JPH06157791A - Triacetyl cellulose film having scratching resistance, polarizing plate and production thereof - Google Patents

Abstract

PURPOSE:To obtain a product having formed a hard coat layer with excellent adhesivity to a film and scratching resistance without causing deterioration and whitening of the film by using a specific composition as a resin for the hard coat. CONSTITUTION:First, a coating compound composition comprising (A) 100 pts.wt. ionizing radiation curing type resin (preferably mixture of polyester acrylate and polyurethane acrylate) and (B) 10-100 pts.wt. cellulosic resin (e.g. nitrocellulose) as a solvent drying type resin is applied to a triacetyl cellulose film. Then the film is irradiated with ionizing radiation and the coating film is cured to give the objective product. Toluene is preferable as a solvent for the coating compound composition. In the case of using an ultraviolet curing resin as the component A, the coating compound composition is preferably mixed with a fluorine-based or silicone-based leveling agent.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a scratch-resistant film used for various displays such as word processors, computers and televisions, and particularly for the surface of liquid crystal displays, a polarizing plate using the film, and a scratch-resistant film. Regarding the method.

[0002]

2. Description of the Related Art In various displays such as word processors, computers and televisions, visual information such as characters and figures can be observed through a transparent protective substrate such as glass or plastic on the surface thereof. In particular, the surface of a display body such as a liquid crystal display is provided with a film-shaped polarizing element that functions as a light shutter, but since the polarizing element itself is inferior in scratch resistance, glass, a transparent plastic plate, Alternatively, the polarizing plate is formed by being protected by a transparent protective substrate such as a transparent plastic film. However, since the transparent protective substrate itself made of a plastic such as a transparent plastic plate or a transparent plastic film is also easily scratched, in recent years, such a polarizing plate having a scratch-resistant surface has been developed. As such a technique, for example, there is one described in Japanese Patent Application Laid-Open No. 1-105738.

[0003] This publication discloses a triacetate film for light control as a transparent protective film provided with a scratch resistance and an antiglare property, which is laminated on a polarizing element in the form of a film to form a polarizing plate. ing. This film is a triacetate film having excellent scratch resistance by providing a cured coating film made of an ultraviolet curable epoxy acrylate resin on one surface of an unsaponified triacetate film.

On the other hand, conventionally, in order to prevent reflection of light emitted from the outside and to prevent glare of light transmitted from the inside, conventionally,
An antireflection film was laminated on the smooth surface of the display. Generally, as a method of preventing reflection of light incident on the surface of a transparent substrate, a method of applying an antireflection coating on the surface of glass or plastic, MgF ₂ having a film thickness of about 0.1 μm on the surface of a transparent substrate such as glass. Ultra-thin film such as a metal vapor deposition film, a plastic lens or other plastic surface coated with an ionizing radiation curable resin, and a vapor deposition method to form a SiO ₂ or MgF ₂ film, an ionizing radiation curable resin There has been a method of forming a coating film having a low refractive index on a cured film of resin.

[0005]

Conventionally, when forming a hard coat layer for imparting scratch resistance on a triacetyl cellulose film, a solvent such as ethyl acetate methyl ethyl ketone which dissolves the triacetyl cellulose film is used. , The surface of the triacetyl cellulose film was dissolved to some extent to improve the adhesion between the triacetyl cellulose film and the resin for the hard coat layer, but with this method, the problem that the triacetyl cellulose film deteriorates, and triacetyl cellulose There was a problem that the film was whitened and the transparency was impaired.

Further, since the triacetyl cellulose film itself does not have heat resistance, when an ultraviolet curable resin is used as the resin for the hard coat layer, there is a problem that the illuminance of ultraviolet rays cannot be increased and the surface hardness is lowered. . A hard coat layer formed on the surface of a display by applying a conventional resin containing a matting agent such as silicon dioxide cannot sufficiently prevent reflection of the light when it is irradiated with light from the outside. It was In addition, since the display having this hard coat layer contains about 2 to 4% by weight of silicon dioxide, the light transmitted from the inside is diffused in the hard coat layer, and the light transmitted through the hard coat layer is diffused. Since the amount of light, that is, the amount of transmitted light is reduced, the transparency is lowered, and the resolution and contrast of the image are lowered.

Further, even if an antireflection film is laminated on the surface of a display having a smooth surface, a sufficient antireflection effect cannot be obtained. Therefore, a first object of the present invention is to form a hard coat layer having excellent adhesion to a triacetyl cellulose film and excellent scratch resistance without deteriorating or whitening the triacetyl cellulose film. An object of the present invention is to provide a triacetyl cellulose film, a polarizing plate using the film, and a method for producing a triacetyl cellulose film having excellent scratch resistance.

A second object of the present invention is, in addition to the above objects, a triacetyl cellulose film having an antireflection effect, a polarizing plate using the film, and a method for producing a triacetyl cellulose film having excellent scratch resistance. The purpose is to provide.

[0009]

The first method for producing a scratch-resistant triacetylcellulose film of the present invention is a solvent drying type on 100 parts by weight of an ionizing radiation-curable resin on a triacetylcellulose film. It is characterized in that a coating composition for a hard coat containing 10 parts by weight or more and 100 parts by weight or less of a cellulosic resin as a resin is applied, and the coating film is cured by irradiating with ionizing radiation to produce the resin.

Next, the second method for producing the triacetyl cellulose film having scratch resistance of the present invention is 10 parts by weight or more and 100 parts by weight or more per 100 parts by weight of the ionizing radiation curable resin on the triacetyl cellulose film. Parts or less of a solvent-drying resin such as cellulose resin and MgF ₂
A coating composition for a hard coat containing the above is applied, and the coating film is cured by irradiating with ionizing radiation to produce the coating film.

According to the present invention, a triacetyl cellulose film having scratch resistance is obtained by these manufacturing methods, and the polarizing plate of the present invention is obtained by laminating this film on a film-like polarizing element. . The means of the present invention will be described in more detail. The thickness of the triacetyl cellulose film used in the present invention may be plate-like or film-like, but is usually 25 μm to
A material having a thickness of about 1000 μm is used.

Ionizing radiation curable resin: The film-forming component used in the ionizing radiation curable resin composition of the present invention preferably has an acrylate-based functional group, for example, a polyester resin having a relatively low molecular weight, Oligomers or prepolymers such as (meth) acrylates of polyfunctional compounds such as ether resins, acrylic resins, epoxy resins, urethane resins, alkyd resins, spiroacetal resins, polybutadiene resins, polythiol polyene resins, polyhydric alcohols and reactive diluents As a monofunctional monomer such as ethyl (meth) acrylate, ethylhexyl (meth) acrylate, styrene, methylstyrene, and N-vinylpyrrolidone, and a polyfunctional monomer, for example, trimethylolpropane tri (meth) acrylate, hexanediol (Meth) acrylate, tripropylene glycol di (meth) acrylate, diethylene glycol di (meth) acrylate, pentaerythritol tri (meth) acrylate, dipentaerythritol hexa (meth) acrylate, 1,6-hexanediol di (meth) acrylate, neo Those containing a relatively large amount of pentyl glycol di (meth) acrylate can be used.

Particularly preferably, a mixture of polyester acrylate and polyurethane acrylate is used. The reason is that polyester acrylate is suitable for obtaining a hard coat because the coating is very hard, but polyester acrylate alone has a low impact resistance and becomes brittle, so that the coating has impact resistance and flexibility. Polyurethane acrylate is used together to impart the property. The mixing ratio of polyurethane acrylate to 100 parts by weight of polyester acrylate is 30 parts by weight or less. This is because if the value exceeds this value, the coating film becomes too soft and loses its hardness.

Further, in order to make the above ionizing radiation curable resin composition into an ultraviolet curable resin composition, acetophenones, benzophenones, Michler benzoyl benzoate, α-amyloxime are used as photopolymerization initiators therein. Ester, tetramethylthiuram monosulfide,
Thioxanthones and n-butylamine, triethylamine, tri-n-butylphosphine and the like can be mixed and used as a photosensitizer. Particularly in the present invention, it is preferable to mix urethane acrylate as the oligomer and dipentaerythritol hexaacrylate as the monomer.

As the ionizing radiation, electromagnetic waves such as ultraviolet rays and visible rays, and particle beams such as electron beams are used. Leveling agent: When an ultraviolet curable resin among ionizing radiation curable resins is used as a coating composition for forming a scratch-resistant hard coat coating used in the present invention, it is used as a leveling agent in it. Addition of a fluorine-based or silicone-based leveling agent is advantageous in curing the hard coat coating film. The reason for this is that when triacetylcellulose is used as the transparent substrate, the hardness of the obtained coating film surface is insufficient because the irradiation intensity of ultraviolet rays cannot be increased so much because it does not have heat resistance. In the UV-curable resin added with the agent, fluorine-based and silicone-based leveling agents bleed to the air interface in the coating film when the solvent is dried, so it is possible to prevent curing inhibition of the UV-curable resin by oxygen. This is because a cured coating film having sufficient hardness can be obtained even when the irradiation intensity of ultraviolet rays is low.

Further, since the leveling agent of silicone type or fluorine type imparts the sliding property, the scratch resistance is improved. The amount of the leveling agent added is 10
It is 0.01 to 0.5 parts by weight with respect to 0 parts by weight. Cellulose-based resin: Cellulose-based resin as a solvent-drying-type resin used by being mixed with ionizing radiation-curable resin in the present invention is 10 to 100 parts by weight of cellulose-based resin to 100 parts by weight of ionizing-radiation-curable resin. Include the following. The reason for using a cellulosic resin as the solvent-drying resin is to form a hard coat coating film on a triacetyl cellulose film, as the solvent-drying resin, nitrocellulose, acetyl cellulose, cellulose acetate propionate, ethyl hydroxy. This is because the use of a cellulose-based resin such as ethyl cellulose and its solvent, toluene, is advantageous in terms of adhesion and transparency of the hard coat coating film.

That is, when toluene is used as the solvent for the cellulose resin, the toluene is insoluble in the triacetyl cellulose film which is the transparent substrate and is inferior in imparting adhesion, but the triacetyl cellulose film is used. And the adhesion to the cellulosic resin contained in the hard coat coating resin is good. Moreover, since this toluene does not dissolve the triacetyl cellulose film which is the transparent substrate, there is an advantage that the surface of the transparent substrate is not whitened and the transparency is maintained.

Magnesium fluoride MgF ₂ can be used as an antireflection imparting agent that can be included in the hard coat coating composition of the present invention. This MgF ₂
Can be added in an amount of 10 to 80 parts by weight based on 100 parts by weight of the coating composition for hard coat. This Mg
By adding F ₂ , the refractive index of the coating film can be lowered and antireflection property can be imparted.

In order to further improve the flatness and curability of the surface, a highly transparent and smooth PET film may be laminated, irradiated with UV and cured, and then peeled off.

[0020]

Example 1 A cellulosic polymer was used as a solvent-drying resin for 17 parts by weight of polyester acrylate.
Silicone oil 0.1 as parts by weight and leveling agent
A coating composition for a hard coat was prepared by adding a part by weight and diluting the whole with toluene to adjust the viscosity.

This hard coat coating composition was applied onto a triacetyl cellulose film, the solvent was dried, and then the coating film was cured by irradiating with ultraviolet rays to a film thickness of 0.1 μm when dried. The surface hardness of the obtained cured coating film is pencil hardness 2H, taper wear (wear axis CS-10F, 500
The change in haze value after 3.5 times of g × 2 load is 3.5.
Diminished. The peeling condition of the adhesion test (3N NaOH 60 ° C., immersion in aqueous solution for 5 minutes) was 100/100, and it was found that the adhesion was excellent.

By subjecting the triacetylcellulose film having scratch resistance obtained as described above to saponification treatment, an effect of enhancing the adhesiveness to a polarizing element, that is, a polarizing element made of a polyvinyl alcohol film, and preventing static electricity are provided. It has an effect. Then, a triacetyl cellulose film after saponification using an adhesive and the polarizing element were dry laminated to prepare a polarizing plate.

[0023]

Example 2 83 parts by weight of polyester acrylate, 17 parts by weight of cellulosic polymer, silicone oil 0.1.
A coating composition for a hard coat was prepared by adding 50 parts by weight of MgF ₂ fine particles to 1 part by weight of resin and diluting with toluene to adjust the viscosity.

The coating composition for a hard coat was applied onto a triacetyl cellulose film, the solvent was dried, and then the coating film was cured by irradiating with ultraviolet rays to a film thickness of 0.1 μm when dried. The surface hardness of the obtained cured coating film is pencil hardness 2H taper wear (wear axis CS-10F, 500
The change in haze value after 3.5 times of g × 2 load is 3.5.
Diminished. It was found that the peeling condition in the adhesion test (NaOH 3N 60 ° C., immersion in aqueous solution for 5 minutes) was 100/100, and the adhesion was excellent.

The transmittance of the obtained triacetylcellulose film having scratch resistance is increased by about 5% in the wavelength region of 350 to 700 nm as compared with the case where MgF ₂ is not added, and the transparency is increased. The reflectance was reduced by 5% and had antireflection property. The obtained triacetyl cellulose film having scratch resistance was dry laminated on a polarizing element in the same manner as in Example 1 to prepare a polarizing plate.

[0026]

EFFECT OF THE INVENTION According to the present invention which achieves the first object, the triacetyl cellulose film is excellent in adhesion with the triacetyl cellulose film without being deteriorated and without being whitened, and has excellent scratch resistance. A triacetyl cellulose film having an excellent hard coat layer was obtained.

According to the invention, which achieves the second object,
In addition to the effects of the invention described above, antireflection effect could be imparted to the triacetyl cellulose film.

Claims (4)

[Claims] 1. On a triacetyl cellulose film,
A coating composition containing 10 parts by weight or more and 100 parts by weight or less of a cellulosic resin as a solvent drying type resin is applied to 100 parts by weight of an ionizing radiation curable resin, and the coating film is cured by irradiating with ionizing radiation. A method for producing a triacetyl cellulose film having scratch resistance, comprising: 2. On a triacetyl cellulose film,
A coating composition containing 10 parts by weight or more and 100 parts by weight or less of a solvent-drying resin, that is, a cellulosic resin and MgF ₂ is applied to 100 parts by weight of an ionizing radiation-curable resin, and the coating film is irradiated with ionizing radiation. A method for producing a triacetyl cellulose film having scratch resistance, which comprises curing. 3. A scratch-resistant triacetylcellulose film produced by the method according to claim 1. 4. A polarizing plate comprising the triacetyl cellulose film having scratch resistance according to claim 3 laminated on a polarizing element.