JPH0238094A - Transfer sheet - Google Patents

Abstract

PURPOSE:To obtain a transferred image having excellent preservation stability, capable of being hardened at a comparatively low temperature after transfer and having satisfactory gloss, solvent resistance, heat resistance, chemical resistance or the like by using a one-pack curable type resin for at least one of a release layer, a protective layer, a coloring layer and an adhesive layer of a transfer sheet. CONSTITUTION:A release layer, a protective layer, a coloring layer and an adhesive layer are sequentially provided on a support film, and at least one of the layers, particularly the adhesive layer, comprises a one-pack curable type resin. The one-pack curable type resin is a mixture of a linear polymer having a carboxyl group in the molecule thereof, an aluminum alcoholate complex compound and a keto-enol tautomeric compound, or an admixture of a phenoxy resin with a block-type isocyanate, melamine, urea or phenol. With this construction, it is possible to give a transferred image capable of being printed at high speed, having excellent preservation stability, capable of being hardened at a comparatively low temperature after transfer and having excellent gloss, solvent resistance and heat resistance.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a transfer sheet, and more particularly to a transfer sheet that has excellent gloss, solvent resistance, heat resistance, chemical resistance, etc.

(Prior art and its problems) Conventionally, transfer sheets have been made by laminating a release layer, a protective layer, a colored layer (picture layer), and an adhesive layer on the surface of a support such as a polyester sheet in the stated order. Are known.

It is known that a thermoplastic resin is used as a binder for each layer of the above-mentioned transfer sheet, but although this type has low manufacturing cost and is versatile, the resulting transferred image lacks solvent resistance such as thinner resistance. Furthermore, for example, when used on the bag side of a packaging material for retort food, there are problems with heat resistance, such as the pattern softening and collapsing when heated.

As a method to solve the above problem, it is also known to use a thermosetting resin as a binder for each layer, but this method not only causes blocking problems when printing at high speed during manufacturing, but also causes heat curing after transfer. Since high temperatures are required for this process, there is a problem in that the material of the transfer material is limited.

Furthermore, methods have been proposed in which the adhesive layer is made of a two-component room-temperature curing type adhesive, such as a two-component curing type urethane adhesive, but the adhesive layer formed in this way has insufficient storage stability and cannot be used for a long period of time. There is a problem in that adhesive properties are lost after storage.

Therefore, the object of the present invention is to have excellent storage stability, require only relatively low temperature curing after transfer, and have sufficient gloss, solvent resistance, and
An object of the present invention is to provide a transfer sheet that provides a transferred image having heat resistance, chemical resistance, and the like.

(Means for solving problems) The above objects are achieved by the present invention as described below.

That is, the present invention provides a transfer sheet formed by sequentially laminating a release layer, a protective layer, a colored layer, and an adhesive layer on a support film, characterized in that at least one of the layers is made of a one-component curing resin. It is a sheet.

(Function) By forming at least one of the release layer, protective layer, colored layer, and adhesive layer of the transfer sheet, especially the adhesive layer, using a one-component curing resin, high-speed printing is possible and storage stability is improved. Provided is a transfer sheet that can be cured at a relatively low temperature after transfer and provides a transferred image with excellent gloss, solvent resistance, heat resistance, chemical resistance, etc.

(Preferred Embodiments) Next, the present invention will be described in more detail by citing preferred embodiments.

The support used in the present invention may be any conventionally known support used in transfer sheets, for example, 5 to 50
Polyethylene terephthalate films with a thickness of .mu.m are preferably used.

The peeling layer provided on the surface of the support improves peelability during transfer between the support and the colored layer, and is formed on the entire surface or in the form of an image on the support film as described above. As the material for forming the release layer, for example, a release resin such as a one-component curing resin, an acrylic ester resin, a silicone resin, or a fluororesin is used. It is formed by coating and drying at a rate of 0.1 g/rn' to 10 g/rn' as a solid content.

After the transfer, a protective layer is formed on the release layer by covering it with a colored layer to serve as a protective film. These protective layers are wear resistant,
It is formed from a thermosetting resin or one-component curing resin that has excellent stain resistance, heat resistance, chemical resistance, etc., and preferably has a thickness of 0.5 to 10 μm.

The colored layer formed on the release layer consists of desired characters, figures, patterns, etc., and the desired pattern is printed by gravure printing method or screen method using gravure ink consisting of color pigment, extender pigment, binder, and solvent. form. The thickness of this colored layer is usually about 0.5 to 20 μm. The binder used above can be formed from conventionally known thermoplastic resins, thermosetting resins, -acid curable resins, two-component curable resins, etc., but one-component curable resins are preferred.

An adhesive layer is formed on the colored layer to adhere the colored layer to the material to be transferred during transfer. This adhesive layer is preferably formed using a one-component curing resin to have a J warp of approximately 0.5 to 20 μm. The transfer sheet as described above may be similar to conventionally known transfer sheets and is not particularly limited, except that at least one of the layers as described above is formed using a one-component curing resin as a binder.

The one-component curable resin used in the present invention and which mainly characterizes the present invention is different from the two-component curable resin in which a curing agent (crosslinking agent) is added immediately before use. This type contains a curing agent in advance as well as a reactive group, and can form a sufficient coating by naturally drying at room temperature after coating.

Such one-component curing resins are well known in the paint field, and any known one-component resin can be used in the present invention, but particularly preferred in the present invention are those containing carboxyl groups in the molecule as a film forming agent. It is obtained by mixing a linear polymer having the above-mentioned properties and an aluminum alcoholate complex compound as a curing agent together with a keto-enol type tautomer compound in a non-aqueous medium. Such a one-component curable resin is stable in a nonaqueous medium, that is, an organic solvent, but after coating, a curing reaction can occur due to evaporation of the solvent to form a coating film.

Another preferred one-component curing type resin is a phenoxy resin mixed with a curing agent such as block isocyanate, melamine, urea, or phenol.

The one-component curing resin as described above is known per se in the paint field.

The one-component curable resin as described above can be used as a binder for at least one of the release layer, protective layer, colored layer, and adhesive layer, but it is particularly preferable that the adhesive layer is formed of the one-component curable resin. , all or part of the other layers may be made of a one-component curing resin. In particular, when a one-component curable resin is used as the binder for the colored layer, the colored layer itself has sufficient adhesive properties and can therefore serve both as the colored layer and the adhesive layer.

The transfer sheet of the present invention obtained as described above can be used with any conventional transfer method such as the hot stamping method, and the transfer material may be a synthetic resin molded product, a plastic sheet, an aluminum vapor-deposited film, It is not particularly limited and may be any article such as a glass plate or a metal product.

In particular, the transfer sheet of the present invention has an excellent adhesion force of its adhesive layer, so that it can be sufficiently applied to transfer to untreated aluminum articles that are not coated with an anchor coat (white coat) or the like.

You can leave it as is after transfer, but if it is used for applications that require particularly high solvent resistance or heat resistance, such as packaging for retort food or painting metal products, it may be used as is after transfer.
Heat treatment at a temperature of about 50° C. for several seconds to several minutes forms a strong film, making it possible to create a pattern with excellent solvent resistance and heat resistance.

(Effects) According to the present invention as described above, at least one of the release layer, protective layer, colored layer, and adhesive layer of the transfer sheet, especially the adhesive layer, is formed using a one-component curing resin. Therefore, it is a transfer sheet that can be printed at high speed, has storage stability (a), can be cured at a relatively low temperature, and provides a transferred image with excellent gloss, solvent resistance, heat resistance, etc. provided.

(Example) Next, the present invention will be explained in more detail by giving examples and comparative examples. In the text, parts or percentages are based on weight unless otherwise specified.

Example I J17. A polymethyl methacrylate resin solution was applied to the surface of a 20 μm polyethylene terephthalate film using a gravure method at a solid content of 1 g/rr+″ and dried to form a release layer.

Next, apply thermosetting acrylic resin paint to the surface with a solid content of 5g.
A floral pattern was printed using a gravure printing method at a ratio of /rn' and dried to form a protective layer.

Next, a floral pattern was printed on the surface of the protective layer using a gravure ink containing a liquid-curable acrylic resin as a binder using the same plate used for printing the protective layer.

Further, a one-component curable acrylic resin paint was printed on the surface using the same gravure plate at a rate of 3 g/ba to form an adhesive layer, and the adhesive layer was dried at room temperature to obtain a transfer sheet of the present invention.

The above transfer sheet was placed on the surface of a polyester-coated steel plate and transferred using a hot stamper at 220°C, followed by after-curing at 230°C for 2 minutes.

Examples 2 to 4 and Comparative Examples 1 to 3 The following layers were formed in the same manner as in Example 1 to obtain transfer sheets of the present invention and comparative examples, and transfer and after-curing were performed.

Support: 20 μm polyethylene terephthalate film Peeling layer knee liquid curing acrylic resin paint Thickness 2 g/m'' (solid content) Protective layer: Same as above Thickness 5 g/rn'' (solid content) Coloring layer knee liquid curing acrylic resin Gravure ink thickness: 5 g/m'' (solid content) using as binder Adhesive layer knee liquid curing acrylic resin paint thickness: 3 g/- (solid content) Transferred material: Steel plate coated with polyester Transfer conditions: 22
0°C After-cure conditions = 230°C 2 minutes sharp lull Support = 20 μm polyethylene terephthalate film Peeling layer knee liquid curing acrylic resin paint Thickness Ig/ba (solid content) Protective layer: Same as above Thickness 5 g/rn' (solid content ) Colored layer: Same thickness as Example 2 5 g/- (solid content) Adhesive layer knee liquid curing phenoxy resin paint thickness 3 g/ba (
Solid content) Transferred material: Steel plate coated with polyester Transfer conditions = 22
0°C After-cure conditions: 230°C for 2 minutes m'' (solid content) Colored layer: Same thickness as Example 2 5 g / m'' (solid content) Adhesive layer knee liquid curing phenoxy resin paint thickness 3 g /
m″ (solid content) Material to be transferred: Steel plate coated with polyester Transfer conditions = 22
0℃ After-cure conditions: 230℃ for 2 minutes Support: 20 μm polyethylene terephthalate film Peeling layer: MMA acrylic resin paint thickness 1 g/m' (solid content) Protective layer: Thermosetting acrylic resin paint thickness 5 g/m m'' (solid content) Colored layer: Gravure ink with urethane resin as binder thickness 5 g/m'' (solid content) Adhesive layer bilinear saturated polyester resin paint thickness 3 g/- (
Solid content) Transferred material: Steel plate coated with polyester Transfer conditions: 22
0℃ After cure condition = 230℃ for 2 minutes Support: 20 μm polyethylene terephthalate film Peeling layer: MMA acrylic resin paint thickness Ig/ba (solid content) Protective layer: Thermosetting acrylic resin paint thickness 5 g/m '' (solid content) Colored layer: Gravure ink with vinyl chloride resin/urethane resin as binder thickness 5 g/rn'' (solid content) Adhesive layer two-line saturated polyester resin paint thickness 3 g/rn
”(Solid content) Transferred material: Steel plate coated with polyester Transfer conditions: 22
0°C After-cure conditions: 230°C for 2 minutes 1 Support: 20 μm polyethylene terephthalate film Peeling layer: MMA acrylic resin paint thickness 1 g/m” (solid content) Protective layer: Thermosetting acrylic resin paint thickness 5 g/m '' (solid content) Colored layer: Gravure ink with two-component urethane resin as binder thickness: 5 g/ba (solid content) Adhesive layer: Linear saturated polyester resin paint thickness: 3 g/ba (
Solid content) Transferred material: Steel plate coated with polyester Transfer conditions: 22
0°C After-cure conditions: 230°C for 2 minutes Test Example The gloss, solvent resistance and retort resistance of the transferred images obtained in the above Examples and Comparative Examples after after-curing were tested, and the following results were obtained.

Lele Lele Examples to o o.

Example 2 0 0 0 Example 3 0 0 0 Actual h'tx example 4 0 0 0 Comparative example 1
x × ×Comparative example 2 × ×
×Comparative Example 3××x Indissolution and O1 dissolution were indicated as ×.

To measure retort resistance, the after-cured transfer sheet was subjected to a retort test at 125° C. for 30 minutes, and those with no reduction in gloss or adhesion were given O1, and those with reduction in gloss or adhesion were given X.

Patent applicant Dainichi Chemical Industries, Ltd. Gloss measurement is based on gloss immediately after transfer and after cure (230
The gloss of the transferred product after 2 minutes (°C x 2 minutes) was visually compared, and those with a small change in gloss were rated ○, and those with a large change in gloss were rated X.

Claims (4)

[Claims] (1) A transfer sheet formed by sequentially laminating a release layer, a protective layer, a colored layer, and an adhesive layer on a support film, characterized in that at least one of the layers is made of a one-component curing resin. (2) The transfer sheet according to claim 1, wherein the adhesive layer is formed from a one-component curing resin. (3) The transfer sheet according to claim 1, wherein the one-component curable resin is a mixture of a linear polymer having a carboxyl group in the molecule, an aluminum alcoholate complex compound, and a keto-enol type tautomer compound. (4) The transfer sheet according to claim 1, wherein the one-component curable resin is a mixture of a phenoxy resin and a block isocyanate, melamine, urea, or phenol.