if the coating film 12 has such an uneven surface, the amount of incident light into the coating film 12 is reduced. The glitter due to 14 is sufficiently exhibited.

  That is, in the coating film 12 formed from this coating composition, a matte feeling is obtained by the uneven surface. In addition, the coating film 12 can exhibit the function of the glitter pigment 14 even when the amount of light incident on the coating film 12 is reduced due to the uneven surface. A feeling will be obtained. Furthermore, since the Rockwell hardness of the resin particles 15 is 95 or more, the hardness of the coating film 12 can be maintained and the hardness of the convex portion on the surface of the coating film 12 is increased. A tactile sensation having the hardness as described above can be sufficiently obtained. Thus, by providing a feeling of brightness, a matte feeling, and a tactile sensation like a cast skin, it is possible to exhibit a cast skin tone design.

  In addition, according to this coating composition, since the matte feeling and the glitter can be exhibited by a single layer, the coating on the resin molded body 11 can be simplified. As a result, it is possible to simplify the production of a coated molded article in which the resin molded body 11 is used as a base material and the coating film 12 formed from this coating composition is formed, and to realize a reduction in the cost of the coated molded article. Can do.

  (2) It is preferable to contain resin particles having an average particle diameter of 15 μm or more as the resin particles 15 in the coating composition. According to this structure, since the surface of the coating film 12 is formed in a rougher uneven shape, a higher matte effect can be obtained, and the surface of the coating film 12 has a tactile sensation such as a cast skin. Is done. Moreover, even if it is a case where the incident amount of the light in the coating film 12 further reduces by containing the resin particle whose average particle diameter is 15 micrometers or more, the resin particle has a haze value of 1.5% or less. Since it is formed from an acrylic resin, the amount of light reaching the glittering pigment 14 can be secured, and as a result, it is possible to obtain a sufficient glitter feeling.

(3) By including the glitter pigment 14 made of a metal material, excellent glitter can be obtained.
(4) It is preferable that a color pigment and a polyolefin wax are contained. In this case, when expressing a color tone such as a cast skin with the color pigment, the slippage on the surface of the coating film 12 is improved with the polyolefin wax, whereby the color fading can be suppressed.

  (5) The coated molded article has a coating film 12 that covers at least a part of the resin molded body 11, and the coating film 12 has an acrylic resin having a glitter pigment 14 and a haze value of 1.5% or less. The resin particles 15 made of are dispersed. Furthermore, SV on the surface of the coating film 12 is 60 or more and glossiness is 10 or less. And the surface of the coating film 12 is exposed by comprising the coating film 12 as an outermost layer.

  According to this configuration, the gloss on the surface of the coating film 12 is suppressed by the resin particles 15 dispersed in the coating film 12. That is, when the glossiness on the surface of the coating film 12 is 10 or less, a matte feeling can be sufficiently obtained. Furthermore, since the resin particles 15 dispersed in the coating film 12 are formed of an acrylic resin having a haze value of 1.5% or less, incident light easily reaches the glittering pigment 14. That is, even if it is the coating film 12 by which SV in the surface of the coating film 12 is 60 or more and it has such an uneven | corrugated surface, the incident amount of the light into the coating film 12 reduces, it is a luster pigment. The glitter due to 14 is sufficiently exhibited. Furthermore, when the Rockwell hardness of the resin particles 15 is 95 or more, the hardness of the coating film 12 can be maintained, and a tactile sensation having a hardness like a cast skin can be sufficiently obtained. Therefore, it is possible to exhibit a cast surface tone design. In addition, according to this coating film 12, since the matte feeling and the glitter are exhibited by a single layer, the configuration of the coating film 12 in the coated molded product can be simplified.

  (6) It is preferable that the coating film 12 includes resin particles having an average particle diameter of 15 μm or more as the resin particles 15 so that the arithmetic average roughness on the surface of the coating film 12 is 17 or more. In this case, the surface of the coating film 12 is formed in a rougher uneven shape. That is, when the arithmetic average roughness on the surface of the coating film 12 is formed to be 17 or more, a higher matte effect can be obtained, and the surface of the coating film 12 has a tactile sensation like a cast skin. Is granted.

(Modification)
It should be noted that the embodiment described above can be modified and embodied as follows.
-You may comprise the coating film 12 of a coating composition and a coating molded article, without containing a coloring pigment.

-You may comprise a coating composition, without containing polyolefin wax.
-You may contain ethylene-vinyl acetate wax which is slip agents other than polyolefin wax, a silicon-type slip agent, etc.

In order to improve the adhesion between the resin molded body 11 and the coating film 12, an anchor coat may be applied to the resin molded body 11.
The coating composition and the coating film 12 can contain an ultraviolet absorber, an antioxidant, a plasticizer, and the like as necessary. Further, the coating composition may contain a dispersant, a viscosity modifier, an antifoaming agent and the like as required.

The technical idea that can be grasped from the embodiment will be described below.
A coated molded product that is applied to the interior of a vehicle, comprising a resin molded body that is a base material and a coating film that covers at least a part of the resin molded body, wherein the coating film is claimed in claim 1. Item 5. A molded article formed from the coating composition according to any one of items 4 to 5.

Next, the embodiment will be described more specifically with reference to examples.
(Examples 1 to 11)
As a glitter pigment for solvent-based base paints (made by Nippon Bee Chemical Co., Ltd., R241TG, resin solid content (resin component) 31.2% by mass) containing acrylic urethane resin as a coating film forming component The aluminum flake pigment was blended so as to be 6.3% by mass with respect to the total mass of the resin component and the luster pigment. Furthermore, resin particles having an average particle diameter shown in Table 1 were blended so as to be 26% by mass with respect to the total mass of the resin component and the resin particles. In addition, first resin particles having an average particle diameter of 18 μm (manufactured by Toyobo Co., Ltd., Tuftic (registered trademark) AR-650S), and second resin particles having an average particle diameter of 30 μm (manufactured by Toyobo Co., Ltd., Tuftic) (Registered trademark) AR-650M) has a haze value of 0.8%, and each resin particle has a Rockwell hardness (M scale) of 100. In addition, 1% by mass of the color pigment was blended with respect to the total mass of the resin component and the color pigment, and in Examples other than Examples 1, 5, and 9, a slip agent was blended as shown in Table 1. As the slip agent, polyethylene (PE) wax, ethylene-vinyl acetate (EVA) wax or silicon slip agent was used. In addition, the density | concentration of the slip agent in Table 1 is the mass% with respect to the total mass of a resin component and a slip agent.

  A coating composition was prepared by stirring the base coating and each component using a stirrer. After these coating compositions are applied to an ABS plate as a resin molding by spraying, the coating composition on the ABS plate is dried by a hot air dryer to obtain a coated molded article having a coating film on one side of the ABS plate. Formed.

The following measurement and evaluation were performed on the obtained coated molded article. These evaluation results are also shown in Table 1.
(A) Film thickness When the coating composition is applied to the ABS plate, the surface of the ABS plate and the surface of the tin plate (5 cm × 10 cm × 0.1 mm) are arranged in parallel, At the same time, the coating composition was applied. The dry film thickness on this tin plate was measured using SDMmini R manufactured by Sanko Denshi Co., Ltd.

(B) Glossiness The glossiness on the surface of the coating film was measured in accordance with Method 3 (60 ° glossiness) of JIS Z 8741-1997.

(C) Evaluation of brightness (SV)
SV on the surface of the coating film was measured using a laser-type metallic feeling measuring device Alcorp (registered trademark) LMR-200 (trade name, manufactured by Kansai Paint Co., Ltd.).

(D) Surface roughness Arithmetic average roughness (Ra) on the surface of the coating film was measured in accordance with JIS B 0601-2001.

(E) Tactile sensation Tactile sensation when 10 expert evaluators who evaluate the state of the coating film touch the surface of the coating film with the hand was evaluated by the following evaluation criteria.

A rough feeling like a casting surface can be obtained (good: ○).
Difficult to feel rough (slightly poor: △)
Roughness is hardly obtained (defect: x)
(F) Color fading test In accordance with JIS L 0849-2004, the degree of color fading when a load of 500 g / cm ² was applied to a flat wearer with gauze and rubbed 200 times with a Ford abrasion tester. evaluated. The evaluation criteria are grade 1 (bad) → grade 5 (good).

  As is clear from the results of Examples 1 to 11, since the glossiness shows a value of 10 or less, it is understood that the matte effect is sufficiently obtained. Furthermore, since SV representing luminance is 60 or more, it can be seen that sufficient glitter is obtained. In addition, due to the dispersion of the resin particles, a tactile sensation having hardness like a cast skin was sufficiently obtained. Thus, in Examples 1-11, the design nature of a cast surface tone is exhibited.

  In Examples 5-11, since the 2nd resin particle with an average particle diameter of 30 micrometers was contained, the rough feeling like a casting surface was obtained. Moreover, in Example 2 and Example 6, since PE wax which is polyolefin wax is mix | blended, it is suppressed sufficiently also about discoloration.

The schematic cross section which shows the coating molded product of embodiment. The schematic cross section which shows the conventional coating molded product.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 11 ... Resin molded object, 12 ... Coating film, 14 ... Bright pigment, 15 ... Resin particle | grains.

Claims (6)

A coating composition for coating a resin molded article, which contains a resin component that forms a coating film and a glitter pigment that imparts glitter to the coating film,
A coating composition comprising an acrylic resin having a haze value of 1.5% or less and containing resin particles having a Rockwell hardness of 95 or more on an M scale. The coating composition according to claim 1, wherein the resin particles contain resin particles having an average particle diameter of 15 μm or more. The coating composition according to claim 1, wherein the glitter pigment is made of a metal material. The coating composition according to any one of claims 1 to 3, further comprising a color pigment and a polyolefin wax. A coated molded article comprising a resin molded body as a base material and a coating film covering at least a part of the resin molded body,
The coating film has a resin component as a forming element, and the coating film includes a glitter pigment that imparts glitter to the coating film, an acrylic resin having a haze value of 1.5% or less, and Rockwell hardness. Is dispersed with 95 or more resin particles on the M scale,
A paint molded product characterized in that SV (Scatter value) on the surface of the coating film is 60 or more and glossiness is 10 or less, and the coating film is configured as an outermost layer. The coating according to claim 5, wherein the coating film includes resin particles having an average particle diameter of 15 μm or more as the resin particles, whereby an arithmetic average roughness on the surface of the coating film is formed to be 17 or more. Molding.

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