JPH01180389A - Stencil paper for thermal stencil printing and production thereof - Google Patents

Abstract

PURPOSE:To enhance resistance to organic solvents contained in inks and enhance perforation sensitivity, by setting the crosslinking density of an adhesive to be higher at parts in contact with a base than at the other parts. CONSTITUTION:In laminating a heat-shrinkable plastic film with an ink- permeable base through adhesion, main components of an adhesive such as an initiator, a sensitizer and a crosslinking agent are first applied to the ink- permeable base, and then other reactive components are applied, whereby the crosslinking density of the adhesive at parts in direct contact with the base can be set to be higher than the crosslinking density of the adhesive at the other parts. The adhesive may be a crosslinking type adhesive, for example, an epoxy adhesive, a urethane adhesive, or a UV- or electron ray-crosslinkable curable type adhesive. By this, a stencil paper for thermal stencil printing can be obtained which has a favorable perforation sensitivity and has a favorable durability to repeated printing even when it is left to stand for a long time with an ink adhered thereto after it is fitted to a printing press.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a base paper for thermal stencil printing and a method for producing the same.

(Prior art) ゛Thermal stencil printing base paper, which is made by adhesively laminating a plastic film that is easily perforated by heating and a base material such as ink-permeable porous thin paper or gauze, is widely used in the field of light printing. . Printing machines using this type of base paper have also become more sophisticated and faster, and the required performance of the base paper in terms of durability, thermal perforation sensitivity, operability, etc. has become more sophisticated. Regarding the durability of the base paper, when repeatedly printing a large number of sheets, it often caused deviations of one stroke or blurring, but this was caused by the adhesive bonding due to the organic solvent blended in the printing ink. The main cause was the deterioration of power. In order to improve this problem of solvent resistance, Japanese Patent Application Laid-Open No. 116595/1983 describes a base paper using a specific urethane adhesive. According to this method, a base paper with good solvent resistance can be obtained, but if the degree of crosslinking of the adhesive is increased to sufficiently increase the solvent resistance, the sensitivity of perforation of the base paper will be considerably reduced. In reality, it has been extremely difficult to satisfy both good sensitivity and solvent resistance.

(Problems to be Solved by the Invention) The present invention attempts to simultaneously solve the problem of decreased adhesive strength due to organic solvents in ink and the problem of decreased perforation sensitivity when trying to improve solvent resistance. It is something to do.

(Means for Solving the Problems) The present invention has been found to be able to solve the above problems.

That is, the present invention provides a heat-shrinkable plastic film with
When laminating and adhering ink-permeable substrates, a heat-sensitive adhesive in which the crosslinking density of the adhesive in the area in contact with the substrate is higher than the crosslinking density of the adhesive in other areas, that is, the area not in direct contact with the substrate. The ink-permeable heat-shrinkable plastic film is coated with an initiator, sensitizer or cross-linking agent of the adhesive and then contacted with the other reactive components of the adhesive. This is a method for producing base paper for heat-sensitive stencil printing in which substrates are laminated and bonded.

In order to increase the crosslinking density of the adhesive in the portion that contacts the ink-permeable substrate, it is possible to first apply a component that causes crosslinking to the substrate. That is, by first applying the main initiator, sensitizer, crosslinking agent, etc. to the ink-permeable base material, and then applying other reactive components, the adhesive in the portion directly in contact with the ink-permeable base material is created. crosslinking density in other parts,
It can be higher than the density. A crosslinked adhesive is used as the adhesive. Polyurethane-based, urethane-based, ultraviolet or electron beam crosslinking-curable materials, etc. can be used. In the case of two-component curing type epoxy or urethane, one with a higher amount of one of the reactive components is first applied to the substrate, combined with the film, and then the other component is applied to the side of the ink-permeable substrate. It is best to apply it from scratch. In addition, in the case of ultraviolet or electron beam crosslinking type, the crosslinking sensitizer or the sensitizer and crosslinking agent are first applied to the base material, combined with the film, and then other components are applied to the side of the ink permeable base material. You can apply the method from scratch. At this time, particular attention must be paid to the solubility and diffusivity of each component in the solvent.

(The ingredients you apply first have a sweet spot in the ingredients you apply later.)
This is because if it diffuses too quickly, the difference in crosslinking density between the first coated area and the later coated area will be too small. For this reason, the ingredients to be applied first,
It is desirable to select components to be coated later that have different solubility, and it is desirable to change the solvent.

As an example of a suitable combination, consider the case of a two-component epoxy resin that is crosslinked by a reaction between an oxy group and an amino group.The first component is a bisphenol-type juxy pre-4 remer that is relatively sparingly soluble in methanol. This is first coated on an ink-permeable substrate using a solvent such as ethyl acetate and dried once, and then a methanol solution of a monolyamide prepolymer containing methanol-soluble amino groups,
Alternatively, a solution containing a small amount of methanol-soluble Nyxy prepolymer, such as ethylene glycol diglycidyl ether, may be applied thereto. According to such a combination, a particularly large amount of crosslinking reaction occurs near the interface where both coating liquids come into contact, and the crosslinking reaction can be suppressed at a portion away from the interface.

(Function) As explained above, when the present invention is used, the adhesive in the part that is in direct contact with the base material is most crosslinked, so it is less likely to be affected by solvents, and its strength will be lowered by the solvent added to the printing ink. Since the amount is small, a base paper with good printing durability can be obtained. In addition, other parts, especially the adhesive attached to the film in a small amount from the fibers of the base material, have a low crosslinking density and are easily deformed by heating, inhibiting perforation and causing K<. A base paper with good sensitivity can be obtained.

(Example) Example 1 Multi-tubular epoxy pre/+7- A manufactured by Asahi Kasei was applied to Manila hemp tissue paper with an ink permeability of 5 g/m2.
A 9:1 mixture of ER33 and AER331 was dissolved in ethyl acetate and applied at a dry rate of 0.3 g/m2. The films were superimposed, and from the thin paper side, Sanmide ≠ 300 manufactured by Tamayo Chemical Co., Ltd., which is a multifunctional I-lyamide having amino groups that react with Epoxy groups, and Nagase Chemical Co., Ltd., a multi-functional I prepolymer, were added. Manufactured by Denacol E
An isopropyl alcohol solution of a mixture of X811 and X811 in a ratio of 9:1 was applied at a dry weight of 1 gram/7 m2, dried, and left at 40°C for 72 hours to complete the crosslinking reaction to obtain base paper. Ta. The active hydrogen equivalent of Sanmide 300 is 550, and the active hydrogen equivalent of Bunacol EX811 is 135, so the composition applied later has a shortage of niboxy groups, which further increases the degree of crosslinking. For this purpose, an Ifoxy compound must be added. In the case of this example, the Eixy composition applied first to the tissue paper is poorly soluble in isopropyl alcohol, which is the solvent for the composition applied later, so it is not mixed sufficiently, and the Eixy composition applied first It is possible to increase the epoxy concentration of the adhesive near the boundary with the base material, that is, in the area in contact with the base material, so that the crosslinking density of the adhesive in this area is higher than that of the adhesive in other areas. This base paper was printed with a density of 8.0 by the thermal head of a printer manufactured by Casio Computer Co., Ltd., Kaji Ward HW1G00J8. A good image was obtained when printing was carried out under high speed conditions using a printing press RISOGRAPH AP 7200 manufactured by Riso Kagaku Kogyo. Although the thermal head of a commercially available word processor has a relatively low output, it was found that the base paper has good perforation sensitivity and can be used for plate making. The ink was left to adhere to the base paper in this state for 124 hours, and further printing was performed. I was able to successfully print over 500 sheets. The base paper was also shown to tolerate solvents in the ink well.

Example 2 Thin paper K used in Example 1, Irgakinia 184 made by Chino-Geigy Co., Ltd., which is an ultraviolet sensitizer, and Aronix MIIGO, made by Toagosei Co., Ltd., which is an ultraviolet crosslinkable multitubular urethane acrylate, were used in a 10:9 ratio. The mixture was applied as a methanol solution at a concentration of 0.7 g/ml with non-volatile content, dried, the 1-reester film used in Example 1 was superimposed on it, and Aronix MI was added from the thin paper side.
A 3:7 mixture of 100 and Cohonyl 4711 manufactured by Nihon Gosei Co., Ltd., an acrylic vinyl acetate copolymer resin, was applied as a methanol solution at a ratio of 1 gram Δ- of non-volatile matter, dried, and further irradiated with ultraviolet rays from the side of the polyester film. Then, the ultraviolet curable component was crosslinked to obtain a base paper. This base paper contains a high concentration of sensitizer and crosslinking agent in the first coated material, and crosslinking progresses preferentially at the adhesive in contact with the base material.

Using this base paper, plate making and printing were performed in the same manner as in Example 1. As in Example 1, with good printing, more than 5,000 sheets could be printed even after being left for 24 hours.

Comparative Example 1 The base material and film were overlapped without being coated on the base material in advance, and a methanol solution of phosphoric vinyl acetate was used as an adhesive from the base material side.The non-volatile content was good and the perforation sensitivity was excellent. When printing after being left for a while, image shift occurred after 1,500 sheets.

Comparative Example 2 In Example 2, Irgakinia 184 and Aronix MI1 were used without first applying the sensitizer and crosslinking agent to the substrate.
The base paper was made by applying only a 10:90 mixture of 00 and 00 to the side of the thin paper overlaid with the film at a ratio of 1.7 g//n2 of the non-volatile content of a methanol solution, drying it, and then curing it by irradiating it with ultraviolet rays. Plate making was attempted in the same manner as in Example 2, but
The perforations were insufficient and it was not possible to print good characters.

(Effects of the Invention) According to the present invention, the base paper for thermal stencil printing has good perforation sensitivity and can withstand printing on a large number of sheets even if ink is attached to the base paper and left for a long time after being installed in a printing machine. is obtained.

Patent applicant: Asahi Kasei Industries, Ltd.

Claims (2)

[Claims] (1) In heat-sensitive stencil printing base paper in which an ink-permeable base material is laminated and bonded to a heat-shrinkable plastic film, the crosslinking density of the adhesive in the part that contacts the base material is higher than the crosslinking density of the adhesive in other parts. Base paper for thermal stencil printing (2) Adhesive initiator, sensitizer,
Alternatively, a method for producing a base paper for heat-sensitive stencil printing in which an ink-permeable base material is laminated and bonded to a heat-shrinkable plastic film, which is characterized by applying a crosslinking agent and then bringing it into contact with other reactive components of the adhesive.