JPH01192895A - Metallized paper with hologram and label - Google Patents

Abstract

PURPOSE:To obtain the title metallized paper having excellent workability, preventing metallizing inferiority owing to residual solvent and easily washable and peelable from recovered vessel, by using an alkali-soluble, hologram forming electron radiation curing resin as an anchor resin layer for metallizing. CONSTITUTION:Base paper 3 consisting of substrate paper 1 and a clay coated layer 2 is successively provided with an anchor resin layer 4 for metallizing comprising an alkali-soluble, electron radiating curing resin (preferably >=80 acid value) and a metallized layer 5 and then a hologram of relief-type is formed on the anchor resin layer 4 for metallizing and the metallized layer 5 to afford the aimed metallized paper.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to metallized paper and labels having holograms. More specifically, the present invention relates to vapor-deposited paper and labels that can be used to improve processability and that can be used to easily peel off and remove thin labels attached to containers that require collection and recycling using an alkaline solution.

<Conventional technology> Holograms made by embossing plastic materials can be mass-produced at a relatively low cost, have unexpected effects due to their beauty and three-dimensional effect, and are difficult to counterfeit. From, book covers, calling cards,
It is widely used as a credit card, and its fields of use are expanding more and more. On the other hand, when using a label with a hologram for containers that need to be collected and reused (glass bottles for various alcoholic beverages such as sake and beer), the resin layer that forms the hologram has the formability of the hologram and can be used with an alkaline solution. Ability to wash bottles is essential. In addition, in general, this resin layer is generally formed by heating and drying after coating as a resin paint diluted with a solvent in order to impart coating suitability. There are problems with processability, such as poor adhesion to the stanbar and whitening phenomenon during metal vapor deposition, making it difficult to conventionally apply vapor-deposited labels with holograms to containers for collection.

<Problems to be Solved> In view of the above circumstances, the present invention has been made to provide a hologram-attached vapor deposition method that does not cause paper curl defects or defects when forming relief-type holograms using a stamper, and is easy to wash and peel off from containers to be collected. The purpose is to provide paper and labels.

<Means for Solving the Problems> The present invention uses an electron beam curable resin that is alkali-soluble and can be embossed into a hologram in the anchor resin layer for vapor deposition, thereby providing excellent processability and a recovery container. The present invention provides a vapor-deposited paper and a label that have a high display effect.

The present invention will be explained in more detail below using the drawings.

FIG. 1 schematically shows a cross-sectional view of a vapor-deposited paper with a hologram and a label according to the present invention. 2) A vapor-deposited paper and a label on which an anchor resin layer (4) for vapor deposition having a hologram consisting of fine irregularities and a metal vapor-deposited layer (5) are sequentially provided.

Here, the base paper (3) needs to have an elongation of 1.5% or less when immersed in water and has an elongation of 2.5% or less, and a base paper (3) having an elongation of 2.5% or more is used. When it is attached to a beer bottle or the like and cooled in a refrigerator, water droplets adhering to the skin surface cause cracks in the vapor deposited layer (5) provided on the base paper (3), degrading the appearance.

In addition, the anchor resin layer (4) for vapor deposition is made of an electron beam curable resin, and as shown in FIG. Since it is realized by molding down to the anchor resin layer (4) for vapor deposition in the lower layer, it has moldability by heat and pressure.
That is, it needs to have slightly thermoplastic resin-like properties. In addition, labels for recovery and reuse require alkali solubility, and acrylates with a high acid value are particularly suitable as electron beam curable resins.

As an electron beam curable resin, specifically as a base resin, polyurethane acrylate, polyester acrylate, epoxy acrylate, etc., phthalic acid, isophthalic acid, terephthalic acid, hymic acid, succinic acid, succinic anhydride, maleic acid, fumaric acid, etc. It is made by adding a polybasic acid such as acid, adipic acid, trimellidic acid, etc., and is preferably an electron beam curable resin having an acid value of 80 or more.

The diluting monomers that impart coating suitability to these base resins include acrylic acid, acrylic ester,
Butyl acrylate, 2-ethylhexyl acrylate,
Suitable examples include N-vinylpyrrolidone, 2°6-hexashiol diacrylate, and neopentyl glycol acrylate.

The electron beam curable resin described in the present invention may be applied by the commonly known gravure coating method, roll coating method, blade coating method, etc., and the thickness of the coating film is usually Approximately 2 to 10 μm is appropriate.

The appropriate electron beam dose for curing the electron beam curable resin in the present invention varies depending on the resin, but is usually in the range of 1 to 10 Mrad.

The metal vapor deposited layer (5) can be formed by forming a thin film of about 100 to 1000 layers using a metal having a high surface reflectance, such as aluminum or tin, by vacuum vapor deposition or sputtering.

To form a hologram on the vapor-deposited paper and label of the present invention, as shown in FIG. Formed by heating and pressurizing.

The hologram in the present invention can be formed by any method such as a flat press method as shown in FIG. 2 or a roll press method, but in consideration of productivity, a circular press method is preferable.

FIG. 3 shows the vapor-deposited paper with a hologram thus obtained and a label layer (8), a printing layer (9), and an overcoat layer (00) provided thereon to further enhance the surface resistance and display effect.

The primer layer (8) in this case is made of a resin with good alkali solubility, such as shellac, nitrocellulose resin, a mixed resin in which a nitrocellulose resin is added with a resin acid ester, or a resin in which an alkyd resin is further added to the mixed resin. Either is preferred.

The printing layer (9) is made of an ink containing a nitrocellulose resin, a polyamide resin, or a mixed resin thereof as a vehicle, and further containing maleic acid.

The overcoat layer 00) is an alkali-soluble layer made of a resin made of the vehicle for the ink used in the printing layer (9).

<Function> Since the anchor layer for vapor deposition uses an alkali-soluble electron beam curable resin, there is no need for heating and drying when forming the anchor layer for vapor deposition, and there is no curling of the paper or the effects of residual solvent. A beautiful hologram can be formed.

Moreover, it can be easily peeled off by washing with an alkaline solution.

Furthermore, hologram embossing is generally done by directly embossing thermoformable resin to form a hologram. additives contained in
It does not cause defects such as contamination of the standby or blocking due to residual solvent, low molecular weight monomers, etc., or the metal adhesive property of the resin.

<Examples 1 to 3 and Comparative Example 1> Various electron beam curable resins with different acid values as shown in Table 1 below were placed on a base paper consisting of Cormoran) VMST (underwater elongation 1.2χ) [manufactured by Fuji Kako]. Using ethyl acrylate as a diluent to impart coating suitability, the base resin was coated with a thickness of approximately 3°0 μm using the gravure coating method, and the resin was instantaneously irradiated with an electron beam of 3 Mrad using an electron beam accelerator. This was then cured to form an anchor resin layer for vapor deposition. Next, a metal vapor deposition layer consisting of 500 aluminum was formed using a vacuum evaporation machine, and then a metal vapor deposition layer was formed using a roll embossing machine equipped with a relief type hologram stumper at a pressure of 5'Okg/cyn and 140°C. formed a hologram. Table 2 shows the evaluation effects of the obtained vapor-deposited paper.

At the same time, it is shown in Table 1 as Comparative Example 1. A hologram-attached vapor-deposited paper was produced in the same manner as in Examples 1 to 3 except that a base resin was used, and the same evaluation was performed.

The results are shown in Table 2.

The vapor-deposited papers of Examples 1 to 3 have excellent hologram formability, water resistance, and bottle washability, and those using a base resin with a special G-oxidation rating of 80 or higher are satisfactory in all performances. Met.

Then, with starch paste, a cuff was applied to the aluminum vapor-deposited paper with hologram obtained in Example 2, and then a primer layer made of nitrocellulose resin, and an ink containing 6% maleic acid added to the ink using polyamide resin as a vehicle. A vapor deposited paper was produced by sequentially forming a printing layer and an overcoat layer using a gravure coating method using a face made of a mixture of nitrocellulose resin and alkyd resin.

The vapor-deposited paper above was pasted with casein as a beer bottle bell, and the bottle cleaning properties were evaluated in the same manner as in Examples 1 to 3. When immersed in an alkaline solution, it peeled off within 4 minutes, and it had excellent bottle cleaning properties. , and also had good water resistance and abrasion resistance.

<Effects of the Invention> In the present invention, by using an electron beam curable resin that is alkali-soluble and capable of embossing holograms in the anchor resin layer for vapor deposition, processability is improved without the need for conventional heat-based solvent drying. The vapor-deposited paper that can be used to solve various problems such as poor vapor deposition and blocking caused by residual solvents is of course effective as general wrapping paper, but it is especially suitable for containers that require collection and reuse. When used for labels, it has excellent bottle washing properties.

From this, the present invention is effective in providing an unprecedented sense of luxury as a metallized paper, particularly as a label for a collection bottle, and improving processability and economical efficiency. Furthermore, it can be widely used in the packaging field, books, and catalogs, and can be said to be industrially effective.

[Brief explanation of the drawing]

The drawings show embodiments of the present invention, and FIG. 1 is a sectional view schematically showing the structure of a vapor-deposited paper with a hologram according to the present invention,
The figure is an explanatory diagram showing a hologram embossing molding process, and FIG. 3 is an explanatory diagram showing the structure of a vapor-deposited paper with a hologram added with a printed pattern. (1) Base paper (2) Clay coat layer (
3) Base paper (4) Anchor agent layer for vapor deposition (5) Metal vapor deposition layer (6) Press machine (7)
Stamper (8) Primer layer (9) Printing layer 00) Overcoat layer patent
Applicant Toppan Printing Co., Ltd. Representative Kazuo Suzuki Figure 1 Figure 2 Figure 3

Claims (1)

[Scope of Claims] 1) An anchor resin layer for vapor deposition consisting of an alkali-soluble electron beam curable resin and a metal vapor deposition layer are sequentially provided on a base paper in which a clay coat layer is provided on the base paper, and the anchor resin layer for vapor deposition and the metal vapor deposition layer are sequentially provided. A vapor-deposited paper with a hologram, characterized in that a relief-type hologram is formed on a metal vapor-deposited layer. 2) The vapor deposited paper with a hologram according to item 1, wherein the anchor resin layer for vapor deposition is an electron beam curable resin having an acid value of 80 or more. 3) An anchor resin layer for vapor deposition consisting of an alkali-soluble electron beam curable resin and a metal vapor deposition layer are sequentially provided on a base paper with a clay coat layer provided on the base paper, and a relief mold is formed on the anchor resin layer for vapor deposition and the metal vapor deposition layer. A label with a hologram that forms a hologram. 4) The label with a hologram according to item 3, wherein the anchor resin layer for vapor deposition is an electron beam curable resin having an acid value of 80 or more.