JPH0241243A - Suede-like molding sheet and its manufacturing method - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention]

(Industrial Application Field) The present invention relates to a molding sheet for forming a suede-like matte coating on the surface of an article having a three-dimensional shape.
It also includes the manufacturing method thereof. [Conventional technology] Matte,
In particular, there is a growing need for plastic molded products that have a soft, suede-like appearance. Molding sheets are often used to manufacture molded products with a matte appearance. The molding sheets used for this purpose are those in which an ink layer with mechanically created fine irregularities on the surface is formed on a base film, or those in which a so-called "matte material" is added and an ink layer is printed on the base film. In addition, nonwoven fabrics are laminated onto a base film. In the case of mechanically provided fine unevenness, there is a limit to the degree of matting because the unevenness is minute. When adding matting material, fine powder of silica or polyethylene is used,
When ink containing these is printed on a base film, the printed layer has no elasticity, so it cannot be used for molded products with complex shapes, and the matting effect is small, and depending on the viewing direction, it may become matte. It won't happen. A high matte effect can be obtained by laminating FuIa15 on a base film, but
The problem remains that it lacks elasticity and is difficult to mold. In recent years, "bead pigments", that is, fine powders of pigments dispersed in synthetic resin and made into granules, have come to be used as colored matte materials. Paints containing bead pigments have a high matte effect and can form a suede-like paint film with a soft texture that is matte when viewed from any direction. If the covering synthetic resin is made of elastic material, it has the advantage of having resilience even if something hits the matte coating, and the appearance will not be scratched. However, it is difficult to obtain products of uniform quality by coating with such paints, and the process is more complex and requires larger equipment than methods that use molding sheets. [Problems to be Solved by the Invention] An object of the present invention is to provide a suede-like coating film that has a sufficient matte effect when viewed from any angle on an article, has a soft impression, has large irregularities, and is highly durable. The object of the present invention is to provide a molding sheet that can be used to form objects. It is also an object of the present invention to provide a method for manufacturing such a molding sheet.

[Means to solve the problem]

Typically, as shown in FIG. 1, the suede-like molding sheet of the present invention includes bead pigments (
21) is added to a vehicle (22) of an ionizing radiation-curable resin to provide a coating film (2) of a matte paint. The base film used in the present invention is a plastic film with good moldability, such as ABS resin polypropylene, polymethyl methacrylate, polystyrene, polyethylene, and polyvinyl chloride, and a laminate of these may be used. The thickness of the base film is generally preferably 50 μm or more in terms of strength and ease of handling. On the other hand, if it is too thick, the moldability will be low, so the upper limit is set at 2 m. As mentioned above, the bead pigment is Fe2O3, -rro
, CaCO3, quinacridone, etc., and elastic resins such as polyurethane, acrylic resin, epoxy, polyester, nylon, fluororesin, vinyl chloride-vinyl acetate copolymer, or a plasticizer if necessary. , a stabilizer, a surfactant, etc., are dispersed and made into particles, and the particle size varies depending on the thickness of the coating film to be formed, but the distribution range is 5 to 80 μm.
Particularly preferred are those in which the distribution maximum is in the range of 10 to 35μ. The color of the bead pigment may be selected as desired. For example, if you use colorless and transparent bead pigments, you can create a deep matte coating, and if you combine bead pigments of two or more colors, you can create a variety of matte surfaces. Typical ionizing radiation-curable resins used for vehicles are electron beam-curable resins, examples of which include oligomers of epoxy acrylate, urethane acrylate, acrylic acid-modified alkyd, acrylic-modified polyester, etc., which have a crosslinked structure. For the purpose of adjusting viscosity and adjusting viscosity, etc., it contains 7-mers such as neopentyl glycol diacrylate, pentaerythritol triacrylate, trimethylolpropane triacrylate, trimethylolpropane trimethacrylate, and dipentaerythritol hexaacrylate. This is what I did. Adding too much of these salts will reduce the flexibility of the cured resin and increase its hardness, so it is best to dilute it with a solvent such as methyl ethyl ketone, ethyl acetate, or toluene to adjust the physical properties of the cured product. . The use of a vehicle in which these resins are mixed with a thermoplastic resin such as urethane elastomer, cellulose acetate propionate, acrylic or vinyl chloride-vinyl acetate copolymer improves the formability of the coating film, thereby improving the formability of the moldable sheet. It is possible to improve the moldability of the material. The coating film preferably has an elongation at break of 60% or more in order to achieve sufficient formability. As shown in FIG. 2, it is a recommended embodiment to provide a surface protective layer on the coating film (2) to improve surface properties such as abrasion resistance and scratch resistance of the molded article. Suitable materials for the surface protective layer include, for example, acrylic, vinyl chloride-vinyl acetate copolymer, urethane elastomer, and materials obtained by adding appropriate additives to these materials. The manufacturing method of the present invention for producing a moldable sheet as described above involves coating a base film with a paint containing a bead pigment added to a vehicle of an ionizing radiation-curable resin, and irradiating it with electron beams or ultraviolet rays to form a coating film. It consists of curing. As a modification, as shown in FIG. 3, an auxiliary film (4
), the base film (1) is bonded to sandwich the paint film (2), the paint film is cured by irradiation with ionizing radiation, and the auxiliary film is peeled off. You can also do that. In FIG. 3, (8) is a paint application means, and (9) is an ionizing radiation irradiation means. As a slightly different embodiment, the above-mentioned paint is applied on a base film with good moldability, and an auxiliary film with a mirror or matte surface and releasable properties is attached to sandwich the paint film.
It is also possible to perform a step of curing the coating film by irradiating it with ionizing radiation and then peeling off the auxiliary film. When a surface protective layer is provided in these embodiments, it may be formed in advance on the surface of the auxiliary film to which the paint is applied. Furthermore, if you wish to remove the gloss on the surface of the paint particularly strongly, it is advisable to make the surface of the auxiliary film matte. Suitable materials for the auxiliary film include polypropylene, cellophane, polyester, fluororesin, and polymethylpentene, and these may be laminated onto paper.
In addition, a hardened layer of silicone or melamine can be applied to prevent peeling.
It may also be paper with an ISLT layer. The matting treatment can be performed by known means such as powder kneading, sandblasting, and chemical treatment.
Even when an auxiliary film in which a layer of a thermally crosslinkable resin mixed with a matting material and a slipping material is provided on the coating film forming surface is used, the surface of the molding sheet can be given a matte finish. When using bead pigments with a relatively large particle size, the particle size of the bead pigment may be larger than the film thickness, so methods for forming a coating film include roll coating, reverse coating, kiss coating, screen printing, etc. , choose something that will make that possible. Electron beams are emitted from various electron beam accelerators, and
MeV1 preferably has an energy in the range of 3 to 6 Me2. Irradiation may be performed from either the base film side or the curable resin (auxiliary film) side. The surface protective layer may be formed on an auxiliary film or a coating using known coating means.

[For use]

Matte paints containing doze pigments added to the vehicle have larger particle diameters than conventional matte paints that use conventional matte materials such as silica powder, and these large particles protrude from the surface, creating uneven surfaces. By forming this, a matte effect is produced. Since the unevenness is large and deep, the level of matteness is sufficient. Pigment particles are covered with elastic resin, so even if an external force is applied, the particles will deform and absorb it, and when the external force is removed, the particle will restore its shape, resulting in a glossy finish. The appearance does not change. The coating has a soft feel, giving it the appearance and feel of high-quality suede. However, the above-mentioned matte paints use a thermosetting resin as a vehicle and require a curing step by heating to form a coating film. On the other hand, a film with good moldability must be used as the base film for the moldable sheet, but such films are generally sensitive to heat and cannot withstand the heating conditions used to cure the coating film. . There is also a method of curing a coating film on a heat-resistant film and laminating it on a base film, but heat-resistant films generally lack elasticity and are rarely moldable. Therefore, the inventors used a matte paint whose vehicle is an ionizing radiation-curable resin that can be cured without heating. Typical ionizing radiations are ultraviolet rays and electron beams, and among these, electron beams are advantageous because they can cure even when a colored vehicle is used. Moreover, many sheets with good moldability have poor solvent resistance, but electron beam curable resins are advantageous because they do not require a solvent. [Example 11 A matte paint having the following composition was prepared. Urethane acrylate 50 parts Bifunctional acrylate monomer 17 parts Acrylic resin beads
30 parts polyethylene wax 3
Polyvinyl chloride film rVT8 with a thickness of 0.35m
Apply the above paint to J (manufactured by Riken Vinyl) using a roll coater (
The coating was applied at a roll temperature of 260°C) and irradiated with a 5MeV electron beam. The elongation of the obtained sheet for forming was 120%, and vacuum forming at 130°C was possible. [Example 2] A matte paint having the following composition was prepared. Urethane acrylate 30 parts Dipentaerythritol hexaacrylate 10 parts Urethane beads 20 parts Polymethyl methacrylate 20 parts Polyethylene wax 3 parts Methyl ethyl ketone and ethyl acetate 17 parts A thermosetting acrylic resin mixed with a matting agent was applied to a 25μ thick polyester film. film r#100F, which was baked with a mold release coating on it.
ABS resin film rA404J (manufactured by Panac Industries) with a thickness of 0.35 seconds is used as an auxiliary film.
Royal Resin) was used as the base film. Apply the above paint to the auxiliary film to form a 40 μ thick paint film, and apply acrylic primer rH3-32GJ on top of the paint film.
A base film coated with (manufactured by Showa Ink) was attached. After irradiating with a 4 MeV electron beam, the auxiliary film was peeled off to obtain a moldable sheet of the present invention having a weight of 1 q. This molding sheet was placed in an injection mold for vacuum preforming, and then ABS resin injection molding was performed to obtain a product with insert decoration. The 1q product has a suede-like three-dimensional surface. [Effect of the Invention 1] By using the molding sheet of the present invention, a suede-like coating film with a sufficient matte effect and a soft feel can be provided on the surface of a plastic molded product having a three-dimensional shape. Therefore, if this molded product is used as an exterior material, the product will be 1q of elegance. According to the manufacturing method of the present invention, such a molding sheet can be easily obtained.

[Brief explanation of the drawing]

FIG. 1 is a schematic cross-sectional view showing the basic form of the molding sheet of the present invention. FIG. 2 is a sectional view similar to FIG. 1, showing a preferred embodiment of the moldable sheet of the present invention. FIG. 3 is a conceptual diagram of an apparatus for explaining the method of manufacturing a molding sheet of the present invention. 1...Base film 2...Coating film 3...Surface protective layer 4...Auxiliary film 8...Coating means 9...Ionizing radiation irradiation means Patent applicant
Dai Nippon Printing Co., Ltd. Agent Patent Attorney Souo Suga Figure 1 Figure 3 Figure 2 Procedure Nei City Authorization (Spontaneous) November 10, 1988 1, Case Description 1988 Patent Application No. 192412 2. Name of the invention: Suede-like molding sheet and its manufacturing method 3. Relationship with the case of the person making the amendment Patent applicant address: 1-1 Ichigaya Kaga-cho-chome, Shinjuku-ku, Tokyo
Name (289) Dai Nippon Printing Co., Ltd. Representative: Yoshitoshi Kitajima 4, Agent: 104 Address: 2-15-14 Tsukiji, Chuo-ku, Tokyo Each column of the claims and detailed description of the invention in the specification (1)
The scope of claims is amended as shown in the attached sheet. (2) “Silica and polyethylene” in specification tube 4
changed to "silica, alumina or polyethylene". (3) Page 6, line 15 “The base film is
1. Polyester, polyamide, acrylonitrile, etc. are inserted between the resin and the BS resin. (4) Correct “50μ゛” in the first line of page 7 to “38μ”. (5) “Oligomer” on page 8, line 4 of the same
or oligomer.” (6) From page 8, line 16 to page 9, line 1, delete the sentence ``These resins can...'' and replace them with the following sentence. [ When a vehicle containing a thermoplastic resin such as urethane elastomer, cellulose acetate propionate, acrylic resin, polyester, polystyrene, vinyl chloride-vinyl acetate copolymer or rubber resin is used with these resins, the moldability of the coating film increases. (7) "Electron beam or ultraviolet light" on page 9, line 14 of the same page.
is changed to "ionizing radiation such as electron beams or ultraviolet rays." (8) On page 10, line 15, insert ``polyimide, polyamide, EVAL,'' between ``Material'' and ``polypropylene.'' (9) "Range of 1 to 10 MeV, preferably 3 to 6 Me" on page 11, line 12 of the same page is rl 00 to 300Ke
v1 preferably in the range of 150 to 200 KeV.” (10) “V T 8 ” on page 13, line 19 of the same page is r
Corrected to GX-IJ. (11) "5Me" from the last line of page 13 to the first line of page 14
(12) Correct “4MeV” in the third line of page 15 to r180.
Ke VJ. Claims (1) A sheet for suede-like molding, comprising a base film with good moldability and a coating film of a matte paint in which a bead pigment is added to a vehicle of an ionizing radiation-curable resin. (2) The suede-like forming sheet according to claim 1, further comprising a surface protective layer provided on the coating film. (3) The suede-like forming sheet according to claim 1 or 2, wherein the coating film has a breaking elongation of 60% or more. (4) The sheet for suede-like molding according to claim 1 or 2, using a matte paint containing a bead pigment having a particle size distribution in the range of 5 to 80 μm and a maximum of the distribution in the range of 10 to 35 μm. (5) Beads in two or more colors! 3. The sheet for suede-like forming according to claim 1 or 2, which uses a coating material containing i. (6) The sheet for suede-like molding according to claim 1 or 2, which uses a paint whose vehicle is a mixture of an ionizing radiation-curable resin and a thermoplastic resin. (7) A method for manufacturing a suede-like molding sheet, which comprises applying a paint containing a bead pigment added to a vehicle of an ionizing radiation-curable resin onto a base film, and curing the paint film by irradiating the paint with ionizing radiation. (8) A paint in which bead pigments are added to an ionizing radiation-curable resin vehicle is applied to an auxiliary film with a mirror or matte removable surface, and a base film with good moldability is sandwiched between the paint films. A method for manufacturing a sheet for suede-like molding, which comprises laminating sheets together, then curing the coating film by irradiating with electron beams or ultraviolet rays, and then peeling off the auxiliary film. (9) A matte paint containing bead pigments added to an ionizing radiation-curable resin vehicle is applied onto a base film with good moldability, and a mirror or matte releasable surface is created between the paint films. A method for manufacturing a sheet for suede-like molding, which comprises laminating an auxiliary film with a polyester, then curing the coating film by irradiating it with electron beams or ultraviolet rays, and then peeling off the auxiliary film. (10) The manufacturing method according to claim 8 or 9, further comprising the step of providing a surface protective layer in advance on the surface of the auxiliary film to which the paint is applied.

Claims (10)

[Claims] (1) A sheet for suede-like molding, comprising a base film with good moldability and a coat of matte paint in which bead pigments are added to an ionizing radiation-curable resin vehicle. (2) The sheet for suede-like molding according to claim 1, further comprising a surface protective layer provided on the coating film. (3) The suede-like forming sheet according to claim 1 or 2, wherein the coating film has a breaking elongation of 60% or more. (4) The sheet for suede-like molding according to claim 1 or 2, using a matte paint containing a bead pigment having a particle size distribution in the range of 5 to 80 μm and a maximum of the distribution in the range of 10 to 35 μm. (5) Using a paint containing bead pigments of two or more colors,
The suede-like molding sheet according to claim 1 or 2. (6) The sheet for suede-like molding according to claim 1 or 2, which uses a paint whose vehicle is a mixture of an ionizing radiation-curable resin and a thermoplastic resin. (7) Manufacture of a sheet for suede-like molding by applying a paint containing bead pigments to an ionizing radiation-curable resin vehicle onto a base film, and curing the paint film by irradiating it with electron beams or ultraviolet rays. Method. (8) A paint containing bead pigment added to an ionizing radiation-curable resin vehicle is applied to an auxiliary film with a mirror or matte removable surface, and a base film with good moldability is sandwiched between the paint films. A method for manufacturing a sheet for suede-like molding, which comprises laminating sheets together, curing the coating film by irradiating with electron beams or ultraviolet rays, and then peeling off the auxiliary film. (9) A matte paint containing bead pigments added to an ionizing radiation-curable resin vehicle is applied onto a base film with good moldability, and a mirror or matte releasable surface is created between the paint films. A method for manufacturing a sheet for suede-like molding, which comprises laminating an auxiliary film with a polyester, then curing the coating film by irradiating it with electron beams or ultraviolet rays, and then peeling off the auxiliary film. (10) The manufacturing method according to claim 8 or 9, further comprising the step of providing a surface protective layer in advance on the surface of the auxiliary film to which the paint is applied.