JPH0811263A - Antistatic film - Google Patents

Abstract

PURPOSE:To provide an antistatic film which is excellent in transparency and an adhesive property to ink, toner, etc. CONSTITUTION:An antistatic film is provided wherein a coat layer consisting of an antistatic agent composition containing water-based resin and a polymeric antistatic agent is provided to at least one side face of a thermoplastic resin film. The water-based resin and the polymeric antistatic agent are of the same ion series. A ratio a/b of a contact angle (a) to the thermoplastic resin film of the water-based resin solution and a contact angle (b) to the thermoplastic resin film of the polymeric antistatic agent solution is 0.5-1.5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antistatic film having excellent transparency and adhesiveness to inks, toners, etc. More specifically, various membranes or general industrial films (for example, telephone cards, label,
The present invention relates to an antistatic film useful as a base material for microfilms, diazo films for wet copying, films for overhead processors (OHP), etc.

[0002]

BACKGROUND OF THE INVENTION Polyester films are used in a wide range of applications because of their high degree of crystallinity, excellent transparency, gloss, mechanical properties and chemical resistance. However, since a general polyester film has a high degree of electrical insulation, it has a drawback that it is apt to generate and accumulate static electricity and cause various troubles due to electrostatic damage. Such electrostatic damage causes, for example, winding around a roll, electric shock to the human body during film forming, printing, adhesion, bag making, packaging, electrostatic recording, etc. Of the toner, the printability of the toner and the commercial value of the toner. As a method for preventing such electrostatic damage, generally, a method of kneading an antistatic agent into a resin to prepare a film (hereinafter referred to as a kneading type antistatic treatment method), and applying an antistatic composition to the film surface There are ways.

In general, when imparting antistatic properties to a film by a kneading type antistatic treatment method, the antistatic agent oozes out from the inside of the film to the antistatic effect. However, since the polyester resin has a high second-order transition temperature, when an antistatic film is produced using this kneading type antistatic treatment method,
At temperatures near room temperature, the antistatic agent inside the film does not exude to the surface of the film, so the antistatic property of the resulting antistatic film is insufficient. Furthermore, in this case, high temperature is required for film production, and the polyester resin is deteriorated during film production by blending an antistatic agent due to high reactivity of polar groups contained in the polyester resin. However, there is a problem that the physical properties are deteriorated due to. In particular, when the polyester film obtained by using the kneading type antistatic treatment method is biaxially stretched, the antistatic agent on the film surface escapes and disappears in the stretching step, so that the obtained polyester film is In many cases, it does not show antistatic effect. Further, as described above, most of the antistatic agents are extremely impractical because the transparency of the film is extremely lowered when blended with the polyester film.

When an antistatic film is obtained by applying an antistatic composition to the surface of a film, a low molecular type antistatic agent or a high molecular type antistatic agent is usually mixed with an aqueous resin which acts as a binder. To prepare an antistatic agent composition and apply it to the surface of the base film. However, when a low molecular type antistatic agent is used, it has antistatic properties, but it bleeds to reduce the adhesion to ink and toner. Property and adhesiveness with ink and toner are good, but there is a problem that transparency is poor.

[0005]

DISCLOSURE OF THE INVENTION The present invention is to solve the above-mentioned conventional problems, and an object thereof is to:
An object of the present invention is to provide an antistatic film having excellent transparency and adhesiveness with ink, toner and the like.

[0006]

The antistatic film of the present invention is an antistatic composition comprising an aqueous resin (A) and a polymeric antistatic agent (B) on at least one surface of a thermoplastic resin film. And a contact angle a of the solution of the aqueous resin (A) with respect to the thermoplastic resin film, and the aqueous resin (A) and the polymeric antistatic agent (B) are of the same ionic system. Contact angle b of solution of polymer type antistatic agent (B) to thermoplastic resin film
And the ratio a / b is 0.5 to 1.5, whereby the above object is achieved.

[0007] In a preferred embodiment, the thermoplastic resin film is a polyethylene terephthalate film.

In a preferred embodiment, the polymer type antistatic agent (B) has a number average molecular weight of 5,000 or more.

In a preferred embodiment, the antistatic agent composition further contains fine particles (C).

In a preferred embodiment, the particle size of the fine particles (C) is 1 μm or less or 2 μm or more.

In a preferred embodiment, the above antistatic agent composition further contains wax (D).

In a preferred embodiment, the above a / b
Is 0.75 to 1.25.

The present invention will be described in detail below.

The thermoplastic resin film used in the present invention serves as a base material for the antistatic film of the present invention. As such a thermoplastic resin film, a polyester resin film, a polyurethane resin film,
Polyolefin resin film, polystyrene resin film is not particularly limited, considering the heat resistance,
A polyester resin film, particularly a polyethylene terephthalate film (hereinafter referred to as PET film) is preferable.

The thickness of the thermoplastic resin film is usually 6 to 500 μm, preferably 50 to 125 μm.
Films that are m can be used.

The aqueous resin (A) in the present invention refers to a water-soluble resin and a water-emulsifiable resin. The type of resin is
Although it may be polyester, urethane or acrylic, it is preferable to use the same kind of resin as the thermoplastic resin film in order to improve the adhesion to the thermoplastic resin film. That is, when the thermoplastic resin film is a PET film, it is preferable to use a polyester resin as the water-based resin (A).

In order to improve the transparency of the obtained antistatic film, the aqueous resin (A) is formed into a film having a thickness of 0.01 to 20 μm using only the aqueous resin (A). The cloudiness value in such a case is preferably 0.2 or less.

Glass transition temperature (Tg) of aqueous resin (A)
Is preferably 10 ° C. or higher. Aqueous resin (A)
When the Tg is less than 10 ° C., the hardness of the layer comprising the antistatic agent composition obtained (hereinafter referred to as the coat layer) may be insufficient, and the function as a binder may be insufficient. is there.

As the polymer type antistatic agent (B) used in the present invention, various resins having an antistatic property may be used, and any of anionic type, cationic type and nonionic type may be used. It must be the same ion system as (A). When the ionic systems of the aqueous resin (A) and the polymeric antistatic agent (B) are different,
The stability of the obtained antistatic coating agent is poor, precipitation occurs, and an antistatic film cannot be obtained, or even if an antistatic film is obtained, its transparency is insufficient.

The number average molecular weight of the polymer type antistatic agent (B) is preferably 5,000 or more, more preferably 50,000 or more. When the number average molecular weight of the polymeric antistatic agent (B) is less than 5000, the antistatic coating agent is applied to the thermoplastic resin film and dried, and then the polymeric antistatic agent is applied to the surface of the coating layer. The inhibitor may bleed, and the adhesiveness to the ink, toner, etc. originally possessed by the water-based resin (A) may be impaired. In order to obtain sufficient antistatic properties, the higher the number average molecular weight of the polymeric antistatic agent (B) mixed with the aqueous resin (A), the more the amount of the polymeric antistatic agent (B) added. It is preferable to increase.

The antistatic property of the antistatic film of the present invention is 1 when measured by a surface resistivity meter, for example, Hiresta (manufactured by Mitsubishi Yuka) under the condition of relative humidity of 65%.
It is preferable to adjust the addition amounts of the above-mentioned aqueous resin (A) and polymer type antistatic agent (B) so as to be 0 ⁷ to 10 ¹³ . Generally, the polymeric antistatic agent (B) can be added in a proportion of 10 to 20% of the solid content of the aqueous resin (A).

In order to improve the compatibility between the water-based resin (A) and the polymeric antistatic agent (B), the water-based resin (A)
Also, it is preferable that the contact angles of the polymer type antistatic agent (B) in the aqueous solution state with respect to the thermoplastic resin film are the same. In the present invention, the ratio a / b of the contact angle a of the aqueous resin (A) to the thermoplastic resin film and the contact angle b of the polymer type antistatic agent (B) to the thermoplastic resin film is 0.5 to Must be 1.5,
It is more preferably 0.75 to 1.25. Above a
By making the value of / b close to 1, the transparency of the obtained antistatic film is also improved.

In the above a and b, the aqueous resin (A) and the polymeric antistatic agent (B) were each made into a 5% aqueous solution, and 2 μl of the liquid was dropped on a thermoplastic resin film (usually a PET film). The contact angle of the water droplet with respect to the film is measured, for example, by a goniometer method under the conditions of 20 ° C. and relative humidity of 65%.

In order to improve the slipperiness of the antistatic film of the present invention, it is preferable that the antistatic composition further contains fine particles (C). As such fine particles (C), either inorganic fine particles or organic fine particles may be used. Examples of the inorganic fine particles include fine particles of silica (SiO ₂ ), Al ₂ O ₃ , CaCO ₃ , TiO _{2 and the} like, and examples of the organic fine particles include styrene-based, benzoguanamine-based, and poly (meth) acrylic resin. Examples include fine particles. In order to improve the transparency of the obtained antistatic film, the particle diameter of the fine particles (C) is preferably 1 μm or less or 2 μm or more. In particular, in order to improve the running property of the cut product of the antistatic film, it is preferable to use fine particles having a particle size of 2 μm or more. The fine particles (C) are preferably added in a proportion of about 1% of the solid content of the antistatic agent composition.

Further, in order to improve slipperiness without deteriorating transparency, wax (D) is added to the above antistatic agent composition.
Is preferably added. Examples of such waxes include polyethylene wax and polypropylene wax, and polyethylene wax is particularly preferable.
The wax (D) is preferably added in an amount of about 5% of the solid content of the antistatic agent composition.

The above-mentioned aqueous resin (A), polymer type antistatic agent (B), and, if necessary, fine particles (C) and wax (D), together with water and, if necessary, a suitable solvent are used in a conventional manner. Mix and disperse by a method to obtain an antistatic coating agent.

Solvents other than water include isopropyl alcohol, methanol, ethanol, etc. For example, water: other solvent may be used in a ratio of 10: 0 to 1: 9.

In the antistatic film of the present invention, the obtained antistatic coating agent is applied to one surface of the thermoplastic resin film,
It can be obtained by coating. As the coating method, either a known in-line coating method or an off-line coating method can be applied, and specifically, for example, a spray coating method, an air knife method, a riveros roll coating method, a wire bar method, a roll brush method. And so on. The thickness of the coat layer is preferably 0.01 to 20 μm, more preferably 0.05 to 5 μm.

In advance, the surface of the thermoplastic resin film is anchor-coated (in-line coat) with a resin such as polyester, polyurethane, or acrylic resin to obtain adhesion between the thermoplastic resin film and the antistatic resin composition layer. Can be improved.

The antistatic film of the present invention has a Beck smoothness (JIS P8119) on the coating layer side of 10
It is preferable to select the above various components so as to be 000 S or less. If the Beck's smoothness exceeds 10,000 S, the slipperiness of the resulting antistatic film may be insufficient.

The antistatic film of the present invention is useful as a base material for various membranes or general industrial films (for example, telephone cards, various labels, microfilms, diazo films for wet copying, OHP films, etc.). .

[0032]

The antistatic film of the present invention has a coat layer formed on at least one surface of a thermoplastic resin film. The antistatic agent composition forming the coat layer contains an aqueous resin (A) and a polymer type antistatic agent (B), and both of them contact the thermoplastic resin film in a solution state. By making the corners the same, the transparency of the resulting antistatic film is improved.
In the present invention, the contact angle a of the solution of the aqueous resin (A) to the thermoplastic resin film and the contact angle b of the solution of the polymer type antistatic agent (B) to the thermoplastic resin film.
And the ratio a / b must be 0.5 to 1.5,
0.75-1.25 is more preferable. By bringing the value of a / b close to 1, the stability of the antistatic coating agent and the transparency of the resulting antistatic film are improved.

The antistatic film of the present invention thus obtained is excellent in transparency. The transparency of the antistatic film is evaluated by measuring the haze value. The haze value is obtained by the following formula, and the value is 0.5%
It is preferably at most 0.3%, more preferably at most 0.3%.

[0034]

[Equation 1]

In the antistatic film of the present invention,
By using a high molecular type antistatic agent as the antistatic agent, the adhesiveness of the obtained antistatic film to ink, toner and the like becomes better than that when a low molecular type antistatic agent is used. Adhesiveness to ink, toner, etc. here means that the antistatic film, ink,
It refers to the adhesiveness of a coating film dried after printing using a toner or the like to the antistatic film.

Further, of the antistatic film of the present invention,
In order to improve the adhesiveness to ink, toner, etc., the number average molecular weight of the above-mentioned polymeric antistatic agent (B) is 5
It is preferably 000 or more, more preferably 50,000 or more. When the number average molecular weight of the polymeric antistatic agent (B) is less than 5,000, the antistatic coating agent is applied to the thermoplastic resin film and dried,
The polymer type antistatic agent bleeds on the surface of the coat layer,
There is a possibility that the adhesiveness to ink, toner, etc. originally possessed by the water-based resin (A) may be impaired. In order to obtain sufficient antistatic properties, the higher the number average molecular weight of the polymeric antistatic agent (B) mixed with the aqueous resin (A), the more the amount of the polymeric antistatic agent (B) added. It is preferable to increase.

As described above, the type of the base material and the types and blending of the aqueous resin (A), the polymeric antistatic agent (B), and the fine particles (C) and the wax (D) which are mixed if necessary. The antistatic film obtained by appropriately selecting the amount has excellent transparency and adhesiveness to ink, toner and the like.

[0038]

EXAMPLES Examples and comparative examples of the present invention will be described below. In these examples, various properties were evaluated by the following methods. In the examples and comparative examples, “part” means “part by weight”.

(1) Ratio of contact angle to PET Each resin used in this example and the comparative example was made to have a concentration of 5% with water, and the 5% aqueous solution was applied to a PET film in an amount of 2%.
After dropping μl, the contact angle of the water drop was 20 ° C and relative humidity was 6
It measured using the goniometer type (Elma G-1 type) on condition of 5%. When two kinds of resins were used as the aqueous resin, the contact angle was measured for a mixture of the two kinds of resins (mixture of the mixing ratio in the example or comparative example). The ratio (a) / (b) of the contact angle (a) of the aqueous resin to the PET film and the contact angle (b) of the antistatic agent PET film was calculated.

(2) Transparency of antistatic coating agent Each antistatic coating agent was added to a transparent glass bottle (φ about 5).
(0 mm × height about 100 mm), and the transparency and precipitation state of the antistatic coating agent were visually evaluated from the side. ◯: Transparency was good. X: The transparency was poor.

(3) Haze Meter of Coat Layer Haze meter model TC-H
It was measured by 3DP (manufactured by Tokyo Denshoku).

(4) Ink adhesion 1. UV ink adhesion UV ink (FDSS21-911 ink manufactured by Toyo Ink Co., Ltd.) is screen-printed with 300 mesh on the coat layer, and 5
After being irradiated with ultraviolet rays of 00 mJ, the cross-cut cellophane tape adhesion was evaluated after curing. ◯: The coating film formed by the ink was not peeled at all. X: The coating film formed by the ink was peeled off.

2. Solvent ink adhesion 250 layers of solvent ink (white: manufactured by Jujo Kako) on the coating layer
After screen-printing with a mesh and leaving it in the room for one day, the cross-cut cellophane tape adhesion was evaluated. ◯: The coating film formed by the ink was not peeled at all. X: The coating film formed by the ink was peeled off.

(5) Toner Adhesiveness Ricoh FT5840 was used to print on the coat layer by copying, and a cellophane tape was attached to the copy part and the cellophane tape was peeled off for evaluation. ◯: The toner print was not peeled at all. X: The toner print was peeled off.

(6) Antistatic property The antistatic film was allowed to stand for 4 hours under the conditions of relative humidity of 65% and 20 ° C., and the antistatic property of the coating layer surface was measured by Hiresta (manufactured by Mitsubishi Yuka). .

(7) Sliding property The coat layer sides of the two antistatic films were put together and rubbed by hand to evaluate the feeling of sliding property.

(Example 1) Polyester resin Vylonal MD16 (manufactured by Toyobo) 2 parts, urethane resin H-
38 parts (manufactured by Daiichi Kogyo Seiyaku Co., Ltd.), 0.8 parts anionic polymer antistatic agent WS134 (manufactured by Shin Nakamura Chemical Co., Ltd .: sulfonic acid group-containing acrylic polymer antistatic agent) 0.8 parts, water 43 parts and isopropyl alcohol (hereinafter , IPA) 43
The parts were mixed to obtain an antistatic coating agent. This antistatic coating agent is applied to a PET film with a thickness of 50 μm on a wire bar N
o. After coating with No. 8, it was dried at 160 ° C. for 30 seconds to obtain an antistatic film.

The ratio of the contact angle of the resin component (MD16 and H-38) of the water-based resin, which is a constituent of the antistatic coating agent, and the antistatic agent WS134 to each PET film; transparency of the antistatic coating agent; The UV ink adhesion of the coat layer; the antistatic property; and the slip property were measured. The haze value and UV ink adhesiveness of the coat layer were evaluated by peeling the coat layer from the antistatic film.

(Example 2) 2 parts of polyester resin Vylonal MD1400 (manufactured by Toyobo), 2 parts of acrylic resin acryl 250E (manufactured by Nippon Shokubai), anionic polymer antistatic agent WS134 (manufactured by Shin-Nakamura Chemical: Sulfonyl group-containing acrylic polymer type antistatic agent: number average molecular weight 100,000) 0.45 part, water 43 parts and IPA4
An antistatic coating agent was obtained by mixing 3 parts. This antistatic coating agent is applied to a PET film having a thickness of 100 μm by a wire bar N
o. After coating with No. 8, it was dried at 160 ° C. for 30 seconds to obtain an antistatic film.

The resin component of the water-based resin (MD1400 and Axreset 250) which is a constituent of the antistatic coating agent.
E) and antistatic agent WS134, the ratio of contact angle to each PET film; transparency of antistatic coating agent; toner adhesion of coating layer; antistatic property; and slip property. The haze value and toner adhesion of the coat layer were evaluated by peeling the coat layer from the antistatic film.

(Example 3) Polyester resin Vylonal MD1400 (manufactured by Toyobo) 4 parts, anion type polymer type antistatic agent Gohsefimer (manufactured by Nippon Synthetic Chemical Co., Ltd .: styrene group-containing styrene type polymer type antistatic agent: several) 0.8 parts of average molecular weight: tens of thousands), 43 parts of water and 43 parts of IPA were mixed to obtain an antistatic coating agent. This antistatic coating agent was applied to a PET film having a thickness of 50 μm with a wire bar No.
After coating at 8, dried at 160 ° C. for 30 seconds to obtain an antistatic film.

A resin component (MD1400) of an aqueous resin which is a constituent component of the antistatic coating agent and an antistatic agent Gohsefimer, the ratio of the contact angle to each PET film; transparency of the antistatic coating agent; coating layer Solvent ink adhesion; antistatic property; and slip property. The haze value and solvent ink adhesion of the coat layer were evaluated by peeling the coat layer from the antistatic film.

(Example 4) Fine particles (Eposter MS (manufactured by Nippon Shokubai Chemical Co., Ltd.)) were added to the antistatic coating agent obtained in Example 1 and resin components (MD16 and H-3) of an aqueous resin.
8) was added at a ratio of 1% by weight to the solid content, and polyethylene wax (Hitech E68A (manufactured by Toho Kagaku)) was further added to the solid content of the resin components (MD16 and H-38) of the aqueous resin. Was added in an amount of 5% by weight to prepare an antistatic film in the same manner as in Example 1.

The resin components (MD16 and H-38) of the aqueous resin which are the constituents of the antistatic coating agent, the antistatic agent WS134, and the contact angle ratios of the respective antifoaming agents to the PET film; the transparency of the antistatic coating agent; The UV ink adhesion of the coat layer; the antistatic property; and the slip property were measured. The haze value and UV ink adhesiveness of the coat layer were evaluated by peeling the coat layer from the antistatic film.

Comparative Example 1 An antistatic film was prepared in the same manner as in Example 1 except that the antistatic agent WS134 was not added. The transparency of the antistatic coating agent, the UV ink adhesion of the coating layer, the antistatic property, and the slip property were measured. The haze value and UV ink adhesiveness of the coat layer were evaluated by peeling the coat layer from the antistatic film.

Comparative Example 2 An antistatic film was prepared in the same manner as in Example 2 except that the antistatic agent WS134 was not added. The transparency of the antistatic coating agent, the toner adhesion of the coating layer, the antistatic property, and the slip property were measured. The haze value and toner adhesion of the coat layer were evaluated by peeling the coat layer from the antistatic film.

(Comparative Example 3) In place of the antistatic agent WS134, 0.8 part of the anionic polymer type antistatic agent Statiside (manufactured by Takihara Sangyo: number average molecular weight 50000) was added. An antistatic film was prepared in the same manner as in 2.

A resin component of an aqueous resin (MD1400 and Acryset 250) which is a constituent of the antistatic coating agent.
E) and antistatic agent staticide, PE of each
The ratio of the contact angle to the T film; the transparency of the antistatic coating agent; the UV ink adhesive property and toner adhesive property of the coating layer; the antistatic property; and the slip property were measured. The haze value, UV ink adhesion and toner adhesion of the coat layer were evaluated by peeling the coat layer from the antistatic film.

(Comparative Example 4) In place of the antistatic agent WS134, 0.3 part of anionic low molecular weight antistatic agent TB132 (manufactured by Matsumoto Yushi Co., Ltd .: number average molecular weight: several hundreds) was added. An antistatic film was prepared in the same manner as in 1.

Ratio of contact angles of the resin component (MD16 and H-38) of the aqueous resin, which is a constituent component of the antistatic coating agent, and the antistatic agent TB132 to each PET film; transparency of the antistatic coating agent; The UV ink adhesion of the coat layer; the antistatic property; and the slip property were measured. The haze value and UV ink adhesiveness of the coat layer were evaluated by peeling the coat layer from the antistatic film.

(Comparative Example 5) Example 6 was repeated except that 0.3 part of anionic low molecular weight antistatic agent TB132 (manufactured by Matsumoto Yushi Co., Ltd .: number average molecular weight: several hundreds) was added in place of antistatic agent WS134. An antistatic film was prepared in the same manner as in 2.

A resin component of an aqueous resin (MD1400 and Acryset 250) which is a constituent of the antistatic coating agent.
E) and the antistatic agent TB132, the ratio of the contact angle to each PET film; the transparency of the antistatic coating agent; the toner adhesion of the coating layer; the antistatic property; and the slipperiness. The haze value and toner adhesion of the coat layer were evaluated by peeling the coat layer from the antistatic film.

[0063]

[Table 1]

From Table 1, it was found that the antistatic films of the present invention obtained in Examples 1 to 4 were excellent in transparency, adhesiveness to ink and toner, and antistatic property. Furthermore, the antistatic film of Example 4 obtained by using the antistatic coating agent containing fine particles and wax also had good slipperiness. The films obtained in Comparative Examples 1 and 2 obtained by using the antistatic coating agent containing no antistatic agent were good in transparency and adhesiveness to ink and toner, but had antistatic properties. I didn't have it. The antistatic film of Comparative Example 3 obtained by using the antistatic coating agent having the same ionic system of the water-based resin and the polymeric antistatic agent but having a low contact angle ratio to the PET film is , The adhesion to ink and toner was good, but the transparency was poor. The antistatic films of Comparative Examples 4 and 5 obtained by using the low molecular type antistatic agent were good in transparency and antistatic property, but inferior in adhesiveness to ink and toner.

[0065]

According to the present invention, transparency and ink,
It is possible to provide an antistatic film having excellent adhesion to toner and the like. The antistatic film of the present invention,
Various membranes or general industrial films (eg,
It is useful as a base material for telephone cards, labels, microfilms, diazo films for wet copying, OHP films, etc.).

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[Procedure amendment]

[Submission date] July 26, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0033

[Correction method] Change

[Correction content]

The antistatic film of the present invention thus obtained is excellent in transparency. The transparency of the antistatic film is evaluated by measuring the haze value. The haze value is obtained by the following formula, and the value is 0.5%
The following is preferable, and 0. It is more preferably 2 % or less.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Name of item to be corrected] 0058

[Correction method] Change

[Correction content]

A resin component of an aqueous resin (MD1400 and Acryset 250) which is a constituent of the antistatic coating agent.
E) and antistatic agent staticide, PE of each
The proportion of the contact angle with respect to T film; and the and sliding properties were measured; preparative toner adhesion of the coated layer; transparency of the antistatic coating agent antistatic properties. Haze Best and toner adhesion of the coating layer was evaluated by peeling off the coating layer from the antistatic film.

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0063

[Correction method] Change

[Correction content]

[0063]

[Table 1]

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0064

[Correction method] Change

[Correction content]

From Table 1, it was found that the antistatic films of the present invention obtained in Examples 1 to 4 were excellent in transparency, adhesiveness to ink and toner, and antistatic property. Furthermore, the antistatic film of Example 4 obtained by using the antistatic coating agent containing fine particles and wax also had good slipperiness. The films obtained in Comparative Examples 1 and 2 obtained by using the antistatic coating agent containing no antistatic agent were good in transparency and adhesiveness to ink and toner, but had antistatic properties. I didn't have it. The antistatic film of Comparative Example 3 obtained by using the antistatic coating agent having the same ionic system of the water-based resin and the polymeric antistatic agent but having a low contact angle ratio to the PET film is , but was good adhesion to the door toner, it had poor transparency. The antistatic films of Comparative Examples 4 and 5 obtained by using the low molecular type antistatic agent were good in transparency and antistatic property, but inferior in adhesiveness to ink and toner.

Claims (7)

[Claims] 1. An antistatic film comprising a thermoplastic resin film and a coating layer comprising an antistatic composition containing an aqueous resin (A) and a polymeric antistatic agent (B) on at least one surface of the thermoplastic resin film. The aqueous resin (A) and the polymeric antistatic agent (B) are of the same ionic system, and the contact angle a of the solution of the aqueous resin (A) with respect to the thermoplastic resin film and the high Ratio a / b of the solution of the molecular type antistatic agent (B) to the contact angle b of the thermoplastic resin film
Is an antistatic film having 0.5 to 1.5. 2. The antistatic film according to claim 1, wherein the thermoplastic resin film is a polyethylene terephthalate film. 3. The antistatic film according to claim 1, wherein the polymer type antistatic agent (B) has a number average molecular weight of 5,000 or more. 4. The antistatic agent composition comprises fine particles (C).
The antistatic film according to claim 1, further comprising: 5. The antistatic film according to claim 4, wherein the particle size of the fine particles (C) is 1 μm or less or 2 μm or more. 6. The antistatic film according to claim 1, wherein the antistatic agent composition further contains a wax (D). 7. The chargeable film according to claim 1, wherein the a / b is 0.75 to 1.25.