JP4467679B2 - Cosmetic material - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention has a film obtained by crosslinking and curing an ionizing radiation curable composition on the surface of a decorative material, and the ionizing radiation curable composition is repelled by a liquid repellent pattern in the lower layer to form a recess. This relates to a so-called “decorative material having repellency irregularities”.
“Cosmetic material having repellency irregularities” as in the present invention is relatively often applied to decorative paper, which is a decorative material for paper base materials, but is not limited to paper and can be applied to other base materials. It is.
[0002]
[Prior art]
Since cosmetics are used for the purpose of decorating the target building, joinery, furniture, and other items, the decorative material possesses the decorative function of the cosmetics in addition to its high decorativeness. For example, the surface needs to have high durability such as wear resistance, although it is highly necessary to be maintained over a long period of time and depends on the application.
By the way, as “a decorative material having repellency irregularities”, a conduit pattern of wood grain is printed on paper or the like using an ink containing a liquid repellent such as silicone, and a paint such as amino alkyd resin is applied thereon. Thus, it has been known for a long time that the paint on the conduit pattern of the wood is repelled and the recesses are formed along the conduit pattern.
The surface of “Coating material with repellency irregularities” was coated with a coating such as amino alkyd resin similar to the lacquer originally used for woodworking products, but the demand for surface durability gradually increased. As a result, more durable paints such as polyurethane have been used.
[0003]
In recent years, in order to further improve surface durability such as wear resistance of cosmetic materials, ionizing radiation curable paints such as electron beam curable type and ultraviolet curable type for surface coating, especially electron beam curable type paints. In recent years, attempts have been made to perform ionizing radiation curable coatings on the surface of “cosmetics having repellency irregularities” that have been conventionally used.
For example, in JP-A-8-174770, a base picture layer, an anchor layer, a pattern layer imparted with liquid repellency (= liquid repellency pattern), and an electron beam curable top coat layer on a base sheet, And a decorative paper having a concavo-convex pattern in synchronism with the pattern layer formed on the top coat layer, and a method for producing the same are described, and the anchor layer is cured as an electron beam curable type integrally with the top coat resin. In addition, it is described that the pattern layer imparted with liquid repellency is made to be an electron beam curable type and cured integrally with the anchor layer.
And as the anchor layer, use a water-based type compounded with a matting agent so that the solid resin is water-solubilized at room temperature that is cured by an electron beam, and the water is evaporated by heat drying to break off the tack. Yes.
[0004]
If an attempt is made to improve the wear resistance of the decorative material by increasing the coating amount when forming the electron beam curable topcoat layer, the paint becomes highly viscous, resulting in poor fluidity and less unevenness. On the other hand, when the viscosity is decreased by diluting, unevenness tends to occur, but it becomes difficult to secure a coating amount sufficient to obtain sufficient wear resistance and the like.
In JP-A-8-174770, these drawbacks are solved by forming an anchor layer. The anchor layer protects and strengthens the underlying pattern layer, and also when forming a liquid-repellent pattern or surface coating. Sometimes, the degree of penetration into the underlying picture layer or paper layer is controlled.
[0005]
However, in the above publication, a specific description is scarce and direct follow-up is difficult except for a simple explanation of the resin constituting the anchor layer. According to the inventor's study, the unevenness itself may certainly be improved, but when an ionizing radiation curable paint is applied on the anchor containing the matting agent, the matte feeling is not completely eliminated, The entire decorative paper is finished in a mat. For this reason, the difference in glossiness with the liquid repellent pattern portion is reduced, and there is an inevitable disadvantage that the uneven feeling is reduced.
Depending on the thickness of the topcoat layer in this type of “decorative material having repellency irregularities”, the irregularities are on the order of several μm, so that the concave portions are matted and the surroundings are made more glossy than that, This is because it is necessary to help create a feeling of unevenness due to the difference in gloss.
[0006]
[Problems to be solved by the invention]
In the above prior art, the anchor layer containing the matting agent was simply formed while the anchor layer was used, so that the point that resulted in the loss of unevenness was eliminated, and the ionizing radiation curable coating was applied to the lower layer. It is an object of the present invention to achieve an improvement in the unevenness due to the difference in gloss by increasing the gloss by applying the top coat layer while suppressing the penetration appropriately.
[0007]
[Means for Solving the Problems]
In order to solve the problem, by forming a layer that controls the permeability when forming the upper layer using a paint in which extender pigments are dispersed, the surface of the layer itself is a mat, but the ionizing radiation curable type It was found that when the paint was applied, the extender pigment became wet color due to permeation and became highly glossy. In addition, in the part covered with the liquid repellent pattern, the uneven state derived from the extender pigment affects the surface of the liquid repellent pattern, and in addition to the unevenness due to the paint being repelled by the liquid repellent pattern, the gloss difference It has been found that an excellent unevenness effect is caused by the addition of the unevenness improving effect due to, and thus the present invention has been achieved.
[0008]
  1st invention has the transparent resin protective layer which the ionizing radiation-curable composition bridge | crosslinked and hardened | cured the uppermost layer on the base material through the pattern layer on the base material, The said pattern layer and the said Between the transparent resin protective layer, from the pattern layer side, a penetration control layer that controls the permeability of the composition for forming a transparent resin protective layer, and an extender pigment is dispersed in the resin, and A liquid repellent pattern having a property of repelling the transparent resin protective layer forming composition is laminated on the permeation control layer, and there is no transparent resin protective layer on the liquid repellent pattern or compared with the surrounding area. Thin, the bottom of the recess on the liquid repellent pattern is matte compared to the surroundings, the resin constituting the permeation control layer is a thermosetting resin, and the permeation control layer has a binder having an OH group resinBinder resin containing polyvinyl butyral resin asRelates to a cosmetic material characterized by being crosslinked with an isocyanate compound and reacting with an ionizing radiation curable resin composition for forming an upper transparent resin protective layer using OH groups It is.
  2nd invention has the transparent resin protective layer which the ionizing radiation-curable composition bridge | crosslinked and hardened | cured on the base material, From the said base material side between the said base material and the said transparent resin protective layer. A penetration control layer for controlling the permeability of the transparent resin protective layer-forming composition, wherein an extender pigment is dispersed in the resin, and the transparent resin protective layer-forming composition on the penetration control layer The liquid-repellent pattern having the property of repelling is laminated, and there is no transparent resin protective layer on the liquid-repellent pattern or it is thinner than the surroundings, and the bottom of the recess on the liquid-repellent pattern is Compared with matte, the resin constituting the permeation control layer is a thermosetting resin, and the permeation control layer has a binder resin having an OH groupBinder resin containing polyvinyl butyral resin asRelates to a cosmetic material characterized by being crosslinked with an isocyanate compound and reacting with an ionizing radiation curable resin composition for forming an upper transparent resin protective layer using OH groups It is.
  A third invention relates to a cosmetic material according to the first or second invention, wherein the extender pigment is selected from silica, barium sulfate, or calcium carbonate.
  According to a fourth invention, in any one of the first to third inventions, the resin constituting the permeation control layer further includes an ionizing radiation curable resin and is crosslinked with the transparent resin protective layer. It relates to cosmetic materials.
  A fifth invention relates to a cosmetic material according to any one of the first to fourth inventions, wherein the liquid repellent pattern is formed from a composition containing no matting agent.
  A sixth invention relates to a cosmetic material according to any one of the first to fifth inventions, wherein hard spherical particles are dispersed in a transparent resin protective layer.
  A seventh invention relates to a cosmetic material according to any one of the first to fifth inventions, wherein hard amorphous particles are dispersed in a transparent resin protective layer.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be specifically described with reference to the drawings.
1 and 2 are cross-sectional views showing a decorative material according to an embodiment of the present invention.
As shown in FIG. 1, the decorative material 1 of the present invention has a pattern layer 3 composed of a uniform colored layer 3 a and a pattern layer 3 b on a substrate 2, and an extender pigment is dispersed on the pattern layer 3. A certain permeation control layer 4 is laminated on one surface, and on the permeation control layer 4, a liquid repellent pattern 5 is partially laminated in synchronization with the pattern layer 3, and the permeation control layer 4 includes the liquid repellent pattern 5. The transparent resin protective layer 6 in which the ionizing radiation curable composition is cross-linked and cured is laminated on the entire surface, and the transparent resin protective layer 6 on the liquid-repellent pattern 5 is not present or compared with the surrounding area. It is thinned to form the recess 7.
The pattern layer 3 composed of the uniform colored layer 3a and the pattern layer 3b may be omitted. FIG. 2 shows the same cosmetic material as that shown in FIG. 1 except that the permeation control layer 4 is laminated directly on the substrate 2. Is shown.
In addition, although not shown in figure, either the uniform colored layer 3a or the pattern layer 3b may be laminated | stacked on the base material, and the penetration control layer 4 may be laminated | stacked on it.
Each of the above layers will be described in detail later.
[0010]
As the base material 2, any material can be used as long as it is a material that is usually used for a decorative material. If roughly classified, various papers, plastic films or plastic sheets, metal foils, metal sheets, or Each group includes metal plates, wooden boards such as wood, and various ceramic materials.
The materials included in each of these groups may be used alone, but a laminate of any combination of these materials such as a composite of paper or a composite of paper and a plastic film can also be used. These substrates may be coated in the sense of adjusting the color, or a normal pattern may be formed in advance from a design viewpoint. In addition to physical treatment such as corona discharge treatment, the surface has been smoothed prior to painting and normal pattern formation, and in order to improve the adhesion as necessary to improve the degree of adhesion of the pattern. A treatment such as forming a primer layer may be performed. Even after painting and normal pattern formation, an adhesion improving treatment for facilitating subsequent processing may be performed.
[0011]
As various papers, the following are exemplified as typical ones. That is, thin paper, kraft paper, titanium paper, resin-impregnated paper or latex-impregnated paper impregnated with resin or latex in advance for the purpose of strengthening the space between papers can be used. In addition to these, raw materials often used in the field of building materials such as linter paper, paperboard, base paper for gypsum board, or a vinyl wallpaper raw material in which a vinyl chloride resin layer is provided on the surface of the paper can be mentioned. Furthermore, the following papers used in the office field, normal printing, packaging, etc. can also be used. That is, coated paper, art paper, sulfate paper, glassine paper, parchment paper, paraffin paper, or Japanese paper. Further, although distinguished from these papers, woven fabrics and nonwoven fabrics of various fibers having the appearance and properties similar to paper can be used as the base material 2 as follows. The various fibers are glass fibers, asbestos fibers, potassium titanate fibers, alumina fibers, silica fibers, or inorganic fibers such as carbon fibers, or synthetic fibers such as polyester fibers or vinylon fibers.
[0012]
Examples of the plastic film or plastic sheet include those made of various synthetic resins as exemplified below. Various synthetic resins include polyethylene resin, polypropylene resin, polymethylpentene resin, polyvinyl chloride resin, polyvinylidene chloride resin, polyvinyl alcohol resin, vinyl chloride-vinyl acetate copolymer resin, ethylene-vinyl acetate copolymer resin, ethylene -Vinyl alcohol copolymer resin, polyethylene terephthalate resin, polybutylene terephthalate resin, polyethylene naphthalate-isophthalate copolymer resin, polymethyl methacrylate resin, polyethyl methacrylate resin, polybutyl acrylate resin, nylon 6 or nylon 66, etc. And a polyamide resin, a cellulose triacetate resin, a cellophane, a polystyrene resin, a polycarbonate resin, a polyarylate resin, or a polyimide resin.
[0013]
The metal foil, metal sheet, or metal plate is made of a metal as exemplified below. That is, aluminum, iron, stainless steel, or copper. Often used with plating. Examples of the various wooden boards include wood boards, plywood, particle boards, or medium density fiber boards called MDF. Examples of the ceramic material include ceramic building materials such as gypsum board, calcium silicate board, and wood cement board, ceramics, glass, enamel, and fired tile. In addition to these, composites of various materials such as a fiber reinforced plastic plate, a paper honeycomb having both sides coated with iron plates, and a polyethylene resin sandwiched between two aluminum plates can also be used as the substrate 2.
In addition, the above-mentioned various materials and the decorative material using the composite thereof as a base material can be used by being bonded to another base material depending on the application. As the base material to which the decorative material is applied, a substrate having a thickness such as a plate is often selected, but is not limited thereto.
[0014]
The pattern layer 3 composed of the uniform colored layer 3a and the pattern layer 3b gives the base material 2 decorativeness.
The uniform colored layer 3a plays the role of adjusting the color of the surface on the base material 2, and is formed when the base material 2 itself is colored or uneven in color and intended on the surface of the base material 2 Gives color. Although it is often formed with an opaque color, it may be formed with a colored transparent color to make use of the pattern of the base.
In general printing, the object to be printed is often paper, and in a portion having a low printing density, a white base is seen and a highlight portion is formed, so that it is normal that the uniform colored layer 3a is not formed. In the printing of decorative materials, overprinting of special colors (= meaning of adjusted special colors) is often performed rather than using yellow, red, blue and black process colors, and the highlight color is uniformly colored. There is a custom of forming in layer 3a. However, even in the case of a decorative material, if the color of the material of the base material 2 is utilized, or if the base material 2 itself is appropriately colored or is originally colored and uses that color, it is uniform. The formation of the colored layer 3a can be omitted.
[0015]
The pattern layer 3b is a main means for imparting decorativeness to the substrate 2, and is usually formed by printing various patterns using ink and a printing machine.
Patterns include wood grain patterns, marble pattern patterns simulating the surface of rocks, fabric patterns simulating textures and patterns on cloth, or tile patterns, etc. Parquets, patchwork, etc. that combine these as unit patterns There is also a pattern. The pattern of the pattern layer 3b may be based on what already exists, but is recreated with a fairly free idea. Alternatively, artificially designed patterns can be used. Furthermore, starting from the pattern described above, using this as a material, enlargement / reduction, rotation, clipping, repetition, synthesis, extraction or thinning of feature points, or deformation, etc., can be used alone or in combination to create a new pattern. It can also be created and used.
These patterns are formed by multicolor printing with normal yellow, red, blue, and black process colors, as well as by multicolor printing with special colors prepared by preparing individual color plates that make up the pattern. Is done.
[0016]
Both the uniform colored layer 3a and the pattern layer 3 can be formed using substantially the same coating composition or ink composition.
As the resin component in the coating composition or ink composition to be used, any of thermoplastic resins, thermosetting or ionizing radiation curable ones may be used, but a makeup made using a thermoplastic resin binder. Even if it is a material, sufficient physical properties can be exhibited if it is used normally.
Thermoplastic resins include rosin modified maleic acid resin, nitrocellulose, cellulose acetate, cellulose butylacetate, ethyl cellulose, polyamide resin, chlorinated rubber, cyclized rubber, polyamide resin, polyvinyl chloride resin, vinyl chloride / vinyl acetate copolymer resin Ethylene / vinyl acetate copolymer resin, chlorinated polypropylene, acrylic resin, polyurethane resin, styrene male resin, or the like can be used.
There are various types of thermosetting resins, and in principle, any of them can be used. However, in the case of sheet-like decorative materials that occupy most of the present invention, thermosetting resin is meant to maintain sheet flexibility. As the resin, those having flexibility are desirable, and unsaturated polyester resins, polyurethane resins, etc., particularly polyurethane resins are preferred.
A pigment or dye, other additives, a solvent, a diluent or the like is added as a colorant to the resin component, and kneaded to prepare a coating composition or an ink composition.
The uniform colored layer 3a or the pattern layer 3b is formed by a known coating method or printing method using the above-described coating composition or ink composition. For example, a coating method such as roll coating, gravure coating, spray coating, gravure printing, offset printing, gravure offset printing, ink jet method, letterpress printing, or screen printing can be used.
Drying may be performed using the equipment attached to the machine used to carry out these methods, but when using a thermosetting resin component, heating is performed for a long time at a relatively low temperature. Cure by heating or standing at room temperature. When the ionizing radiation curable composition is used, it is cured by crosslinking by irradiation with ultraviolet rays or electron beams.
The ionizing radiation curable compound when using the ionizing radiation curable composition will be described later.
[0017]
The permeation control layer 4 has a function of controlling, particularly suppressing, the permeation of the ionizing radiation curable composition for constituting the transparent resin protective layer 6 into the layer 4 and the lower layer. Without the permeation control layer 4, when the ionizing radiation curable composition for forming the transparent resin protective layer 6 is applied, if the uniform pattern layer 3a is present in the lower pattern layer 3b, uniform coloring is performed. If the base material 2 has permeability even in the layer 3a, a considerable part of the coated composition penetrates into the base material 2, and the thickness of the transparent resin protective layer 6 is reduced. This is because the required surface performance cannot be obtained.
Further, when there is a uniform colored layer 3a, a pattern layer 3b, or the like on the base material 2, the permeation control layer 4 is adhered to the surface to smooth and protect the surface, and to adhere to the transparent resin protective layer 6 It also has the role of ensuring sex.
[0018]
In order to form the permeation control layer 4, a thermoplastic resin coating composition or ink composition may be used. However, a thermosetting resin or ionizing radiation curable composition ( It is more preferable to use a coating composition or ink composition of an ionizing radiation curable compound. The resin components of these compositions are the same as those described in the description of the coating composition or ink composition for forming the uniform colored layer 3a and the pattern layer 3b.
As an example, a polyvinyl butyral resin, an acrylic polyol, a polyester elastomer or the like having an OH group is used as a material for the permeation control layer 4 and is crosslinked with an isocyanate compound, and using an OH group, It is preferable to cause a reaction with the ionizing radiation curable composition for forming the upper transparent resin protective layer 6 because the adhesion strength can be improved.
As a binder for forming the permeation control layer 4, a polyester polyol and a polyurethane-forming component composed of an isocyanate and a polyfunctional monomer such as an ionizing radiation-curable compound such as trimethylolpropane triacrylate are blended almost 1/1. Since the cured resin has a thermosetting property, when the transparent resin protective layer 6 is cured by irradiation with ultraviolet rays or an electron beam, crosslinking occurs between the transparent resin protective layer 6 and the durability of the cosmetic material. In particular, the solvent resistance can be further improved, which is preferable.
[0019]
As a resin component of the ionizing radiation curable composition used to form the permeation control layer 4, a prepolymer, an oligomer, and / or a monomer having a polymerizable unsaturated bond or an epoxy group in the molecule are appropriately mixed. Use what you did.
Examples of prepolymers and oligomers in ionizing radiation curable compositions include unsaturated polyesters such as unsaturated dicarboxylic acid and polyhydric alcohol condensates, and methacrylates such as polyester methacrylate, polyether methacrylate, polyol methacrylate, and melamine methacrylate. Acrylates such as polyester acrylate, epoxy acrylate, urethane acrylate, polyether acrylate, polyol acrylate, and melamine acrylate, and cationic polymerization type epoxy compounds.
Examples of the monomer in the ionizing radiation curable composition include styrene monomers such as styrene and α-methylstyrene, methyl acrylate, 2-ethylhexyl acrylate, methoxyethyl acrylate, butoxyethyl acrylate, and butyl acrylate. Acrylic esters such as methoxybutyl acrylate and phenyl acrylate, methyl methacrylate, ethyl methacrylate, propyl methacrylate, methoxyethyl methacrylate, ethoxymethyl methacrylate, phenyl methacrylate, lauryl methacrylate, etc. , 2- (N, N-diethylamino) ethyl acrylate, 2- (N, N-dimethylamino) ethyl acrylate, 2- (N, N-dibenzylamino) methyl acrylate, acrylic acid- 2- (N, N-diethyla B) Unsaturated substituted amino alcohol esters such as propyl, unsaturated carboxylic acid amides such as acrylamide and methacrylamide, ethylene glycol diacrylate, propylene glycol diacrylate, neopentyl glycol diacrylate, 1,6-hexanediol di Compounds such as acrylate, triethylene glycol diacrylate, polyfunctional compounds such as dipropylene glycol diacrylate, ethylene glycol diacrylate, propylene glycol dimethacrylate, diethylene glycol dimethacrylate, and / or two or more thiol groups in the molecule Polythiol compounds having polyfunctional compounds such as trimethylolpropane trithioglycolate, diethylene glycol dimethacrylate, and / or Examples thereof include polythiol compounds having two or more thiol groups in the child, such as trimethylolpropane trithioglycolate, trimethylolpropane trithiopropylate, pentaerythritol tetrathioglycolate, and the like.
[0020]
Usually, as the monomer in the ionizing radiation curable composition, one or two or more of the above compounds are mixed and used as necessary. In order to give ordinary application suitability to the ionizing radiation curable composition. The prepolymer or oligomer is preferably 5% by weight or more, and the monomer and / or polythiol compound is preferably 95% by weight or less.
When flexibility is required when an ionizing radiation curable composition is applied and cured, it is preferable to reduce the amount of monomer or use an acrylate monomer having 1 or 2 functional groups. When wear resistance, heat resistance, and solvent resistance are required when an ionizing radiation curable composition is applied and cured, ionizing radiation curing such as using an acrylate monomer with three or more functional groups It is possible to design a sex composition. Here, 2-hydroxy acrylate, 2-hexyl acrylate, and phenoxyethyl acrylate are exemplified as those having one functional group. Examples of those having 2 functional groups include ethylene glycol diacrylate and 1,6-hexanediol diacrylate. Examples of the functional group having 3 or more include trimethylolpropane triacrylate, pentaerythritol triacrylate, pentaerythritol tetraacrylate, and dipentaerythritol hexaacrylate.
In order to adjust physical properties such as flexibility and surface hardness when an ionizing radiation curable composition is applied and cured, an ionizing radiation curable composition and a resin that is not cured by ionizing radiation irradiation can be used in combination. . Specific examples of the resin include the following. Thermoplastic resins such as polyurethane resin, cellulose resin, polyvinyl butyral resin, polyester resin, acrylic resin, polyvinyl chloride resin, and polyvinyl acetate. Of these, combined use with a polyurethane resin, a cellulose resin, a polyvinyl butyral resin, or the like is preferable in terms of improving flexibility.
When hardening after application | coating of an ionizing radiation curable composition is performed by ultraviolet irradiation, a photoinitiator and a photoinitiator are added. As the photopolymerization initiator, in the case of a resin system having a radical polymerizable unsaturated group, acetophenones, benzophenones, thioxanthones, benzoin, benzoin methyl ether and the like are used alone or in combination. In the case of a resin system having a cationic polymerizable functional group, an aromatic diazonium salt, an aromatic sulfonium salt, an aromatic iodonium salt, a metatheron compound, a benzoin sulfonic acid ester or the like is used alone or as a mixture as a photopolymerization initiator. . The addition amount of a photoinitiator is 0.1-10 weight part with respect to 100 weight part of ionizing radiation-curable compositions.
[0021]
It is preferable from the viewpoint of adhesiveness that the penetration control layer 4 is provided with an appropriate permeability of the ionizing radiation curable composition by blending an extender pigment. As extender pigments, inorganic particles such as silica, alumina, calcium carbonate, barium sulfate, fine plastic beads, and the like can be used. Among them, silica, particularly porous (= porous) silica is preferable, and the silica may be treated silica or untreated silica.
As an example of the particle size and blending amount of the extender used, the particle size is 5 to 15 μm, and the blending amount in the coating composition or ink composition for forming the permeation control layer 4 is 20 wt. % Is the limit. As the amount of the extender pigment increases, the luster of the permeation control layer 4 alone disappears, and the change in luster that the luster appears when the transparent protective resin layer 6 is formed increases. However, as the amount of extender pigment increases, Since the product has a white taste, excessive incorporation of extender pigments is not preferable. About 5 to 8 parts by weight.
Since these extender pigments are added, the gloss of the surface of the permeation control layer 4 is very faint when viewed in the state in which the permeation control layer 4 is formed. The luster comes out in reverse.
As the extender pigment, it is preferable to use a thermoplastic resin, a thermosetting resin, or an ionizing radiation curable compound having a refractive index close to that of the light because the coating does not whiten.
The thickness of the permeation control layer 4 varies somewhat depending on the amount of extender pigment added, but is about 1 to 5 μm. When uniformity is required, the coating means or the printing means is used twice and continuously 2 It is good to form once.
Drying and curing when forming the permeation control layer 4 are the same as those for forming the uniformly colored layer 3a and the pattern layer 3b described above. However, when using the ionizing radiation curable composition, ultraviolet rays or electrons are used. Irradiate a line to cure by crosslinking.
[0022]
The liquid repellent pattern 5 is formed on the permeation control layer 4, and forms a recess 7 when it is cross-linked and cured by repelling the ionizing radiation curable composition used when forming the upper transparent resin protective layer. It has a function to make it.
The resulting recess 7 improves the decorative function of the decorative material 1. Thus, the decorative material 1 with the recess 7 has a complicated appearance that cannot be obtained simply by forming the pattern layer 3 and the transparent resin protective layer 6 on the base material 2, The liquid repellent pattern 5 is more preferably in harmony with the pattern of the lower pattern layer 3, particularly the pattern layer 3b.
As an example, if the pattern of the pattern layer 3 is a wood grain pattern, the wood grain conduit pattern is preferably the liquid repellent pattern 5, and if it is a pattern imitating a fabric, the texture of the fabric is simulated. Those are preferred. If it is a pattern imitating the surface of polished rock such as a marble pattern, it is possible to arbitrarily select the pattern unevenness or joint part if it is a crack pattern generated on the surface or a tile.
Although it is preferable that the concave portion 7 and the specific portion of the pattern of the pattern layer 3 coincide with each other, it is not necessary to synchronize with each other. There may be.
[0023]
The liquid repellent pattern 5 is formed of an ink composition or paint composition selected in consideration of adhesion to the lower permeation control layer 4 and the upper transparent resin protective layer, such as silicone resin, silicone oil, wax, etc. A material containing a liquid substance is used, and preferably, the same printing means as that used when forming the lower pattern layer 3 is used, and if possible, the pattern layer 3 may be formed simultaneously.
As the resin component in the ink composition or paint composition to be used, a thermoplastic resin may be used, but the transparent resin protective layer on the liquid-repellent pattern 5 may be thin or may not be present. Alternatively, it is more preferable to use a thermosetting resin or an ionizing radiation curable compound in order to ensure durability immediately below. The resin components of these compositions are the same as those already mentioned as materials for forming other layers.
[0024]
In the present invention, in addition to the recess feeling derived from the depth of the recess 7 generated in the transparent resin protective layer 6, the aim is to improve the periphery of the recess 7 with a gloss higher than that of the recess 7. The matte agent can be added to the ink composition or the coating composition for forming the liquid repellent pattern 5 without any problem to further improve the feeling of recesses by increasing the gloss difference compared to the surrounding area. It is good to use it.
However, in the present invention, the surface of the permeation control layer 4 has irregularities because the extender pigment is dispersed therein, and the influence of the irregularities also affects the liquid repellent pattern 5 above. Since the liquid repellent pattern 5 has a matte tendency, it is not always necessary to add a matting agent.
When the pattern layer 3 and the liquid repellent pattern 5 are formed in synchronism, they may be formed at the same time on the same multicolor printing machine, and the pattern layer 3, the permeation control layer 4, and the liquid repellent pattern are formed. 5 may be carried out using a non-aqueous composition having good drying properties.
[0025]
The transparent resin protective layer 6 is obtained by crosslinking and curing the ionizing radiation curable composition. However, in the present invention, the transparent resin protective layer 6 is not uniform, and the upper part of the lower liquid repellent pattern 5 is present. Then, the transparent resin protective layer 6 is thinner than the surroundings or ideally absent.
The ionizing radiation curable composition used for forming the transparent resin protective layer 6 is adjusted to a viscosity capable of forming a concave portion using a solvent or a monomer, preferably a monomer, as a diluent. The ionizing radiation curable composition can easily penetrate into the penetration control layer 4 if the amount of the extender pigment in the lower penetration control layer 4 is increased, but the transparent resin protective layer 6 formed on the surface becomes thin. Therefore, in the present invention, it is sufficient that the gloss of the permeation control layer 4 is obtained by the penetration of the ionizing radiation curable composition.
[0026]
The thickness of the transparent resin protective layer 6 is preferably thick for the purpose of surface protection. However, the required performance, economy, flexibility required when the substrate is in the form of a sheet, etc. From the viewpoint of formability, the thickness is preferably 2 to 10 μm.
The method for forming the transparent resin protective layer 6, drying, curing, and the like are the same as those for forming the uniform colored layer 3 a, the pattern layer 3 b, or the permeation control layer 4 described above.
[0027]
The transparent resin protective layer 6 has an average film thickness t (mm) of the layer 6 as described in JP-A-8-183147 (Patent No. 274093) in order to improve wear resistance. Hard spherical particles having a relationship with the diameter d (mm) of the spherical particles of 0.3 t ≦ d ≦ 2.0 t may be included.
The hard spherical particles are organic or inorganic, preferably inorganic, and desirably have a higher hardness than the cross-linked and cured resin, and when high-level spherical particles are added, further surface strengthening is realized. The As the spherical particles, non-spherical particles can be used as long as the surface is smooth, and such particles are also included. The role of the hard spherical particles is to prevent wear of the lower layer by partly projecting from the surface of the layer 6 and receiving the external force that causes wear, and the particles themselves wear gradually. . Hard spherical particles include α-alumina, silica, chromium oxide, iron oxide, diamond, graphite, etc. Among them, spherical α-alumina (Showa Denko Co., Ltd.) has high hardness and many spherical particles. Spherical alumina AS-10 to AS50) can be recommended. The average particle size of the hard spherical particles is preferably 5 to 100 μm. When inorganic hard spherical particles are used for the surface protective layer, it may be pretreated with a silane coupling agent or the like in order to increase adhesion in the resin constituting the surface protective layer.
[0028]
Furthermore, hard amorphous particles can also be used. In particular, as the material having a major axis of about 15 to 25 μm, the same material as the above-mentioned spherical particles is suitable, and α-alumina is also preferable. In terms of performance, these hard amorphous particles are comparable to spherical ones, and have the property that they are difficult to settle in the ionizing radiation curable composition for forming the transparent resin protective layer 6. It is very preferable. Since the sedimentation speed of the particles is proportional to the square of the particle diameter, the irregularly shaped particles are dispersed in the direction of gravity in the direction of gravity. As a result, the sedimentation is slow and the major axis is large. .
[0029]
【Example】
Example 1
As a substrate, 60 g / m²Using a gravure ink using acrylic resin latex impregnated paper (manufactured by Kojin Co., Ltd., GF601) and using a gravure ink containing acrylic resin and nitrocellulose as a vehicle component, by a gravure printing method (= uniform colored layer) ) And a wood grain pattern layer were formed to obtain a printed paper.
On the obtained printed paper, using a coating composition containing 20% by weight of silica as an extender pigment, a polyurethane resin-forming component composed of polyester polyol and tolylene diisocyanate, and a polyvirnibutyral resin as a vehicle component, A permeation control layer was formed.
Subsequently, using a liquid repellent ink containing urea melamine alkyd resin and nitrocellulose as a vehicle component and containing 10% by weight of silicone oil in the ink, a conduit synchronized with the previously formed wood grain pattern layer by gravure printing The pattern was printed, and after printing, it was dried by heating at a temperature of 170 to 180 ° C. for 30 seconds.
Finally, an ionizing radiation curable composition A having the following composition was used and applied by gravure roll coating to obtain 25 g / m²A transparent resin protective layer coating film is formed, and an electron beam irradiation device is used to irradiate an electron beam under the conditions of an acceleration voltage of 175 KV and an irradiation dose of 5 Mrad to cure the coating film to form a transparent resin protective layer. Got.
[Ionizing radiation curable compound A]
・ Bisphenol A ethylene oxide
Modified diacrylate 50 parts by weight
・ Trimethylolpropane ethylene oxide
Modified triacrylate 20 parts by weight
・ Hydrophobic silica (average particle size 5μm) 9 parts by weight
・ Spherical alumina (average particle size 25 μm) 20 parts by weight
・ 1 part by weight of silicone oil
In the obtained decorative material, the transparent resin protective layer on the conduit pattern has a concave portion, and the bottom of the concave portion is matte compared to the surroundings, and the portion other than the portion having the conduit pattern is glossy. A decorative material that is an outstanding decorative material and has an excellent recess feeling was obtained.
Moreover, when the number of rotations (= initial point) when the pattern starts to be taken by a method according to the JAS (= Japanese Agricultural Standards) wear A test, it is 400 times, indicating a practically good value. It was.
[0030]
(Example 2)
A transparent resin protective layer was formed in the same manner as in Example 1 except that the ionizing radiation curable composition B having the following composition was used to obtain a cosmetic material.
[Ionizing radiation curable compound B]
・ Bisphenol A ethylene oxide
Modified diacrylate 60 parts by weight
・ Trimethylolpropane ethylene oxide
Modified triacrylate 20 parts by weight
Scale-like and irregular shaped alumina particles (major axis: about 20 μm) 20 parts by weight
The obtained decorative material has an excellent recess feeling like that obtained in Example 1, and the initial point measured in the same manner as in the evaluation of the decorative material of Example 1 is 400 times. Good value was shown.
[0031]
【The invention's effect】
  According to the invention of claim 1 or claim 2, the extender pigment is dispersed.By thermosetting resinSince it has a penetration control layer, it is possible to moderately control the penetration of the ionizing radiation curable composition in the upper layer.certainlyIn addition, the gloss of the part where the ionizing radiation curable composition penetrated into the permeation control layer became high, and as a result, the concave part caused by the liquid repellent pattern was emphasized by the gloss with the surroundings, which was excellent Has a sense of recessMoreover, since the specific resin is used for the permeation control layer, the adhesion strength with the upper transparent resin protective layer is improved.Can provide cosmetics. According to the invention of claim 1,PatternSince it has a layer, it can provide a decorative material with a further decorative effect.
According to the invention of claim 3, in addition to the effect of the invention of claim 1 or 2, it is possible to provide a cosmetic material that specifies an extender that is easy to use, easy to control permeability and adjust gloss.
According to the invention of claim 4, in addition to the effect of the invention of any one of claims 1 to 3,Improved durability, especially solvent resistanceCan provide cosmetics.
According to the invention of claim 5, in addition to the effects of the invention of any one of claims 1 to 4, even with a liquid-repellent pattern without a matting agent, the bottom of the recess on the pattern is a matte cosmetic material compared to the surroundings. Can be provided.
Claim6According to the present invention, claims 1 to5In addition to the effects of any of the inventions, since hard spherical particles are dispersed, a cosmetic material particularly excellent in wear resistance can be provided.
Claim7According to the present invention, claims 1 to5In addition to the effects of any of the inventions, since hard amorphous particles are dispersed, particularly, the wear resistance is excellent, and the composition for forming the transparent resin protective layer is stable for a long time during the production. Since it can be used, it is possible to provide a decorative material with a constant wear resistance of the product.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing the structure of a decorative sheet of the present invention.
FIG. 2 is a cross-sectional view showing another structure of the decorative sheet of the present invention.
[Explanation of symbols]
1 Cosmetic material
2 Base material
3patternLayer (3a; uniformly colored layer, 3b;Patternlayer)
4 Penetration control layer
5 Liquid repellent pattern
6 Transparent resin protective layer
7 recess

Claims (7)

The substrate has a transparent resin protective layer in which the ionizing radiation curable composition is cross-linked and cured in the uppermost layer through the pattern layer, and the pattern is interposed between the pattern layer and the transparent resin protective layer. A layer for controlling the permeability of the composition for forming a transparent resin protective layer from the layer side, a penetration control layer in which extender pigments are dispersed in the resin, and the formation of the transparent resin protective layer on the penetration control layer A liquid-repellent pattern having a property of repelling the composition is laminated, and there is no transparent resin protective layer on the liquid-repellent pattern or it is thinner than the surroundings, and the bottom of the recess on the liquid-repellent pattern Is matte compared to the surroundings,
The resin constituting the permeation control layer is a thermosetting resin, and the binder resin containing a polyvinyl butyral resin as a binder resin having an OH group is crosslinked and cured with an isocyanate compound, and an OH group A cosmetic material characterized by reacting with an ionizing radiation curable resin composition for forming an upper transparent resin protective layer using the above. The substrate has a transparent resin protective layer obtained by crosslinking and curing the ionizing radiation curable composition, and a transparent resin protective layer is formed between the substrate and the transparent resin protective layer from the substrate side. A layer for controlling the permeability of the composition for use, wherein the extender pigment is dispersed in the resin, and the transparent resin protective layer forming composition is repelled on the penetration control layer. A liquid pattern is laminated, and there is no transparent resin protective layer on the liquid repellent pattern, or it is thinner than the surroundings, and the bottom of the recess on the liquid repellent pattern is matte compared to the surroundings. ,
The resin constituting the permeation control layer is a thermosetting resin, and the binder resin containing a polyvinyl butyral resin as a binder resin having an OH group is crosslinked and cured with an isocyanate compound, and an OH group A cosmetic material characterized by reacting with an ionizing radiation curable resin composition for forming an upper transparent resin protective layer using the above.   The cosmetic material according to claim 1 or 2, wherein the extender pigment is selected from silica, barium sulfate, or calcium carbonate.   4. The decorative material according to claim 1, wherein the resin constituting the permeation control layer further contains an ionizing radiation curable resin and is crosslinked with the transparent resin protective layer.   The cosmetic material according to any one of claims 1 to 4, wherein the liquid repellent pattern is formed from a composition containing no matting agent.   The cosmetic material according to any one of claims 1 to 5, wherein hard spherical particles are dispersed in the transparent resin protective layer.   The cosmetic material according to any one of claims 1 to 5, wherein hard amorphous particles are dispersed in the transparent resin protective layer.

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