KR20200069147A - Method for evaluating fingerprint resistant of optical film - Google Patents

Abstract

A problem to be solved by the present invention is to provide a method for evaluating fingerprint resistance of the optical film surface. The method for evaluating the fingerprint resistance of the optical film surface according to one embodiment of the present invention may include the following steps of: (a) preparing an optical film; (b) providing an artificial sweat solution comprising an amino acid and an ionized inorganic salt on the surface of the optical film; (c) applying the artificial sweat solution on the surface of the optical film; (d) drying the optical film coated with the artificial sweat solution; and (e) sweeping an area where the artificial sweat solution is applied on the surface of the optical film with a sweeping material.

Description

METHOD FOR EVALUATING FINGERPRINT RESISTANT　OF OPTICAL FILM}

The present invention relates to a method for evaluating fingerprint resistance of an optical film surface.

During the manufacturing process of the display device, a process of assembling the panel to which the optical film is attached is required. At this time, the operator's fingerprint was transferred onto the optical film of the panel, and there was a problem that it was not easily erased.

In the process of assembling the panel, when a process in which the operator's hand is touched by the optical film is involved, even if the operator's hand is touched by the optical film, the operator's fingerprint is not transferred to the panel or the optical film is made to be easily erased. Quality improvement is necessary.

That is, it is necessary to improve the fingerprint wipeability of the optical film surface (hereinafter referred to as'anti-fingerprint property of the optical film surface'). However, the fingerprint composition is different for each person who applies fingerprints to the optical film surface. There was a difficult aspect to make a consistent evaluation of.

The above-mentioned background technology is technical information acquired by the inventor for derivation of embodiments of the present invention or acquired in the derivation process, and may be said to be a publicly known technology disclosed to the general public prior to filing of embodiments of the present invention. none.

The problem to be solved by the present invention is to provide a method for evaluating fingerprint resistance of an optical film surface.

However, the problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

An anti-fingerprint evaluation method of an optical film surface according to an embodiment of the present invention includes: (a) preparing an optical film; (b) providing an artificial sweat solution comprising amino acids and ionized inorganic salts on the surface of the optical film; (c) applying the artificial sweat solution on the surface of the optical film; (d) drying the optical film coated with the artificial sweat solution; And (e) sweeping the area where the artificial sweat solution is applied on the surface of the optical film with a sweeping material.

In the present embodiment, in step (c), the artificial sweat solution on the surface of the optical film is applied to the surface of the optical film via a coating material. It can be spread.

In this embodiment, the step (c), the amount of application per unit area of the artificial sweat solution applied on the surface of the optical film is 9.65*10 ^-6 ml/mm ² or more 1.61*10 ^-5 ml/mm ² It is preferable that it is the following.

In this embodiment, step (d), it is preferable to dry the optical film in an environment of a temperature of 100 °C or more and 120 °C or less.

In this embodiment, the step (d), it is preferable to dry the optical film for a time of 9 minutes or more and 15 minutes or less.

In the present embodiment, in step (e), the application area may be swept after the sweeping substrate is wetted with a cleaning solution.

In this embodiment, the cleaning solution may be an alcohol-based solvent.

According to an anti-fingerprint evaluation method of an optical film surface according to an embodiment of the present invention, a process of applying and drying the surface of the optical film using an artificial sweat solution based on a component commonly included in a human fingerprint is performed. , An artificial fingerprint layer that can be simulated as if a fingerprint is applied or transferred to a surface of the optical film by a real person touching the surface of the optical film can be formed on the surface of the optical film to evaluate the fingerprint resistance of the optical film surface.

1 is a flowchart illustrating a method for evaluating fingerprint resistance of an optical film surface according to an embodiment of the present invention.
Figure 2 is an image showing the results of applying the fingerprint evaluation method of the optical film according to an embodiment of the present invention for two different types of optical film samples.

The present invention will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the embodiments allow the disclosure of the present invention to be complete, and the ordinary knowledge in the technical field to which the present invention pertains. It is provided to fully inform the holder of the scope of the invention, and the invention is only defined by the scope of the claims. Meanwhile, the terms used in the present specification are for explaining the embodiments and are not intended to limit the present invention. In the present specification, the singular form also includes the plural form unless otherwise specified in the phrase. As used herein, "comprises" and/or "comprising" refers to the components, steps, operations and/or elements mentioned above, the presence of one or more other components, steps, operations and/or elements. Or do not exclude additions. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are only used to distinguish one component from other components.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a flowchart illustrating a method for evaluating fingerprint resistance of an optical film surface according to an embodiment of the present invention.

Method for evaluating fingerprint resistance of an optical film surface according to an embodiment of the present invention includes: (a) preparing an optical film (hereinafter referred to as'(a) step', S100); and (b) of the optical film. Providing an artificial sweat solution comprising an amino acid and an ionized inorganic salt on the surface (hereinafter referred to as'(b) step, S200) and (c) applying the artificial sweat solution on the surface of the optical film (Hereinafter, referred to as'(c) step', S300), and (d) drying the optical film coated with the artificial sweat solution (hereinafter, referred to as'(d) step', S400) and (e) ) Sweeping the area where the artificial sweat solution is applied on the surface of the optical film with a sweeping substrate (hereinafter, referred to as'e) step', S500).

(a) In step S100, an optical film for evaluating fingerprint resistance may be prepared. The optical film may be, for example, a laminate including a polarizing plate. The polarizing plate may include a stretched PVA film, a support film disposed on each of the upper and lower surfaces of the PVA film, and a release film disposed via a pressure-sensitive adhesive on the support film. The support film may include at least one of a TAC film, a brightness enhancing film, and a diffusion film.

(b) In step S200, an artificial sweat solution may be provided on the surface of the optical film. The artificial sweat solution may contain amino acids and ionized inorganic salts, which are components commonly included in fingerprints of the human body transferred to a specific surface. The artificial sweat solution may include inorganic cations and inorganic chlorine ions derived from inorganic salts in an appropriate molar ratio based on the content of amino acids. In this example, a solution of Pickering Laboratories, Inc. part number 1700-0015 was used as an artificial sweat solution. Here, as a method for providing an artificial sweat solution on the surface of the optical film, a method of dropping the artificial sweat solution on the surface of the optical film through an eyedropper or spraying the artificial sweat solution on the surface of the optical film through a spray nozzle may be used. However, the present invention is not limited thereto, and any method can be used as long as it can provide an artificial sweat solution on the surface of the optical film.

(c) In step (S300), the artificial sweat solution provided on the surface of the optical film may be applied on the surface of the optical film. As a method of applying the artificial sweat solution, the artificial sweat solution provided on the surface of the optical film via the coating base material is applied to the surface of the optical film. It can be spread. The coating material may be a rubber glove or a rubber blade made of a natural rubber material such as synthetic rubber or latex. For example, a method in which an experimenter rubs with rubber gloves using a rubber blade or rubs with a rubber blade to spread widely on the surface of the optical film may be used.

(c) In step (S300), it is preferable that the application amount per unit area of the artificial sweat solution applied on the surface of the optical film is 9.65*10 ^-6 ml/mm ² or more and 1.61*10 ^-5 ml/mm ² or less. When the application amount per unit area of artificial sweat solution is less than 9.65*10 ^-6 ml/mm ^2, the thickness of the artificial fingerprint layer formed by drying later is transferred by fingerprints when the operator handling the display panel in the field touches the panel with hand. It may be difficult to implement a sample that is formed thinner than the fingerprint transfer layer to be close to the characteristics of the fingerprint transfer layer formed by an actual operator. In addition, when the coating amount per unit area of the artificial sweat solution exceeds 1.61*10-5 ml/mm ² , it is an excessively long time to dry to a degree close to the actual fingerprint transfer layer at a temperature level capable of maintaining the properties of the optical film. This takes, and in order to dry the artificial sweat solution applied for a short time of about 10 minutes, it must be dried at a high temperature. In this case, there is a problem that may cause a change in physical properties of the optical film.

(d) In step (S400), the optical film coated with the artificial sweat solution may be dried to form an artificial fingerprint layer on the surface of the optical film. For example, an optical film coated with an artificial sweat solution may be placed on an oven to form a high temperature environment inside the oven to dry the optical film. (d) In step (S400), it is preferable to dry the optical film in an environment of a temperature of 100°C or more and 120°C or less. When the optical film is dried in an environment with a temperature of less than 100˚C, it may take an excessively long time to dry to a degree close to the actual fingerprint transfer layer, and the optical film may be dried in an environment with a temperature exceeding 120˚C. In the case, there is a problem that can cause a change in the physical properties of the optical film. (d) In the step (S400), it is preferable to dry the optical film for a time of 9 minutes or more and 15 minutes or less. If the optical film is dried for less than 9 minutes, there may be a problem that the artificial sweat solution does not dry sufficiently to approximate the actual fingerprint transfer layer when drying at a temperature level capable of maintaining the properties of the optical film, 15 minutes. When the optical film is dried for a period of time exceeding, the efficiency of sample production may be deteriorated, and there may be a problem of changing the properties of the optical film.

(e) In step (S500), it is possible to check whether the artificial fingerprint layer formed on the surface of the optical film can be removed by sweeping the area coated with the artificial sweat solution on the surface of the optical film with a sweeping substrate. Here, the sweeping substrate is preferably a material that can contain a cleaning solution, and mujincheon can be used. In the step (e), in step S500, the swept substrate is wetted with a cleaning solution, and then the artificial fingerprint layer formed by drying the coating area through the artificial sweat solution may be swept. Here, the cleaning solution may be an alcohol-based solvent, for example, isopropyl alcohol (IPA: isopropyl alchhol) was used. The cleaning solution may be used for cleaning the panel after the panel assembly process of the display unit.

Figure 2 is an image showing the results of applying the anti-fingerprint evaluation method of the optical film according to an embodiment of the present invention for two different types of optical film samples.

Figure 2 (a) is a view showing the results before sweeping the area where the artificial sweat solution is applied with a sweeping material wetted with IPA, Figure 2 (b) is applied with the artificial sweat solution applied with a sweeping material wetted with IPA It is a figure showing the result after sweeping a region.

In the case of the sample on the left side of the optical film, the application area was swept with a sweeping substrate, but it was confirmed that the fingerprint was vulnerable to the extent that the artificial fingerprint layer was observable with the naked eye. After the sweeping, it was confirmed that the fingerprint was strong as the artificial fingerprint layer was not observed with the naked eye.

According to an anti-fingerprint evaluation method of an optical film surface according to an embodiment of the present invention, a process of applying and drying the surface of the optical film using an artificial sweat solution based on a component commonly included in a human fingerprint is performed. , There is an advantage in that a real person can touch the surface of the optical film and form an artificial fingerprint layer on the surface of the optical film that can simulate the fingerprint applied or transferred to the surface of the optical film.

In addition, if the experimental conditions previously determined by the fingerprint resistance evaluation method of the optical film surface according to an embodiment of the present invention are equally applied, there is an advantage in that the fingerprint resistance of the optical film surface is consistent for each sample.

Although the invention has been described in connection with the preferred embodiments mentioned above, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Therefore, the scope of the appended claims will include such modifications or variations as long as they belong to the subject matter of the present invention.

Claims (7)

(a) preparing an optical film;
(b) providing an artificial sweat solution comprising amino acids and ionized inorganic salts on the surface of the optical film;
(c) applying the artificial sweat solution on the surface of the optical film;
(d) drying the optical film coated with the artificial sweat solution; And
(e) sweeping the area where the artificial sweat solution is applied on the surface of the optical film with a sweeping material; a method for evaluating fingerprint resistance of the optical film surface. According to claim 1,
Step (c) is,
Applying the artificial sweat solution on the surface of the optical film via the coating material? A method of evaluating the fingerprint resistance of an optical film surface. According to claim 1,
Step (c) is,
The coating amount per unit area of the artificial sweat solution applied on the surface of the optical film is 9.65*10 ^-6 ml/mm ² or more and 1.61*10 ^-5 ml/mm ² or less, a method for evaluating fingerprint resistance of the optical film surface. According to claim 1,
Step (d) is,
A method for evaluating fingerprint resistance of an optical film surface, drying the optical film in an environment of a temperature of 100°C or more and 120°C or less. The method of claim 4,
Step (d) is,
A method for evaluating the fingerprint resistance of an optical film surface, wherein the optical film is dried for a time of 9 minutes or more and 15 minutes or less. According to claim 1,
Step (e) is,
A method for evaluating fingerprint resistance of an optical film surface, after sweeping the coating area after wetting the sweeping substrate with a cleaning solution. The method of claim 6,
The cleaning solution is an alcohol-based solvent, a method for evaluating fingerprint resistance of an optical film surface.

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