KR20160077556A - Film for coating attached on surface without base film and method for fabricating the same - Google Patents

Abstract

The present invention discloses a non-substrate type coating film which is coated on the base material surface by a method for bonding the non-substrate type coating film to a base material surface and curing the non-substrate type coating film bonded to the base material surface. The disclosed non-substrate type coating film according to embodiments of the present invention comprises: a coating film in a sol or gel state; a first release film which is stacked on one side of the coating film to be detachable; and a second release film which is stacked on the other side of the coating film to be detachable. The coating film in the sol or gel state is attached to the surface of a base material, and then cured such that the coating film in the sol or gel state is solidified to the base material surface. One release film of the first release film and the second release film is delaminted from the coating film before the coating film is attached to the base material surface, and the other release film of the first release film and the second release film is delaminted from the coating film after the coating film is attached to the base material surface, and then cured. According to the present invention, the thickness of the coating film applied on the base material surface is uniform, and thickness increase and degradation in light transmittance of the base material can be minimized.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a film for inorganic coating and a method for fabricating the same,

The present invention relates to a coating film to be adhered to a surface of a base material so as to improve the surface characteristics of the base material and a method of manufacturing the same.

Coating is the application of a specific material to the surface of the base material to improve the surface properties of the base material. In the case of a wet coating in which a liquid coating agent is applied to a base material, a micro gravure coating using, for example, a micro gravure roller, A comma coating using a comma roller, a slot die coating using a slot die, a spray coating spraying the coating with a sprayer, a spray coating using a sprayer, Dip coating, dip coating, and flow coating, in which a coating agent is applied to the surface of the base material by flowing the coating agent down on the base material.

Among the above wet coating methods, microgravure coating, comma coating, and slot die coating are easy to control the thickness of the coating film, easy to coat with a thin film, high quality uniformity of the coating film and easy continuous production, it is suitable for coating a flexible web such as a film with a roll-to-roll type, and there is a restriction on the base material. Spray coating, dip coating, and flow coating can also be applied to hard base materials, but the reliability of the coating quality is degraded due to problems such as coating film thickness variation and sagging of the coating material from the base end of the base material.

A method of improving the surface properties of a base material by attaching a coating film to the surface of a hard base material is also applied. A typical coating film is a base film having a base film coated with a pressure- Applying a coating agent on the side surface and curing. Therefore, the thickness of the base material coated with the coating film becomes thick due to the base film and the pressure-sensitive adhesive, and the light transmittance may be lowered. Further, when the coating film is adhered to the surface of the base material and then cured, the coating film may be deformed due to a difference in deformation rate between the base film and the coating material, or, in severe cases, deformation of the base material itself.

Korean Patent Publication No. 10-1142628

The present invention relates to a coating film which is coated on a surface of a base material by a method of adhering to a surface of a base material and curing the base film, And a method for producing the same.

Another object of the present invention is to provide a film for an inorganic material coating which minimizes an increase in the thickness of the base material and a decrease in light transmittance when it is adhered to the surface of the base material and prevents the deformation of the coating layer and the base material.

The present invention provides a method of manufacturing a semiconductor device comprising a coating film in a sol or gel state, a first release film laminated on one side of the coating film so as to be releasable, and a second release film laminated on the other side of the coating film Wherein the sol or gel coating film is adhered to a surface of a base material and then cured and fixed to a surface of the base material, and a release film of one of the first release film and the second release film, The film is peeled off from the coating film before the coating film adheres to the surface of the base material and the other release film is peeled off from the coating film after the coating film is adhered to the surface of the base material and hardened, For example.

The first release film and the second release film may have different releasing forces with respect to the coating film.

A releasing agent including a silicone-based resin is applied to a side surface of the one release film facing the coating film, and a side surface of the other release film facing the coating film A mold release agent including an acrylic-based resin or a fluorine-based resin may be applied.

The coating film can be cured by ultraviolet ray irradiation.

The material of the coating film may include at least one resin selected from the group consisting of a silane-based resin and a siloxane-based resin, and a photopolymerization initiator that absorbs ultraviolet light to polymerize the resin contained in the coating film.

The material of the coating film may not contain an organic substance.

Further, the present invention provides a method for producing the film for an inorganic protective coating, comprising the steps of: applying a coating agent for applying a liquid coating agent to one side of a first release film; applying the coating agent to the first release film by heating; A drying step of evaporating a solvent in the coated coating agent to form a coating film in a sol or gel state and a drying step of drying the coating film opposite to one side of the coating film facing the first release film, And a second release film attaching step of attaching a second release film to the side surface of the film.

In the coating application step, a liquid coating may be applied using one of a slot die, a comma roller, and a micro gravure roller.

The step of attaching the second release film may include a step of allowing the first release film and the second release film, on which the coating film is formed, to pass between the pair of closely-spaced rollers, with the coating film and the second release film facing each other .

According to the film for inorganic coating of the present invention, since only the thin film-like coating material is adhered to and hardened on the surface of the base material without the base film, the thickness of the coating film applied on the surface of the base material is uniform, And the decrease in light transmittance is minimized.

When the coating film includes a silane-based or siloxane-based resin as in the embodiment of the present invention, the hardness of the surface of the base material is increased, thereby suppressing surface damage, suppressing moisture penetration and oxygen penetration through the surface, .

Further, since the coating film adhering to the surface of the base material is not cured and is not shrunk and the base film is not provided, the separation of the base material and the coating film due to the difference in strain between the base film and the coating film and the shape deformation of the base material are prevented.

FIGS. 1 to 3 are schematic views sequentially illustrating a method for producing an inorganic coating film according to an embodiment of the present invention.
FIGS. 4 to 7 are views sequentially illustrating a process of coating a surface of a base material using a film for coating with an inorganic coating according to an embodiment of the present invention.

Hereinafter, an inorganic coating film and a method of manufacturing the same according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The terminology used herein is a term used to properly express the preferred embodiment of the present invention, which may vary depending on the intention of the user or operator or the custom of the field to which the present invention belongs. Therefore, the definitions of these terms should be based on the contents throughout this specification.

FIGS. 1 to 3 are schematic views sequentially illustrating a method for producing an inorganic coating film according to an embodiment of the present invention. Referring to FIG. 4, a film 1 for coating with inorganic coating according to an embodiment of the present invention includes a coating layer 5 and a coating layer 5, which are laminated on the lower and upper surfaces of the coating layer 5, 1 release film (3) and a second release film (7). The coating film 5 is a layer in a sol or gel state and has a property of being hardened hardly when irradiated with ultraviolet rays.

The material of the coating film 5 includes an oligomer as a base resin, a monomer serving as a reactive diluent, a photopolymerization initiator, and a small amount of an additive. The surface of the base material 30 (see FIG. 5) is hardened so that the surface of the base material 30 is hardened by impact, and the surface of the base material 30 is coated with the oligomer And monomers include at least one resin selected from the group consisting of silane-based resin and siloxane-based resin. Examples of the silane-based resin include isobutyltrimethoxysilane and isooctyltrimethoxysilane. Siloxane-based resins include polyacrylsiloxane, polyacryl-uratansiloxane, polyepoxysiloxane, (polyepoxysilxone). In addition, an organic material is not included as the material of the coating film 5. [ The photopolymerization initiator absorbs ultraviolet light to generate radicals or cations and initiates polymerization of the resin contained in the coating film 5.

When the coating film 5 is applied with a silane-based resin or a siloxane-based resin, the coating film 5 is not shrunk and relaxed when the coating film 5 is cured by irradiation of ultraviolet rays. There is an effect that deformation of the base material 30 is prevented when it is fixed. Since the coating film 5 does not contain an organic substance but contains an inorganic substance, the hardness of the coating film 5 is increased when the coating film 5 is cured, thereby improving the effect of suppressing surface damage of the base material 30.

The first release film 3 and the second release film 7 are flexible films made of a resin such as PET (polyethylene phthalate) (5) of the release films (3, 7) so that the first release film (3) and the second release film (7) are easily peeled off from the coating film (5) (4, 8) is coated with a releasing agent. The releasing film of one of the pair of releasing films 3 and 7 is more easily peeled off from the coating film 5 than the other releasing film, Different mold release agents are applied to the first release film 3 and the second release film 7 so that the release film is formed. The releasing force is also referred to as the releasing degree.

For example, a releasing film containing a silicone-based resin is applied to a releasing film relatively easily peeled out of the pair of releasing films 3 and 7, The releasing film, which is relatively difficult to peel off, is coated with a release agent comprising an acrylic-based resin or a fluorine-based resin. Here, relatively easily peeled off means that the release films 3 and 7 can be peeled off by applying a relatively small releasing force when peeling off the coating film 5 from the coating film 5. On the other hand, according to the embodiment of the present invention, the first release film 3 may be more easily peeled off from the pair of release films 3 and 7 than the second release film 7, 7 may be more easily peeled off than the first release film 3.

Referring to Figs. 1 to 3 together, the method for producing the film for inorganic coating (1) comprises a coating application step, a drying step, and a second release film attaching step. In the embodiment shown in FIGS. 1 to 3, a film 1 for inorganic coating is produced in a roll-to-roll type. The first release film 3 wound around the first release film feed roller 11 and the second release film 7 wound around the second release film feed roller 20 are fed to the first release film supply roller 11, The film 1 is unwound from the roller 11 and the second release film feed roller 20 continuously and seamlessly, and the completed film for inorganic coating film 1 is wound and recovered through the film recovery roller 27 for coating.

1, the applying of the coating agent is performed by applying a liquid coating agent 5a to the upper side 4 of the first release film 3 fed from the first release film feeding roller 11, . The coating agent is a liquid state or a colloid state in which an oligomer, a monomer, a photopolymerization initiator, and a small amount of an additive, which are materials of the coating film 5, are mixed and melted in a solvent.

The coating agent 5a is applied to the upper surface of the first release film 3 through the slot die 15 when the first release film 3 is supported by the support roller 13 and proceeds. The coating agent 5a may be coated on the upper surface of the first release film 3 by using a comma roller or a micro gravure roller, as shown in FIG. The method of applying the coating agent 5a using the slot die 15, the comma roller, or the microgravure roller may be performed by spray coating, dip coating, or flow coating, The thickness of the coating layer can be made thinner and uniformly adjusted.

2, the drying step is performed by applying heat to evaporate the solvent from the coating agent 5a (see FIG. 1) applied to the first release film 3 to form a sol or a gel gel ) Coating film 5 is formed. In addition, when the first release film 3 coated with the coating agent 5a passes through the dryer, the first release film 3 is supported by the guide rollers 17 and 18 in the dryer and proceeds in one direction , The solvent is evaporated by radiant heat (H) and hot air in the dryer. The coating film 5 having a solvent or a solvent evaporated to become a sol or gel state has adhesiveness and elasticity and the coating film 5 is coated on the upper side 4 of the first release film 3 by the release agent applied to the upper side 4 of the first release film 3 ).

Referring to Fig. 3, the second release film attaching step is a step of attaching the second release film 7 to the upper side of the coating film 5 formed by laminating the first release film 3 on the upper side. The release film attacher 22 has a pair of closely spaced rollers 23, 24. The first release film 3 on which the coating film 5 is formed and the second release film 7 released from the second release film supply roller 20 are passed through the dryer to form the coating film 5 and the second release film The second release film 7 is adhered to the side surface of the coating film 5 by passing the first release film 7 and the second release film 7 between the pair of the contact rollers 23 and 24 facing each other. The coating film 5 is weakly adhered to the lower side surface 8 by the releasing agent applied to the lower side surface 8 of the second release film 7.

As described above, the peeling property of the first release film 3 and the peeling property of the second release film 7 with respect to the coating film 5 are different from each other. The inorganic release coating film 1 is formed by attaching the second release film 7 to the coating film 5 laminated on the first release film 3, Film winding rollers 27 and is recovered.

FIGS. 4 to 7 are views sequentially illustrating a process of coating a surface of a base material using a film for coating with an inorganic coating according to an embodiment of the present invention. First, referring to FIG. 4, one of the first and second release films 3 and 7 of the inorganic film coating film 1 is peeled off from the coating film 5.

If the first release film 3 and the second release film 7 have the same or similar releasing force to the coating film 5, only one release film of the first and second release films 3 and 7 5, it is not easy to peel off, and at the same time, a part of the coating film 5 adheres to the releasing film peeling off, so that the coating film 5 may be damaged. However, when the releasing force of the first release film 3 and the second release film 7 is greatly different from each other as in the embodiment of the present invention, the releasing force of the pair of release films 3, The film, that is, the releasing film which is more easily peeled off is peeled off from the coating film 5, the other releasing film remains attached to the coating film 5, and the coating film 5 is also not damaged.

On the other hand, by adjusting the component content of the releasing agent applied to the releasing films 3 and 7, the releasing force between the releasing films 3 and 7 and the coating film 5 and the coating property of the coating film 5 Can be adjusted. For example, when the releasing agent is a silicone type releasing agent containing a silicone resin, it is preferable that the silicone resin is contained in an amount of 10 to 80 wt%, and when the releasing agent is a fluorine type releasing agent containing a fluorine resin, And more preferably 20 wt%.

On the other hand, in the embodiment of the accompanying drawings, the first release film 3 is more easily peeled off from the coating film 5 than the second release film 7, and the first release film 3 ) Is shown as being peeled off, but this is merely an example, and the opposite case is also possible.

5, the coating film 5 is attached to the surface of the base material 30 so that the surface of the base material 30 and the exposed side of the coating film 5 face each other. 5 to 7 illustrate a curved display panel as an example of the base material 30, but the application of the film 1 for inorganic coating according to the present invention (see FIG. 4) is not limited thereto. 5, the second release film 7 is pressed against the base material 30 by a roller or a squeegee made of an elastic material such as rubber, so that the coating film 5 is pressed against the base material 30 So that bubbles are not formed between the surface of the base material 30 and the coating film 5. In this case,

Referring to FIG. 6, ultraviolet rays (UV) are irradiated onto the coating film 5 while the base material 30 with the coating film 5 is inserted or passed through the ultraviolet curing unit. Thus, the coating film 5 is hardened and fixed to the surface of the base material 30.

Referring to FIG. 7, the second release film 7 attached to the side of the cured coating film 5 is peeled off, leaving only the cured coating film 5 on the surface of the base material 30. Since the coating film 5 is already cured and fixed on the surface of the base material 30, the second release film 7 is easily peeled off from the coating film 5 and the coating film 5 is not damaged. Only the coating film 5 is adhered to the surface of the base material 30 and hardened without the base film so that the thickness of the coating film 5 applied to the surface of the base material 30 is uniform and the thickness of the coating film 5 is uniform, The increase of the thickness of the base material 30 and the decrease of light transmittance are minimized.

Since the coating film 5 contains the silane-based or siloxane-based resin, the hardness of the surface of the base material 30 is increased to suppress surface damage, and moisture penetration and oxygen penetration through the surface are suppressed, . Since the coating film 5 adhering to the surface of the base material 30 does not shrink as it is cured and the base film is not provided, the separation of the base material 30 and the coating film 5 due to the difference in strain between the base film and the coating film, Is prevented from being deformed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1: Inorganic coating film for coating 3: First release film
5: Coating film 7: Second release film
11: first release film feed roller 15: slot die
20: second release film feeding roller 22: releasing film attaching machine
27: coating film collecting roller 30: base material

Claims (9)

A coating film in a sol or gel state; A first release film laminated on one side of the coating film so as to be peeled off; And a second release film which is peelably laminated on the other side of the coating film,
The sol or gel coating film is adhered to the surface of the base material and cured and fixed to the surface of the base material,
Wherein one of the first release film and the second release film is peeled off from the coating film before the coating film is adhered to the surface of the base material and the other release film is peeled off from the surface of the base material And is peeled off from the coating film after being cured. The method according to claim 1,
Wherein the first release film and the second release film have different releasing forces with respect to the coating film. 3. The method of claim 2,
A releasing agent including a silicone-based resin is applied to a side surface of the one release film facing the coating film, and a side surface of the other release film facing the coating film Characterized in that the releasing agent is coated with a release agent comprising an acrylic-based resin or a fluorine-based resin. The method according to claim 1,
Wherein the coating film is cured by irradiation with ultraviolet light. 5. The method of claim 4,
Wherein the material of the coating film includes at least one resin selected from the group consisting of a silane-based resin and a siloxane-based resin, and a photopolymerization initiator that absorbs ultraviolet light to polymerize the resin contained in the coating film Film. 6. The method of claim 5,
Wherein the material of the coating film does not contain an organic substance. A method for producing an inorganic protective coating film according to any one of claims 1 to 6,
Applying a coating agent for applying a liquid coating agent to one side of the first release film; A drying step of evaporating a solvent in a coating agent applied to the first release film by heating to form a coating film in a sol or gel state; And a second release film attaching step of attaching a second release film to the other side of the coating film opposite to one side of the coating film facing the first release film, Film. 8. The method of claim 7,
Characterized in that in the step of applying the coating agent, a liquid coating agent is applied using one of a slot die, a comma roller, and a micro gravure roller. Gt; 8. The method of claim 7,
The step of attaching the second release film comprises passing the first release film and the second release film on which the coating film is formed between the pair of closely spaced rollers so that the coating film and the second release film face each other; ≪ / RTI > wherein the inorganic filler comprises at least one inorganic filler.

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