JPH0459291A - Receiving sheet for sublimable type printer - Google Patents

Abstract

PURPOSE:To prevent an irregularity in density by forming a receiving layer of specific compound containing polyolefin and hydrogenated petroleum resin and/or hydrogenated terpene. CONSTITUTION:A receiving layer contains 75-98wt.% of polyolefin, and 2-25wt.% of hydrogenated petroleum resin and/or hydrogenated terpene resin. As the polyolefin of component of an image receiving layer, low density polyethylene having excellent workability, low density propylene are desirable. Melt index desirably has about 2-50, and the density desirably has about 0.915-0.930. As the hydrogenated petroleum resin or terpene resin to be used together with the polyolefin, various hydrogenides obtained by hydrogenating aromatic hydrocarbon resin, dicyclopentadiene resin, terpene resin are desirable. In the case of laminating, the thickness of the layer is normally desirably about 2-50mum.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a receiving sheet for a sublimation printer, and more particularly to a receiving sheet for a laminate type sublimation printer.

(Prior Art) Research into color printers has progressed rapidly in recent years. Among these, so-called dye-sublimation printers are increasingly being used in video printers and the like because they can easily form density gradation images and produce high-quality hard copies.

Dye-sublimation printers use three or four-color (yellow, magenta, and cyan, or four colors plus black) ink sheets with dye layers to control the amount of heat from the thermal head. As a result, an image is formed by transferring dye depending on the amount of heat onto the receiving sheet in contact with the ink sheet.

Currently, some receiving sheets (hereinafter referred to as receiving paper) for dye-sublimation printers are equipped with an image-receiving layer containing as a main component a polymer such as a saturated copolymer polyester that has a high affinity with sublimable dyes. It is being However, such an image-receiving layer is usually provided on a sheet-like substrate (hereinafter referred to as base paper) by a coating operation, and therefore, if the base paper is not smooth, the unevenness of the base paper may remain as it is. There are disadvantages such as a decrease in the smoothness of the receiving paper due to unevenness during application. For this reason, methods such as using extremely smooth base paper such as synthetic paper or polyester film or reducing the coating speed have been adopted, but in either case, density unevenness due to lack of smoothness C White spots and insufficient density occur due to the presence of poor contact with the thermal head.

C) Problems to be Solved by the Invention The present invention aims to solve the above-mentioned drawbacks of the prior art and easily provide a receiving sheet for sublimation printers that is free from density unevenness (white spots). .

(Means for Solving the Problems) In order to solve the above-mentioned problems, the present inventors conducted intensive studies on the constituent components of the image-receiving layer. As a result, the inventors discovered that all of the above problems could be solved by employing a polyolefin composition obtained by using a polyolefin and a specific resin in combination, and the present invention was completed.

That is, the present invention provides a receiving sheet for sublimation printers comprising a sheet-like substrate and an image-receiving layer formed on at least one surface of the sheet-like substrate, in which the receiving layer has a polyolefin content of 75 to 98 times! % and 2 to 25% by weight of a hydrogenated petroleum resin and/or a hydrogenated terpene resin.

In the present invention, various polyolefins, such as polyethylene and polypropylene, can be exemplified as the polyolefin that is a component of the image-receiving layer. The degree of heat of these polyolefins is not particularly limited, and various known polyolefins of low density, medium density, and high density can be used, but low density polyethylene and low density polypropylene, which have good processability, are particularly preferred. A melt index of about 2 to 50 and a density of about 0.915 to 0.930 can be suitably used.

Examples of the hydrogenated petroleum resin or hydrogenated terpene resin used in combination with the polyolefin include the following.

That is, they are various hydrides obtained by hydrogenating aromatic hydrocarbon resins, dicyclopentadiene resins, and terpene resins. As the hydrogenated aromatic hydrocarbon resin, various aromatic unsaturated hydrocarbons such as styrene, a-methylstyrene, vinyltoluene, vinylxylene, propenylbenzene, indene, methylindene, and ethylindene may be used alone or in combination. Mainly mixture,
Examples include those obtained by further hydrogenating resins obtained by polymerizing these (C, petroleum resins). The hydride of dicyclopentadiene resin is obtained by hydrogenating a cationic polymer of dicyclopentadiene (C, petroleum resin), and the hydride of terpene resin is one obtained by hydrogenating a cationic polymer of dicyclopentadiene (C, petroleum resin). Examples include hydrogenated polymers or copolymers of terpenes and styrenes.

Both of these hydrogenated petroleum resins and hydrogenated terpene resins (hereinafter referred to as modified resins) are non-toxic, have excellent heat resistance, weather resistance, antioxidant properties, etc., and also have good compatibility with polyolefins. It is an extremely good material as a modifier for constructing an image-receiving layer having uniform image-forming ability.

The polyolefin composition constituting the image-receiving layer is obtained by blending the two components, the polyolefin and the modified resin, in specific amounts. The proportion of the polyolefin in the composition is appropriately determined from the viewpoint that the image-receiving layer has good adhesion to the ink sheet, and the image-receiving layer is easily peeled from the ink sheet, and is usually used in the composition. The proportion of the modified resin in the receptor layer is 75 to 98% by weight, preferably 85 to 95% by weight, and the proportion of the modified resin used is 2 to 25% by weight, preferably 5 to 15% by weight. The usage ratio of modified resin is 2
If it is less than 11, the adhesion to the base paper or ink sheet will be insufficient, while if it exceeds 25% by weight, the resulting image-receiving layer tends to block with the ink sheet, so neither is suitable.

The method for blending the polyolefin composition is not particularly limited, and various known methods can be appropriately selected and employed. That is, the two components may be kneaded in the predetermined ratio using a known mixing device such as a Banbury mixer, a screw mixer, a roll, or a blender, and various conditions such as temperature conditions at the time of mixing can be selected as appropriate. .

Additionally, additives such as antioxidants, antistatic agents, and processing stabilizers may be added as necessary.

The polyolefin composition obtained as described above, which becomes the image-receiving layer, can be laminated onto at least one side of a base paper to form the receiving sheet for a sublimation printer of the present invention.

In the lamination process, the thickness of the image-receiving layer is usually about 2 to 50 .mu.I. If the thickness is less than 2 parts, the density and smoothness of the image will decrease. Also 5
If it is about 0 μ■, it will hardly be affected by the base paper, but
If it exceeds this, the density and sensitivity of the image will be saturated, which will be rather uneconomical.

As the base paper, various types of base paper known for the purpose can be used without particular limitation. Specific examples of the base paper include paper base materials such as high-quality paper and Koto paper, biaxially stretched films mainly composed of polyolefin and inorganic pigments, various plastic films such as PET films,
Alternatively, a laminated sheet formed by combining these can be mentioned. The thickness of the base paper is usually 20 to 250 μ■
The basis weight is approximately 20 to 250 g/m2.

There are no particular limitations on the laminating method, and various known methods can be used as they are. For example, a method in which a so-called anchor coating agent is coated on the surface of the base paper in advance and then the image-receiving layer is laminated, or a relatively low +1iW (
A method of extruding the image-receiving layer at a temperature of about 200° C.) is appropriately employed. Therefore, the receiving sheet for sublimation printers formed with the image-receiving layer is not only suitable for lamination processing from a manufacturing standpoint, but also has good dyeability with sublimation dyes, so it can be used at high concentrations. It can exhibit various characteristics in terms of performance, such as being able to obtain images and not causing image density unevenness.

Note that the polyolefin composition that is the image-receiving layer obtained as described above does not necessarily need to be laminated to the base paper (it may be processed into a sheet form, as the case may be), so that it can be used as it is for a sublimation printer. It can be used as a receptor sheet.Also, by laminating the polyolefin composition on the surface of a release paper and then peeling the polyolefin composition film layer from the release paper, a receptor for sublimation printers consisting only of the polyolefin composition film layer can be prepared. Sheets can also be easily obtained.

(Examples) Hereinafter, the present invention will be specifically described with reference to Examples, but the present invention is not limited to these Examples. In each example, all parts are by weight unless otherwise specified.

Example 1 95 parts of low-rich polyethylene (trade name rPE205 J, manufactured by Tosoh ■) and hydrogenated petroleum resin (trade name [Alcon P
A homogeneous polyethylene composition (image-receiving layer) consisting of 5 parts of A-100J (manufactured by Arayo Kagaku Kogyo ■) was melt-extruded through an extruder with the temperature of the cylinder tip set at 200°C, and the image-receiving layer was Extrusion coating was carried out in contact with paper (coated paper with a thickness of 150 μm) to obtain a receiving sheet for a sublimation printer in which the image receiving layer had a thickness of 25 μm.

The performance test of the receiving sheet was conducted by the following method.

A dye thermal transfer printer (product name: VY-20, manufactured by Hitachi, Ltd.) uses a color par signal generator (product name: C13A2, manufactured by Shibazoku Co., Ltd.) to create a step pattern.
(printed in black with overlays of yellow, magenta and cyan). Table 1 shows the sensitivity evaluation results for the 16th gradation density and black tone of the step pattern.

Print density is measured using Macbeth densitometer (product name: RD-91)
4, manufactured by Kollmorgen Corp.).

Examples 2 to 9 Receiving sheets were obtained in the same manner as in Example 1 except that the blending ratio of the image-receiving layer composition was changed as shown in Table 1. The test results are shown in Table 1.

[Margin 1 (Effects of the Invention) According to the present invention, a dye-sublimation printer that exhibits excellent dyeability with sublimation dyes and does not cause image density unevenness (white spots). A great effect can be achieved in that the sheet can be easily obtained by employing a relatively simple laminating method.

Arakawa Chemical Industry Co., Ltd.

Claims (1)

[Claims] 1. A sheet-like substrate; and at least one of the sheet-like substrates.
In a receptor sheet for a sublimation printer comprising an image-receiving layer formed on a surface, the receptor layer comprises polyolefin 75-75.
1. A receptor sheet for a sublimation printer, characterized in that it is a composition comprising 98% by weight and 2 to 25% by weight of a hydrogenated petroleum resin and/or a hydrogenated terpene resin. 2. The receptor sheet according to claim 1, wherein the receptor sheet for a sublimation printer is formed by lamination. 3. The receptor sheet according to claim 1 or 2, wherein the polyolefin is polyethylene or polypropylene.