JP2001288695A - Method for producing moisture-proof paper - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for producing a moisture-proof paper, having a high moisture-proof property, excellent in surface feeling and capable of being re-used. SOLUTION: This method for producing the moisture-proof paper is provided by applying a coating material containing a polymer material having a film- forming property to form an under coat on at least one side surface of a stock paper, applying another coating material containing a polymer having a moisture-proof layer-forming capability and a wax, while the above coated material is still in an undried state and then drying.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a moisture-proof paper having an excellent moisture-proof property and a recovered paper recovery property, and particularly suitable for a paper packaging material.

[0002]

2. Description of the Related Art Moisture-proof packaging materials are used to protect contents from moisture. Foods, medicines and the like are required to have high moisture-proof properties. In general, crystalline synthetic polymer films and products in which a crystalline polymer layer or a metal foil is further laminated on the film are known. Some industrial products such as paper are affected by moisture, and moisture-proof packaging materials based on polymer films have been frequently used. Many of these moisture-proof papers make it difficult to treat them after use, and because of the simplicity of treatment after use and the reusability of resources, they are moisture-proof packaging materials based on paper without metal foil. Moisture proof paper without metal foil is desired from the market.

[0003] Moisture proof paper having a moisture proof layer formed on paper is disclosed in JP-B-55-22597, JP-A-59-66598, and
No. 1674, Japanese Patent Publication No. 3-10759, Japanese Unexamined Patent Publication No. 6-200498, etc. disclose a method in which a moisture-proof layer on a paper substrate is formed by applying a mixture of a moisture-proof wax and a synthetic polymer and drying. ing.

[0004]

However, the moisture-proof paper obtained by these techniques is not sufficient in moisture-proof properties, and is not suitable for JIS.
The moisture permeability measured at a temperature of 40 ° C. and a relative humidity of 90% according to Z0208 is 18 g / m ² · 24 hr or more. Therefore, as a means for further improving the moisture permeability, an aqueous dispersion of a wax and a polymer is applied onto a first coating layer formed by applying and drying an aqueous dispersion of a synthetic polymer on a paper substrate. A moisture-proof paper in which a mixture is applied and dried to form a second coating layer is known (Japanese Patent No. 298).
No. 5363).

[0005] However, the present inventors have found that even with this technique, it is often possible to obtain only low-moisture-proof ones in actual production. When the cause was examined, blisters were generated on the obtained moisture-proof paper. Since this problem does not occur when slowly drying by hand with a dryer, the second coating layer is applied when the second coating layer paint is applied on the dried coating of the first coating layer and dried. It has been found that the water content of the coating does not have to pass just through the first coating layer, but needs to escape through the second coating layer.

Accordingly, an object of the present invention is to provide a method for producing moisture-proof paper having excellent moisture-proof properties and suitable for high-speed production as in an actual machine.

[0007]

The object of the present invention is to apply a coating material containing a polymer substance having a film-forming property to form an under layer on at least one side of a base paper, and to prepare the coating material in an undried state. This was achieved by a method of producing a moisture-proof paper consisting of an under layer and a moisture-proof layer by applying a coating containing a polymer having a film-forming property and a wax for forming a moisture-proof layer and drying.

According to this method, the paint for the under layer and the paint for the moisture-proof layer are mixed at the boundary surface, and during the drying process, the moisture of the paint for the under layer is removed from the paper as the base material and the moisture-proof paint for the upper layer. The moisture of the paint of the moisture-proof layer is dried through the paint of the under layer and directly to the atmosphere.
Therefore, it is assumed that there is no stagnation of moisture or air at the interface between the under layer and the moisture-proof layer, and no blister is generated. Also, since the drying of the under layer and the drying of the moisture-proof layer are performed almost simultaneously, the difference in drying shrinkage due to the difference in the material and application amount of both layers is reduced, and "cracks" and "streaks" occur due to the difference in shrinkage Absent.

The moisture-proof paper thus produced has, besides the upper moisture-proof layer and the lower under-layer, a composite layer in which the paint for the under-layer and the moisture-proof layer are mixed together near the boundary surface. It shows extremely excellent moisture-proof properties even though no special moisture-proof layer such as aluminum foil is provided.

In the present invention, the state in which the under layer is not dried means a state in which a film has not yet been formed and can be mixed with a paint for a moisture-proof layer to be applied subsequently. When the under layer is formed, it takes time for the moisture to pass through, so that the moisture of the moisture-proof layer paint evaporates exclusively from the paint surface to the atmosphere, but on the other hand, the drying is performed from the surface. The water content decreases and the density increases, making it difficult for water to evaporate. As the drying proceeds, the moisture inside the moisture barrier coating hardly evaporates up and down, and eventually evaporates inside to form blisters.

When the upper moisture-proof layer is dried after the under-layer is dried, the moisture-proof layer is shrunk upon drying,
“Cracks” are drawn by the under layer, and “streaks” are formed by wrinkles, impairing moisture resistance.

Means for applying the moisture-proof layer paint while the under-layer paint is not dried include a curtain coating method, a die coating method, and a blade coating method. The curtain coating method and the die coating method are preferable methods in that the interface of the lower layer is least disturbed.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION An underlayer paint is an aqueous solution or dispersion containing a polymer substance having a film-forming property as a main component in function. Such a polymer substance is a water-soluble polymer or a thermoplastic resin emulsion. The water-soluble polymer is not particularly limited as long as it is water-soluble at around normal temperature and has a film-forming property. Examples include polyvinyl alcohol and its modified products, polyvinylpyrrolidone, polyacrylic acid, polyacrylate, polyacrylamide and its modified products, polyethylene maleic acid, isobutylene maleic acid, carboxymethyl cellulose, carboxyethyl cellulose, hydroxypropyl cellulose, hydroxypropyl Examples thereof include methylcellulose, hydroxyethylcellulose, starch and denatured products thereof, and those other than those exemplified above as long as they have a film-forming property after drying.

The thermoplastic resin emulsion generally needs to have a film-forming property after drying by heating, and may be a styrene-butadiene copolymer, a styrene-acrylic acid copolymer, an acrylate-based polymer, or a vinyl acetate polymer. , Vinyl acetate acrylate copolymer and the like can be exemplified as preferred thermoplastic resins.

Among these, although the reason is not clear, a water-soluble polymer is more suitable for the purpose of the present invention than a thermoplastic resin emulsion, and among them, polyvinyl alcohol is preferable. A wide variety of polyvinyl alcohols are not only commercially available at a relatively low price, but are also preferable from the viewpoints of high gas barrier properties of the dried film, moisture proofing, and blocking of oxygen and harmful gases in the air. When polyvinyl alcohol is dried as an under layer to form a film, and a moisture-proof coating is applied and dried thereon, blistering is remarkable due to extremely high ventilation resistance of polyvinyl alcohol.

The moisture-proof component of the moisture-proof layer is a wax and a polymer having film-forming properties, and any of them may be those known in the art. Wax is derived from natural animals and plants or petroleum, beeswax, carnauba wax, palm wax, montan wax, paraffin wax,
It is a synthetic wax such as microcrystalline wax, polyethylene wax and higher fatty acid amide, and is easier to use when used as an emulsion.

As the film-forming polymer used together with the wax, the thermoplastic resin used for the under layer can be used as it is.

When a thermoplastic resin emulsion is used for the under layer, the use of the same material as the synthetic resin emulsion of the moisture-proof layer can minimize the adverse effect on the shrinkage of the film due to drying.

The coating amount of the under layer is preferably in the range of ^{2 to} 8 g / m ² as a solid content of the water-soluble resin or the thermoplastic resin. Within this range, it is possible to obtain a homogeneous and defect-free moisture-proof layer with sufficient moisture-proof properties.

The ratio of the wax in the moisture-proof layer to the film-forming thermoplastic resin is from 1 to 100 waxes per 100 weight solids.
20 is appropriate. Less wax means less moisture resistance,
If the amount is too large, the moisture-proof property of the moisture-proof layer is reduced, or the surface of the moisture-proof layer becomes slippery.

The coating amount of the moisture-proof layer can be determined according to the desired degree of moisture-proof property. In the case of the present invention, the moisture-proof property which is far superior with the conventional single-layer coating method with a smaller coating amount. Can be obtained. When the article to be packaged is paper such as coated paper, a single moisture-proof layer needs to be about 3 to 30 g / m ² , but in the present invention, about 1 to 10 g / m ² is sufficient.

[0022]

The present invention will be described below in more detail with reference to examples. In the following Examples and Comparative Examples, parts and% indicate parts by weight of solid content and percentage of solid content unless otherwise specified. The evaluation method of the moisture-proof paper was as follows.

Moisture proof: Evaluated based on JIS Z0208 at a temperature of 40 ° C. and a relative humidity of 90%, with the moisture permeability measured with the coated surface outside.

Surface texture of the moisture-proof paper: Surface cracks, streaks, and blisters were visually evaluated.

[0025] [Example 1] basis weight 64g / m 5g / m ^{2 2} of the head under layer coating the following formulation on one side of wood-free paper by two features were die coater at a coating speed 200 meters / minute (solid Min.) And then, while still undried, apply a moisture-proof coating of the following composition at a rate of 800 m / min. To 95 g / m ² (solid content) and dry through a drying zone. Thus, a moisture-proof paper was obtained. The moisture permeability of this moisture-proof paper is 8g
/ M ² · 24 hr, with “cracks”, “streaks”,
No defects such as "blister" were recognized at all, and the film had extremely high moisture-proofing properties and surface feeling.

<Under layer paint> A 10% aqueous solution of polyvinyl alcohol (trade name: PVA103, manufactured by Kuraray Co., Ltd.) was used as the under layer paint.

<Moisture barrier coating> Styrene / acrylic synthetic resin emulsion (trade name: Cybinol X-597-)
901E-16, 100 parts by Seiden Chemical Co., Ltd., wax emulsion (trade name: Sybinol SKP-)
W, 4 parts of Seiden Chemical Co., Ltd.) and 10 parts of methyl methacrylate / styrene organic pigment (trade name: G-200, Negami Kogyo Co., Ltd.) are uniformly mixed and stirred to prepare a moisture-proof coating. And

Example 2 A moisture-proof paper was obtained in the same manner as in Example 1 except that the moisture-proof layer paint was used in the following formulation. The moisture permeability of this moisture-proof paper is 9 g / m ² · 24 hr, and the surface has “cracks”,
No defects such as "streaks" and "blisters" were observed.

<Moisture Proof Layer Coating> 100 parts of SBR emulsion (trade name: SX-1103, manufactured by Zeon Corporation) and 15 parts of paraffin wax (trade name: SKPW, manufactured by Seiden Chemical Co., Ltd.) are mixed, and moisture-proof. Layer paint

[Comparative Example 1]
Was dried in the same manner as in Example 1 except that the underlayer coating was applied and dried to form an underlayer, and then the moistureproof coating was applied and dried. The moisture permeability of this moisture-proof paper is 85g
/ M ² · 24 hr, which is larger than that of Example 1,
Many "streaks" and "blisters" were seen, and the appearance was poor.

Comparative Example 2 A moisture-proof paper was obtained in the same manner as in Example 1, except that the under layer was not applied and the coating amount of the moisture-proof coating was 15 g / m ² . No defects such as "cracks", "streaks", and "blisters" were observed on the surface of the moisture-proof paper, and the moisture permeability was 63 g / m ² · 24 h.
r, and the moisture-proof performance was inferior to that of the present invention.

Comparative Example 3 The under layer paint of Example 1 was used.
After applying 10 g / m ^{2, the} coating was dried to form an under layer. Thereafter, the coating of the moisture-proof layer of Example 1 was applied at 9 g / m ² at a speed of 300 m / min and dried to obtain a moisture-proof paper. The moisture permeability of this moisture-proof paper is 95g
/ M ² · 24 hr, and the surface had defects such as “cracks” and “streaks” as well as “blisters”, and extremely low moisture permeability.

[0033]

According to the present invention, it is possible not only to produce a moisture-proof paper having extremely high moisture-proof properties and excellent surface appearance without defects such as cracks and streaks at a high speed, but also to produce a metal foil or an adhesive. Since the agent is not used in a large amount, it has an industrially extremely advantageous effect that it can be easily reused.
This moisture-proof paper is particularly suitable for applications that need to block moisture, such as medicine and transfer paper for electrophotography.

Claims (3)

[Claims] At least one side of a base paper is coated with a paint containing a polymer substance having a film-forming property for forming an under layer, and the film-forming property for forming a moisture-proof layer while the paint is in an undried state. A method for producing a moisture-proof paper comprising an under layer and a moisture-proof layer by applying a coating containing a polymer having the formula (1) and a wax, and drying. 2. The method for producing a moisture-proof paper according to claim 1, wherein the water-soluble polymer of the under layer is polyvinyl alcohol. 3. A moisture-proof paper comprising a base paper and an underlayer mainly composed of a water-soluble resin having a film-forming property at room temperature and a moisture-proof layer mainly composed of a synthetic resin provided in this order on at least one side of the base paper.