KR100756332B1 - Composite polymer resin solution and method for surface treatment of substrate - Google Patents

Abstract

The present invention relates to a composite polymer resin composition and a method for treating a to-be-printed object using the same, comprising: 25 to 60 wt% of a first polymer resin such as a urethane resin; 25 to 60% by weight of a second polymer resin such as cellulose paint; 5 to 25% by weight of porous microparticles such as silica; 0.01 to 1.0% by weight of an oil such as an inorganic oil containing a silicone component; And 5 to 25 wt% of an ionic surfactant. According to the present invention, it is possible to form a high-resolution printed layer having excellent durability, chemical resistance, and light resistance while removing the limitation of the material to be printed when printing ink.

Polymer resin composition, surface treatment method, substrate, oil, durability, chemical resistance

Description

COMPOSITE HIGHMOLECULAR RESIN COMPOSITION AND PRINTED MATTER SURFACE TREATING METHOD THEREWITH}

The present invention relates to a composite polymer resin composition and to a surface treatment method using the same, more specifically, first polymer resin such as urethane resin, second polymer resin such as cellulose-based paint, porous microparticles such as silica, silicone A composition comprising an oil such as an inorganic oil containing a component and an ionic surfactant is applied to the surface of a to-be-printed object to form a resin film, thereby eliminating the limitation of the to-be-printed material in printing after application of ink and providing durability and resistance. The present invention relates to a composite polymer resin composition capable of forming a high resolution printed layer having excellent chemical and light resistance properties, and a method for treating a surface of a substrate.

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As a method for printing a full color digital image, there is a method of directly printing a digital image using an inkjet or a laser printer, or performing live-action, transfer, and gravure printing using a plotter and various printing presses.                         

However, when printing using an inkjet printer, there is a disadvantage that the printing material is limited to paper, label paper, etc., and due to the use of plotters and various printing presses, due to the fact that gravure printing is not only paper and label paper, but also film paper, leather and fabric It is possible to print on the back, but it is impossible to do full color printing directly on a wide range of polymer, metal, and ceramic products having a certain thickness or more. In addition, in the case of the transfer of thermocompression bonding the digital image onto the surface of the printed matter by using a transfer paper, there is a difficulty in continuously producing an article due to a complicated heat treatment process, and there is a limitation in the printing object due to the heat treatment process. There is a problem in that the adhesion and the mechanical strength of the printed layer is weak.

The technical problem to be achieved by the present invention, as described above, can be printed without the problem of printing constraints, that is, polymer, metal, ceramic products, etc. according to the conventional material of the to-be-printed material, durability, chemical resistance and The present invention is to develop a technology for forming a printed layer having excellent light resistance, and a composite polymer resin composition and a method of treating a to-be-printed material that can achieve high-quality printing by improving the adhesion between the print layer and the to-be-printed material by achieving such a technical problem. It is an object of the present invention to provide.

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Composite polymer resin composition provided to achieve the object of the present invention, urethane resin, thermosetting acrylic resin, phenol resin, lacquer, UV curable resin, polystyrene resin, PMMA (Poly Methyl Meta Acrylate) resin, melamine resin, cellulose acetate 25 to 60 wt% of a first polymer resin composed of one or more materials selected from the group consisting of butyrate and polyvinylacetate; 25 to 60% by weight of a second polymer resin composed of one or more materials selected from the group consisting of cellulose-based paints, polyvinyl pyrrolidone (PVP), poly vinyl alchol (PVA), polyvinylacetate (PVAC), acrylic resin, starch and sugar ; 5 to 25% by weight of porous microparticles composed of one or more materials selected from the group consisting of inorganic compounds such as silica, alumina, titania, and titanium bags; 0.01 to 1.0% by weight of an oil consisting of an inorganic oil containing a silicone component and one or more substances selected from the group consisting of linseed oil, linseed oil, and an organic oil containing organic compounds of terebin oil; And 5 to 25% by weight of an ionic surfactant.
The composite polymer resin composition, a phosphorescent pigment containing Al ₂ O ₃ , SrO ₃ and B ₂ O ₃ as a main component in a content range of 50% or less of the total composition weight, ZnS: Cu phosphorescent pigment, ZnGa ₂ O ₄ system, It is preferable to further include a pigment consisting of one or more materials selected from the group consisting of BAM-based fluorescent pigments, and fluorescent pigments containing TiO ₂ .

The first polymer resin is excellent in adhesive force, and thus, is adhered to a thin film regardless of the surface characteristics of the to-be-printed material to provide mechanical strength to the resin film, thereby eliminating the material limitation of the to-be-printed material. In addition, the first polymer resin is cured by heat treatment or light irradiation such as UV, thereby acting as a mechanical skeleton of the composite polymer resin film.

The second polymer resin has a property that the surface of the resin film formed on the print object is melted to some extent by a solvent in the printing ink, and has a function of absorbing the printing ink sprayed on the surface of the print material to form a print layer. Located between the mechanical skeleton formed by the first polymer resin.

The porous microparticles have micropores therein to form a microcavity in which the printing ink can be absorbed in the polymer resin film. This improves the absorption speed and the absorption amount of the printing ink, shortens the drying time of the ink, and ultimately enables high resolution printing. In this case, the inorganic compound may be in the form of sol-like fine particles.

Since the oil has a low volatility and has a function of lowering the surface tension, it is located at an interface formed between the first polymer resin, the second polymer resin and the porous microparticles at the beginning of film formation, and the first polymer resin is cured. Therefore, it moves to the surface of the composite polymer resin film in contact with air. As a result, the injected ink generates fine pores that can be absorbed into the coating layer, thereby enabling high-resolution printing on the composite polymer coating. In addition, after the oil moves to the upper surface layer, curing between the lower polymer resins is continued to form a printed layer having excellent wear resistance, chemical resistance, and light resistance.

The ionic surfactant has a charge opposite to that of the ink, thereby fixing the ink so that the absorbed liquid ink does not spread along the interface formed between the first polymer resin layer, the second polymer resin layer, and the porous microparticles. .

Since the pigment has fluorescence or photoluminescent properties, it has a function as a back light to impart a luminous effect to a color image.

The surface treatment method of the to-be-printed object using the composite polymer resin composition provided to achieve the object of the present invention, (S1) clean the surface of the to-be-printed; (S2) applying the composite polymer resin composition according to claim 1 or 2 on the surface of the object to be printed; And (S3) drying the coated composite polymer resin film.

Application of the composite polymer resin composition of the step (S2) is preferably carried out by a method of roll coating or spray coating. At this time, the coating film thickness at the time of the single coating formed by the coating process is about 15㎛, although there is a slight difference for each material, about 30 to 50㎛ is preferred. More preferably, the coating is repeated 4 to 5 times.

After the coating, the drying time of the coated surface is within 15 minutes for natural drying, within 5 minutes at 70 ° C. for heating, and after printing, for 10 minutes or more for natural drying, and after drying for 2 to 3 at 70 ° C. for heating. Allow to dry for at least minutes. It may take five days or more to completely dry the coated side.
After the step (S3), to form a surface strengthening layer consisting of one or more materials selected from the group consisting of UV curable paint, lacquer, urethane, PMMA, and polyvinyl acetate on the dried composite polymer resin film It is preferable to proceed further including the step.

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The liquid composition of the above-mentioned composite polymer resin may be diluted using a diluent such as toluene, xylene, H ₂ O, thinner, MeOH, acetone, etc. It can give a clear feeling, and in the case of a dark concentration, it can give a thick feeling that the surface of the substrate is covered with a glass layer.

Since the composite polymer resin composition used in the present invention includes a first polymer resin that imparts mechanical strength to the resin film, it has excellent adhesive strength and is adhered to a thin film regardless of the surface characteristics of the substrate, thereby providing durability and chemical resistance. .

In addition, when the printing layer is formed, the second polymer resin works together with the solvent contained in the ink composition to melt the surface of the polymer film formed on the surface of the substrate to a certain depth, and then is dried and cured together with the color development component. Therefore, the absorption speed and the absorption amount of the ink are improved, the ink bleeding phenomenon is reduced, and high resolution printing quality can be realized.

The oil contained in the composite polymer resin composition provided by the present invention moves to the surface leaving pores inside the resin film layer as the polymer resin film is dried or cured to create a space in which the printing ink can be absorbed.

In addition, when the dye ink is used as a coloring component in the subsequent printing, the composite polymer resin composition includes a fluorescent material and a photoluminescent material, and thus image printing is possible on the composite polymer resin film while maintaining the light emitting function of the fluorescent and photoluminescent material. Therefore, it is possible to implement fluorescence and luminous effects on various natural colors.

When the polymer composite resin film is formed, it is also possible to print immediately after drying, or to coat the protective film or the like to prevent drying of the resin film, then peel off the protective film immediately before printing and perform printing. However, it is not preferable to print over a period of two months or more even when applying a protective film.

In general, the composite polymer resin film alone of the present invention ensures sufficient mechanical strength and chemical resistance of the printed layer, but if stronger durability is required, a surface strengthening layer may be introduced at the top layer after the printed layer is formed. As the surface hardening layer, a coating layer may be formed using a UV curable paint, a lacquer, urethane, PMMA, polyvinylacetate, or the like.

Hereinafter, the present invention will be described in detail with reference to Examples. The examples are intended to illustrate the invention and should not be construed as limiting the scope of the invention.

<Example 1> Oily coating liquid

An amount equivalent to 50% by weight of 100 parts by weight of the composite polymer resin composition including 52.8% by weight of the acrylic resin, 35.3% by weight of lacquer, 5.7% by weight of titania sol, 0.3% by weight of terebin oil, and 5.9% by weight of the quaternary ammonium surfactant. The viscosity was adjusted by adding a dilution solution, specifically acetone.

The air spray gun was used as a coating tool to uniformly coat the entire surface of the material and the coating was repeated 4 to 5 times. After one coating, the coating was repeated by rotating the substrate surface by 90 °.

The nozzle diameter of the spray gun used for coating is 0.1 ~ 0.13 inch, and the coating liquid was discharged with a small air pressure of 3-4 Kg / cm2 for fine spraying. The spray direction of the gun was perpendicular to the material and the distance between the gun and the material was 20-30 cm.

The coating film thickness was 15 μm in one coating, and thermal coating was performed at 70 ° C. for 3 minutes after the coating.

<Example 2> Oily white coating liquid

45.4% by weight of the urethane resin, 36.2% by weight of lacquer, 10.7% by weight of titanium bag, 0.3% by weight of terebin oil, 7.4% by weight of the quaternary ammonium surfactant corresponds to 50% relative to 100 parts by weight of the total composition The viscosity was adjusted by adding an amount of diluent.

Coating method, coating thickness, drying time is the same as in Example 1. However, the nozzle diameter of the spray gun is suitable for 1.3 to 2.5 inches.

<Example 3> Oil-based photoluminescent coating liquid

To 100 parts by weight of the composite polymer resin composition (excluding the diluent) prepared according to Example 1, an additional photoluminescent pigment mainly composed of Al ₂ O ₃ , SrO ₃ , and B ₂ O ₃ was added in an amount of 7.5%. A polymer resin composition was prepared. Then, the viscosity was adjusted by adding a dilution amount corresponding to 50% of the total weight of the prepared composite polymer resin composition. On the other hand, in order to prevent the precipitation of the pigment was added an amount of 10% to the weight of the photoluminescent pigment added to the anti-settling coupling (coupling) to the composition.

The coating method, coating thickness, and drying time were the same as in Example 1, and the nozzle diameter of the spray gun was 1.3 to 5 inches.

Since the particles of the photoluminescent pigment are heavy, the coating is uniformly applied to the material.

<Example 4> Aqueous coating liquid

52% by weight of the total composition of the composite polymer resin composition comprising 28.1% by weight of UV curable resin, 34.5% by weight of polyvinyl alcohol, 23.8% by weight of alumina sol, 0.2% by weight of rinse oil, and 13.4% by weight of quaternary ammonium surfactant Viscosity was adjusted by mixing the corresponding amount of diluent. At this time, in Example 4, a mixed solution was used as the diluent so that water and acetone were 28.6% by weight and 71.4% by weight, respectively.

Coating method and coating film thickness are the same as in Example 1.

The dry touch time of the coated surface is within 20 minutes in natural drying and within 5 minutes at 70 ° C in heat drying. The drying time after printing is at least 30 minutes in natural drying and at least 2 minutes at 70 ° C. in heating and drying. Complete drying is recommended for at least 50 minutes.

According to the present invention, it is possible to innovatively remove the material restrictions of the to-be-printed materials such as metals, ceramics, polymers, and textile materials, and to print by using an inkjet printer, simply printing all digital images in all natural colors within minutes without a special printing process. It has the advantage of completing the product. In addition, since the mechanical and chemical strength of the printed layer can be easily adjusted by the composition of the composite resin solution and the reinforcement coating layer, there is an advantage that the cost can be reduced in manufacturing interior and exterior materials, flooring, signboard, nameplate, plaque, and the like.

Claims (9)

Selected from the group consisting of urethane resins, thermosetting acrylic resins, phenolic resins, lacquers, UV curable resins, polystyrene resins, polymethyl metaacrylate (PMMA) resins, melamine resins, cellulose acetate butyrate and polyvinyl acetate 25 to 60 wt% of a first polymer resin composed of one or more materials; 25 to 60% by weight of a second polymer resin composed of one or more materials selected from the group consisting of cellulose-based paints, polyvinyl pyrrolidone (PVP), poly vinyl alchol (PVA), polyvinylacetate (PVAC), acrylic resin, starch and sugar ; 5 to 25% by weight of porous microparticles composed of one or more materials selected from the group consisting of inorganic compounds such as silica, alumina, titania, and titanium bags; 0.01 to 1.0% by weight of an oil consisting of an inorganic oil containing a silicone component and one or more substances selected from the group consisting of linseed oil, linseed oil, and an organic oil containing organic compounds of terebin oil; And 5 to 25% by weight ionic surfactant; composite polymer resin composition comprising a. The method of claim 1, Further comprising a pigment having a content of more than 0% by weight to 50% by weight relative to the total weight of the composite polymer resin composition, The pigment contains a photoluminescent pigment mainly composed of Al ₂ O ₃ , SrO ₃ and B ₂ O ₃ , a ZnS: Cu photoluminescent pigment, a ZnGa ₂ O ₄ system, a BAM (buthyl acrylate monomer) -based fluorescent pigment, and TiO ₂ . Composite polymer resin composition, characterized in that one or more materials selected from the group consisting of fluorescent pigments. (S1) cleanly treating the surface of the to-be-printed object; (S2) applying the composite polymer resin composition according to any one of claims 1 or 2 on the surface of the object to be printed; And (S3) drying the coated composite polymer resin film; surface treatment method of a to-be-printed, comprising the. The method of claim 3, The composite polymer resin composition of the step (S2) is diluted in a solution composed of any one or two or more materials selected from toluene, xylene, H ₂ O, thinner, MeOH, and acetone, the viscosity of which is used to control the Surface treatment method of the substrate. The method of claim 3, Application of the composite polymer resin composition of the step (S2), the surface treatment method of the to-be-printed, characterized in that the progress of the roll coating or spray coating method. The method of claim 3, After the step (S3), consisting of one or more materials selected from the group consisting of UV-curable paint, lacquer, urethane, polymethyl meta acrylate (PMMA), and polyvinyl acetate on the dried composite polymer resin film The surface treatment method of the to-be-printed object further including forming a surface hardening layer. The method of claim 4, wherein Application of the composite polymer resin composition of the step (S2), the surface treatment method of the to-be-printed, characterized in that the progress of the roll coating or spray coating method. delete delete