JP2000273421A - Optical interference colorant adhesive film - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain the subject film capable of more simply and efficiently exhibiting an image, having a high optical interference concentration, useful as a material for coloring an article by using a laminate of a levorotatory reflecting layer and a dextrorotary reflecting layer as a cholesteric liquid crystal film. SOLUTION: This optical interference colorant adhesive film comprises a tacky layer on one side of a substrate film and a cholesteric liquid crystal film on the other side and the liquid crystal film comprises a laminate of a levorotatory reflecting layer for reflecting a levorotatory light and a dextrorotary reflecting layer for reflecting a dextrorotary light. Preferably, the different between the maximum wavelength of the reflecting wavelength spectrum of the levorotatory reflecting layer and that of the reflecting wavelength spectrum of the dextrorotary reflecting layer is 0-50 nm. For example, a polyester, or the like, are used as the substrate film and the film subjected to optical treatment such as light absorption by coloring in black is preferably used.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light interference color material adhesive film useful as a color material used for image display materials such as characters and paintings and coloring materials for articles.

[0002]

2. Description of the Related Art A so-called marking film is known as a coloring material used for image display materials such as characters and paintings and coloring materials for articles, and the work conventionally performed by painting or printing can be performed more easily. , Can be done efficiently. The marking film is used to display or color an image on a film serving as a substrate by using a conventionally used paint or ink using a coloring material such as a dye or a pigment.

[0003] In recent years, in fields requiring forgery prevention or the like and a high degree of design, an image display material and a coloring material for an article using an optical interference material having a property of changing color depending on a viewing angle are known. .

[0004] US Pat. No. 5,364,557 describes:
An ink using a small piece made of a cholesteric liquid crystal polymer as a light interference material is disclosed. The specification also discloses a laminate of a left-handed light-reflecting layer that reflects left-handed light and a right-handed light-reflective layer that reflects right-handed light as the small pieces.

Also, US Pat. No. 5,599,412 discloses a method for producing a small piece of the cholesteric liquid crystal polymer, which comprises forming a film of the cholesteric liquid crystal polymer on a substrate and then forming the small piece of the cholesteric liquid crystal polymer. It is disclosed that the particles are ground into a shape.

[0006]

However, the small-piece material obtained by the above-mentioned method is used as an image display material such as a character or a picture, or as a coloring material used for coloring an article. In this case, once the small pieces are dispersed in a dispersion medium such as a solvent or a binder resin, and then, as a paint or ink,
It had to be applied or printed on a substrate, and was not always an industrially advantageous method.

Conventionally, a light interference color material comprising only a left-handed light reflecting layer for reflecting left-handed light using a cholesteric liquid crystal polymer, or a right-handed light using a cholesteric liquid crystal polymer is reflected. Light interference color materials consisting only of a right-handed rotation reflection layer are known, but as is clear from the physical principle, these materials reflect at most half of the incident light and have a light interference color density of at most. It was small.

As described above, conventionally known materials are not only inconvenient in handling, but also have a low light interference color density. The problem to be solved by the present invention is to eliminate the above-mentioned drawbacks in handling, more simply, efficiently display an image or a material for coloring an article, and obtain a light interference color density. To provide a light interference color material having a large light interference color material, more specifically, a light interference color material having a large light interference color density, and a light interference color material adhesive film that can be used as a coating film after being cut off as necessary Is to provide.

[0009]

Means for Solving the Problems The inventors of the present invention have made intensive studies to solve the above-mentioned problems, and as a result, the substrate film has an adhesive layer on one surface and a cholesteric liquid crystal film on the other surface. An interference colorant adhesive film having, as a cholesteric liquid crystal film, a laminate of a left-handed light-reflective layer that reflects left-handed light and a right-handed light-reflective layer that reflects right-handed light. By using an interference colorant adhesive film using a thing, without the above-mentioned drawbacks, more easily, efficiently and efficiently display images, and colored articles, and
The inventors have found that a light interference color material having a large light interference color density can be obtained, and have completed the present invention.

That is, in order to solve the above-mentioned problems, the present invention is directed to an interference color material adhesive film having an adhesive layer on one surface of a substrate film and a cholesteric liquid crystal film on the other surface. The light interference color material adhesive film, characterized in that the film comprises a laminate of a left-handed light-reflecting layer that reflects left-handed light and a right-handed light-reflecting layer that reflects right handed light. provide.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION The substrate film used in the present invention includes polyester, polyamide, polyethylene, and the like conventionally used as a substrate for a marking film.
Other than polypropylene, vinyl resin, acrylic resin,
Paper, metal film, etc. can be used. These substrate films are preferably subjected to a light-absorbing treatment such as coloring in black.

An adhesive layer is provided on one side of the substrate film by a known method, but the adhesive layer is not necessarily required to be transparent and may be opaque. In general, an anti-adhesion layer such as release paper is provided on the adhesive layer.

The cholesteric liquid crystal film referred to in the present invention is:
A liquid crystal film that has a helical structure and selectively reflects light of a specific wavelength by helical pitch.In addition to a cholesteric liquid crystal film in a narrow sense that expresses a cholesteric liquid crystal phase with a cholesterol derivative, a chiral compound is used as a nematic liquid crystal compound. A chiral nematic liquid crystal film exhibiting a chiral nematic liquid crystal phase by chemically bonding or adding a chiral compound to a nematic liquid crystal compound, and similarly a chiral smectic C liquid crystal film exhibiting a chiral smectic C phase are included. (Hereinafter, a structure having a helical structure and selectively reflecting light of a specific wavelength according to a helical pitch is referred to as a “cholesteric liquid crystal phase”.)

As the liquid crystal material used for the cholesteric liquid crystal film, a cholesteric liquid crystal monomer can be crosslinked to have a helical structure and fix a cholesteric liquid crystal phase which selectively reflects light of a specific wavelength by a helical pitch. A cholesteric liquid crystal polymer which has a helical structure by temperature control and which can fix a cholesteric liquid crystal phase which selectively reflects light of a specific wavelength by a helical pitch is used. Specifically, (1) a cholesteric liquid crystal forming compound having a polymerizable group is coated with a cholesteric liquid crystal forming monomer, and then (2) a cholesteric liquid crystal forming compound is maintained. After adding a monomer having a polymerizable group other than the liquid crystal, to maintain the cholesteric liquid crystal phase state by photo-curing the monomer,
(3) After the cholesteric liquid crystal polymer exhibits the cholesteric liquid crystal phase state, the temperature can be rapidly lowered to maintain the cholesteric liquid crystal phase state, and the best one can be selected according to the purpose and use form.

The above (1) is described in, for example,
A cholesteric liquid crystal phase-forming monomer comprising an acrylate ester containing a cholesterol group described in JP-A-109505, and one (meth) acryloyl group and 2 acrylates described in JP-A-8-3111.
And a polymerizable cholesteric liquid crystal phase-forming composition comprising a polymerizable liquid crystal monomer having up to four 6-membered rings and an optically active compound.

The above (2) is described in, for example,
No. 139506, a cholesteric liquid crystal material, polyglutamic acid and its ester, and a combination of a photocurable non-liquid crystal monomer such as acrylamide, acrylate, divinylbenzene, triethylene glycol methacrylate, and the like. Material. Furthermore, Tokuyohei 10-508
No. 882, a compound having a cholesteric liquid crystal material having an acrylic group at both terminals (A) and 1,4: 3,6-dianhydrosorbite-2,5
And a material comprising a combination of -bis (4 '-(6-acryloxyhexoxy) -benzoic acid) ester and hexanediol diacrylate which is a photocurable non-liquid crystalline monomer.

[0017]

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The above (3) is described in, for example,
Cholesteric liquid crystal polymers comprising a copolymer with glutamic acid-γ-benzyl ester and glutamic acid-γ-alkyl ester described in JP-A-116629.

As a liquid crystal material used for forming a left-handed light-reflecting layer that reflects left-handed light and a right-handed light-reflective layer that reflects right-handed light, the desired light rotation is used. The same type or different types may be used as long as they exhibit the property, and each layer may be independently (1) to (3).

The reflection wavelength spectrum of the left-handed reflection layer that reflects left-handed light and the reflection-wavelength spectrum of the right-handed light reflection layer that reflects right-handed light have the purpose of increasing the interference color density. To achieve this, it is desirable that the difference between the maximum wavelength of the reflection wavelength spectrum of the left-handed rotation reflection layer and the maximum wavelength of the reflection wavelength spectrum of the right-handed rotation reflection layer be in the range of 0 to 50 nm. More preferably, the difference is from 0 to 20 nm
Is desirably within the range.

A left-handed light reflecting layer for reflecting left-handed light,
In order to obtain a laminate with a right-handed light-reflecting layer that reflects right-handed light, for example, (a) a left-handed light-reflecting layer is formed on a substrate film provided with or without an adhesive layer. Or after applying the liquid crystal material, which produces a right-handed rotation reflection layer,
(B) A cholesteric liquid crystal phase state that causes a left-handed or right-handed reflecting layer to be maintained by a method such as photocuring or temperature reduction (hereinafter, maintaining the cholesteric liquid crystal phase state is referred to as “fixing”). And (c)
After applying the above-mentioned liquid crystal material which produces an optical rotation reflection layer in the opposite direction to the above-mentioned reflection layer, (d) the right rotation reflection layer or the left rotation reflection layer is formed by a method such as light curing or temperature reduction. The resulting cholesteric liquid crystal phase state may be fixed. When a substrate film without an adhesive layer is used, the substrate may be provided with an adhesive layer thereafter (e).

Although it depends on the intended use of the light interference color material adhesive film of the present invention, when weather resistance is required, it is preferable to further provide a protective coating layer on the cholesteric liquid crystal film. The protective coating layer can be provided by attaching a polymer film on the cholesteric liquid crystal film, or by applying a polymerizable compound that forms the protective film on the cholesteric liquid crystal film and then protecting it by photo-curing. And a method of forming a film.

[0023]

EXAMPLES Hereinafter, the present invention will be described in more detail with reference to Examples, but the present invention is not limited to the following Examples.

(Production Example 1) A polymerizable cholesteric liquid crystal phase-forming composition (Preparation 1) having the following composition was prepared on a polyester film provided with a transparent adhesive layer and black release paper in advance. While maintaining the temperature at 15 ° C., orientation and coating were performed using a bar coater. It was observed that the applied film turned orange. While maintaining the film temperature at 15 ° C., an ultraviolet lamp (output: 18 W) was irradiated for 5 minutes to cure the coating (coating film 1). When this coating film (coating 1) was irradiated with polarized light and observed, it could be confirmed that the coating film was a left-handed light-reflecting layer that reflects left-handed light.

(Formulation of Preparation 1) Formula (B1)

[0026]

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0.41 g of a polymerizable liquid crystal compound represented by the following formula:

Equation (B2)

[0029]

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0.41 g of a polymerizable liquid crystal compound represented by the following formula (B3)

[0031]

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0.18 g of "irgacure-184" (a photoinitiator manufactured by Ciba-Geigy) 0.01 g

(Production Example 2) A polymerizable cholesteric liquid crystal phase-forming composition (preparation 2) having the following composition was placed on a polyester film having a transparent adhesive layer and black release paper previously provided. While maintaining the temperature at 15 ° C., orientation and coating were performed using a bar coater. It was observed that the applied film turned orange. While maintaining the film temperature at 15 ° C., an ultraviolet lamp (output: 18 W) was irradiated for 5 minutes to cure the coating (coating film 2). When this coating film (coating film 2) was irradiated with polarized light and observed, it could be confirmed that the coating film was a right-handed reflection layer that reflects right-handed light.

(Blending of Preparation 2) Polymerizable liquid crystal compound represented by the above formula (B1) 0.41 g Polymerizable liquid crystal compound represented by the above formula (B2) 0.41 g Formula (B4)

[0035]

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0.18 g of "irgacure-184" (a photoinitiator manufactured by Ciba-Geigy) 0.01 g

(Production Example 3) The procedure of Production Example 1 was repeated except that the polymerizable cholesteric liquid crystal phase-forming composition (Preparation 3) having the following composition was used as the liquid crystal layer-forming composition. Thus, a coating film 3 was prepared. When this coating film (coating film 3) was irradiated with polarized light and observed, it was confirmed that the coating film was a right-handed light reflecting layer that reflects right-handed light.

(Blending of Preparation 3) Polymerizable liquid crystal compound represented by formula (B1) 0.38 g Polymerizable liquid crystal compound represented by formula (B2) 0.38 g Optical activity represented by formula (B4) Compound (dextrorotatory) 0.24 g "Irgacure-184" (photoinitiator manufactured by Ciba-Geigy) 0.01 g

The thus-obtained coated film 3 was observed to be colored green.

(Production Example 4) The same procedure as in Production Example 1 was carried out except that a polymerizable cholesteric liquid crystal phase-forming composition (Preparation 4) having the following composition was used as the liquid crystal layer-forming composition. Thus, a coating film 4 was prepared. When this coating film (coating film 4) was irradiated with polarized light and observed, it was confirmed that the coating film was a right-handed reflection layer that reflects right-handed light.

(Blending of Preparation 4) Polymerizable liquid crystal compound represented by formula (B1) 0.39 g Polymerizable liquid crystal compound represented by formula (B2) 0.39 g Optical activity represented by formula (B4) Compound (dextrorotatory) 0.22 g "Irgacure-184" (photoinitiator manufactured by Ciba-Geigy) 0.01 g

The thus-obtained coated film 4 was observed to be colored yellow-green.

(Example 1) The adhesive surface of the coating film 2 from which the release paper of the coating film 2 was peeled off and the liquid crystal coating surface of the coating film 1 were bonded together to form a cholesteric liquid crystal film of the present invention. A light interference color material adhesive film (hereinafter, referred to as a “layer”) comprising a laminate of a left-handed light-reflecting layer that reflects left-handed light and a right-handed light-reflective layer that reflects righthanded light. Light interference color material adhesive film 12 ").

(Comparative Example 1) The adhesive surface of the coated film 1 from which the release paper of the coated film 1 was peeled off and the liquid crystal coated surface of the separately formed coated film 1 were bonded to form a cholesteric liquid crystal film. A left-handed light reflecting layer that reflects left-handed light,
A light interference color material adhesive film (hereinafter, referred to as "light interference color material adhesive film 11") composed of a laminate with a left-handed light-reflecting layer that reflects left-handed light was prepared.

(Comparative Example 2) The adhesive surface of the coating film 2 from which the release paper of the coating film 2 was peeled off was bonded to the liquid crystal coating surface of the coating film 2 separately prepared, and the cholesteric liquid crystal film was An optical interference color material adhesive film (hereinafter, referred to as an "optical interference color material") comprising a laminate of a right-handed light-reflecting layer that reflects optically rotatory light and a right-handed optically reflective layer that reflects right-handed light Adhesive film 22 ").

<Evaluation> The following colorimetric tests were carried out for each of the adhesive films of the light interference color material obtained in Examples and Comparative Examples.

(Colorimetric test) (Visual observation) Adhesive film 1 of light interference color material obtained in Example 1
2. The light interference color material adhesive film 11 obtained in Comparative Example 1 and the light interference color material adhesive film 22 obtained in Comparative Example 2 were visually observed under white light. Coloring could be observed. As for the color depth, the light interference color material adhesive film 12 obtained in Example 1 of the present invention is compared with the color depth of the light interference color material adhesive film 11 and the light interference color material adhesive film 22. The color depth was clearly large.

(Reflection Spectrum Intensity Measurement 1) The reflection spectrum of each adhesive film was measured using a UV-visible spectrum meter (manufactured by Hitachi: U-3500 self-recording spectrophotometer), and the reflection peak wavelength and reflectance were tabulated. 1 together.

[0049]

[Table 1]

From the results shown in Table 1, Example 1 of the present invention was obtained.
It can be understood that the reflection intensity of the light interference color material adhesive film 12 obtained in (1) is the highest.

(Comparative Example 3) The coating film 3 obtained in Production Example 3 was applied to the liquid crystal coating surface of the coating film 1 prepared in Production Example 1.
The cholesteric liquid crystal film reflects the left-handed light, and the right-handed light reflection reflects the right-handed light with a different reflection wavelength spectrum from the reflective layer. A light interference color material adhesive film (hereinafter, referred to as "light interference color material adhesive film 13") composed of a laminate with the layers was prepared.

(Comparative Example 4) The adhesive surface of the coated film 4 from which the release paper of the coated film 4 was peeled off and the liquid crystal coated surface of the separately formed coated film 4 were bonded to form a cholesteric liquid crystal film. A right-handed rotation reflection layer that reflects right-handed light,
A light interference color material adhesive film (hereinafter, referred to as “light interference color material adhesive film 44”) made of a laminate with a right-handed light reflection layer that reflects right-handed light was prepared.

<Evaluation> The following colorimetric test was carried out on the light interference color material adhesive film obtained in Comparative Example 3.

(Color Measurement Test) (Visual) The light interference color material adhesive film 13 obtained in Comparative Example 3
Was observed to be reddish-yellowish-green under white light. The light interference color material adhesive film 13 obtained by laminating the coating film 1 and the coating film 3 is a light interference color material adhesive film 44 obtained in Comparative Example 4 and having substantially the same hue as the light interference color material adhesive film 13. The color intensity was not as high as that of.

(Reflection Spectrum Measurement 2) The reflection spectra of the coated film 1 and the coated film 3 before bonding were measured using a UV-visible spectrometer (Hitachi: U-3500 type self-recording spectrophotometer). The results are shown in Table 2 below.

[0056]

[Table 2]

From the results shown in Table 2, it is found that the coated films 1 and 3 have the maximum wavelength of the reflection wavelength spectrum of 1
It is clear that there is a difference of not less than 00 nm, and the light interference color material adhesive film 13 in which the coating film 1 and the coating film 3 are bonded to each other produces light interference color, but the color density is not large. I can understand.

(Use Example) The light interference color material adhesive film 12 obtained in Example 1, the light interference color material adhesive film 11 obtained in Comparative Example 1, and the light interference color material adhesive film obtained in Comparative Example 2 22 was cut into an arbitrary shape, the release paper was peeled off in any case, and the sheet was affixed on a black steel plate for automobiles. When visually observed under white light, it was observed that all the films turned orange. The color depth is determined by the light interference color material adhesive film 11 and the light interference color material adhesive film 2.
Compared with the product from No. 2, the product from the light interference color material adhesive film 12 obtained in Production Example 1 of the present invention was clearly larger.

[0059]

The light interference colorant adhesive film of the present invention comprises:
Since the light interference color density is large, it is useful as a material for efficiently displaying an image or coloring an article. Further, the light interference color material adhesive film of the present invention can be used as a coating film after being cut off as necessary.

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Claims (2)

[Claims] 1. An interference colorant adhesive film having an adhesive layer on one surface of a substrate film and a cholesteric liquid crystal film on the other surface, wherein the cholesteric liquid crystal film reflects left-handed light. An adhesive film for a light interference color material, comprising a laminate of a left-handed light-reflecting layer and a right-handed light-reflecting layer that reflects right-handed light. 2. A light interference colorant adhesive according to claim 1, wherein the difference between the maximum wavelength of the reflection wavelength spectrum of the left-handed rotation reflection layer and the maximum wavelength of the reflection wavelength spectrum of the right-handed rotation reflection layer is in the range of 0 to 50 nm. Film.