JPH072430B2 - Recording sheet - Google Patents

Description

TECHNICAL FIELD The present invention relates to a transparent sheet capable of recording with both water-based and oil-based inks.

[Prior Art] In recent years, an overhead projector has been increasingly used in place of a conventional slide projector for presentations at various academic conferences and conferences. Also in the field of printing, transparent printed materials are required for various publications and applications such as packaging.

Printing and printing on these transparent sheets require special consideration in terms of printing speed and drying, as compared with printing performed on general paper, because the sheet itself, which is the base material, has no absorbability. .

Also, such as seats for overhead projectors,
In order to obtain a very small amount of printed matter, a method of editing an original with a personal computer or a word processor and printing it with a printer is widely used, and as the printer, an inkjet method has been attracting attention because it is easy to make full color. There is.

Further, an ink jet recording medium having a porous alumina xerogel having pores with a radius of 40 to 1000Å in an ink receiving layer is also known. (See Japanese Patent Laid-Open No. 60-245588) [Problems to be Solved by the Invention] However, when a conventional ink jet method is used for a transparent sheet, a large amount of ink is handled, and thus the transparency is poor. Printing on a sheet was possible only when the quality was very low, and full-color printing was almost impossible.

Further, in the ink jet recording medium disclosed in JP-A-60-245588, since the alumina xerogel is used as the ink receptor, the particle size becomes relatively large, and therefore the interparticle gap becomes large. As a result, light is scattered, the transparency is impaired, and the image becomes whitish. This tendency becomes more remarkable as the base material is a transparent material.

[Means for Solving Problems] The present inventor eliminates various drawbacks of the conventional methods, does not lose transparency even when inkjet printing is performed on a transparent substrate, and is capable of full color development. As a result of various studies for the purpose of obtaining a sheet for use, it was found that the above object can be achieved by aligning a specific alumina with a specific pore volume and using it as an ink receiving layer on a transparent sheet. .

Thus, the present invention provides a recording sheet in which a porous ink-receiving layer is provided on a transparent substrate, the ink-receiving layer mainly consisting of pseudo-boehmite and having a radius of 10 mm.
Another object of the present invention is to provide a recording sheet characterized in that the total volume of pores having 0 to 1000Å is 0.1 cc / g or less.

The substrate used in the present invention is not particularly limited as long as it is transparent, and for example, an organic film or sheet of polyethylene terephthalate, polyester, diacetate or the like, various glasses and the like can be used.

The thickness of the base material is selected according to the purpose and is not particularly limited. These substrates may be subjected to surface treatment such as corona discharge treatment or may be provided with a precoat layer in order to improve the adhesiveness to the ink receiving layer described later when used.

Pseudo-boehmite is used as the ink receptor in the present invention. Such pseudo-boehmite has a radius of 100-100
The total volume of pores having 0Å must be 0.1 cc / g or less. When the radius and the total volume thereof exceed the above range, light scattering occurs, and the printed image becomes whitish, which makes it difficult to form a full color image.

Desirably, in addition to these physical properties, the radius of the ink receiver is 40
It is preferable that the total volume of the pores having a volume of -100 liters is 0.1 to 0.4 cc / g, and more desirably, the total volume of the pores having a radius of 10 to less than 40 liters is 0.2 to 1.0 cc / g. By doing so, it is possible to obtain a clear image with sufficient color development in any color.

And, in the present invention, only when using pseudo-boehmite as the receptor of the ink having these physical properties, a sufficient coloring effect can be obtained even with a pore volume that sufficiently adsorbs the dye in the ink and does not impair the transparency. , It is difficult with other alumina materials.

More specifically, the trade name "Cataloid AS-", which is commercially available from Catalyst Kasei Kogyo Co., Ltd., as shown in Examples described later.
Al ₂ O ₃ as represented by pseudo-boehmite sol
Alumina sol containing 7% by weight in terms of solid content was diluted 100 times with pure water, and when this was dropped on a hydrophilized collodion film and dried, hair bundle-shaped alumina oriented in a fixed direction Pseudo-boehmite obtained from an alumina sol which forms a hydrate aggregate is the most suitable.

The layer thickness of such pseudo-boehmite is appropriately selected depending on printing and the amount of ink used for printing, but it is generally suitable to employ about 1 to 20 μm. If the layer thickness deviates from the above range, the color developability may become unstable or the transparency may be impaired, such being undesirable. As means for providing the pseudo-boehmite layer on the transparent substrate, a mixed slurry of the pseudo-boehmite and the binder is applied onto the substrate by various coaters such as a roll coater, an air knife coater, a blade coater, a rod coater and a bar coater, and dried. Means are mainly used. As the pseudo-boehmite, it is desirable to use the sol because a preferable ink receiving layer can be easily obtained.

As a binder, starch, its modified products, PV
Organic substances such as A and its modified products, SBR latex, NBR latex, hydroxycellulose, and polyvinylpyrrolidone can be used.

If the amount used is too small, the strength of the receptive layer will be insufficient, and on the contrary, if the amount is too large, the ink absorbency will be impaired. Is appropriate. The pore size distribution in the present invention was measured by a nitrogen adsorption / desorption method (Omnisorb 100 manufactured by Omicron Technology).

Examples will be shown below, but the recording sheet according to the present invention cannot be used only for the ink jet system.

[Examples] The recording sheets obtained in Examples and Comparative Examples were evaluated by the following methods.

Printing: Sharp Color Image Jet Printer
A 1 cm x 1 cm pattern was printed in black using IO-735.

Color density: Back the sheet printed with with a blank sheet,
The black reflection color density was measured with a Sakura Densitometer PDA45.

Resolution: The degree of bleeding of the pattern of the sheet printed with was evaluated in four levels.

(0: Worst, 3: Best) Transparency: The non-printed part was backed with black paper and the color density was measured. The color density of the black paper itself is 100, and%
What was represented by was made into the evaluation value.

Haze: According to JIS K-7105.

Example 5 parts by weight (solid content) of pseudo-boehmite sol (Cataloid AS-3 manufactured by Catalyst Kasei), polyvinyl alcohol (PV manufactured by Kuraray Co., Ltd.)
A117) Solid content consisting of 1 part by weight (solid content) and water about 10
A coating liquid of weight% was prepared and applied to polyethylene terephthalate fill (manufactured by Toray Industries, Inc., thickness 100 μm) by a bar coater so that the film thickness when dried was 5 μm, and dried to obtain a recording sheet.

Comparative Example 1 A sheet was obtained in the same manner as in Example 1 except that an amorphous alumina sol (Alumina sol 100 manufactured by Nissan Chemical Industries, Ltd.) was used in place of the pseudo-boehmite sol of Example 1.

Comparative Example 2 Example 1 except that silica sol (Cataloid SI-40 manufactured by Catalyst Kasei) was used in place of the pseudo-boehmite sol of Example 1.
A sheet was obtained in the same manner as in.

Table 1 shows the physical properties and evaluation results of the ink receiving layer of these sheets.

Claims (3)

[Claims] 1. A recording sheet in which a porous ink-receiving layer is provided on a transparent substrate, the ink-receiving layer mainly consisting of pseudo-boehmite, and the radius of the ink-receiving layer is 100 to 100.
A recording sheet characterized in that the total volume of pores having 0Å is 0.1 cc / g or less. 2. The ink receiving layer has pores having a radius of 10 to 40 Å, the total volume of pores is 0.2 to 1.0 cc / g, and the volume of pores having a radius of 40 to 100 Å is 0.1 to 0.4 cc / g. The recording sheet according to claim 1. 3. Pseudo-boehmite is prepared by diluting an alumina sol containing 7% by weight in terms of Al ₂ O ₃ solid content with pure water 100 times, and dropping this on a hydrophilized collodion film to dry it. The recording sheet according to claim 1 or 2, which is a pseudo-boehmite obtained from an alumina sol that forms an aggregate of alumina hydrates of hair-like bundles oriented in a certain direction.