JP7010175B2 - Glass interleaving paper and its manufacturing method - Google Patents

Description

The present invention relates to a glass interleaving paper inserted between glass plates and a method for manufacturing the same.

In recent years, due to the versatility of glass plates, the quality requirements for glass interleaving paper have become stricter. For example, in a glass substrate used for a flat panel display such as a liquid crystal display or a touch panel, fine electronic members and the like are formed on the surface of the glass substrate. It causes defects and becomes a product defect. Therefore, the surface of the glass substrate is required to have a high degree of clarity.

With the increase in size and mass production of glass substrates, glass substrates are often transported in layers for the purpose of improving transport efficiency. When the glass substrates are stacked, the contact pressure between the glass interleaving paper and the glass substrate increases, so that there is an increased probability that trace components, foreign substances, etc. in the glass interleaving paper act on the glass substrate to contaminate or cause defects. On the other hand, with the high-definition processing of a glass substrate, a higher degree of clarity is required on the surface of the glass substrate. Due to these circumstances, the quality requirements for glass interleaving paper are becoming more and more sophisticated.

There are several possible causes for contamination of the glass substrate surface. Soda glass used in a glass substrate for a touch panel has a problem that when the contact period between the glass interleaving paper and the surface of the glass substrate is long, the surface of the glass substrate is liable to have a paper surface pattern or discoloration. Discoloration is the ion exchange reaction between soluble components such as sodium ions in the glass substrate and hydrogen ions derived from water, etc., and the surface of the glass substrate is eroded and damaged, or the eluted components and carbon dioxide in the air, etc. This is a phenomenon in which the surface looks white and cloudy due to the reaction with acid gas and the precipitation of reaction products.

Various methods have been proposed to prevent such discoloration of the glass substrate surface. For example, Patent Document 1 discloses a glass plate interleaving paper containing zeolite as a glass plate interleaving paper that suppresses the occurrence of discoloration of the glass plate and does not cause water repellency and paper mark adhesion of the glass plate. There is.

Japanese Unexamined Patent Publication No. 7-41034

However, the method of blending zeolite described in Patent Document 1 is not always sufficient in its effect on discoloration.

The present invention has been made in view of the above circumstances. That is, an object of the present invention is to provide a glass interleaving paper capable of reducing the occurrence of discoloration of a glass plate and a method for producing the same.

In order to solve the above problems, the present inventor examined the influence of metal ions on the generation of discoloration. As a result, the glass interleaving paper having a relatively high sodium content has less discoloration, and hardwood pulp. It was found that when the mixture is blended with, there is a tendency that discoloration is less likely to occur as compared with the case where the hardwood pulp is not blended. The present invention was born based on such findings. That is, the present invention has the following configuration.

(1) A glass interleaving paper containing chemical pulp as a main component, having a sodium content of 0.03 to 1.0% by mass and a basis weight of 10 to 300 g / m ² , and occupying the chemical pulp. Glass interleaving paper with a proportion of broad-leaved pulp of 10% by mass or more.

(2) The method for producing a glass interleaving paper according to (1) above, characterized in that water containing sodium is used in at least one step of the chemical pulp manufacturing step and the papermaking step. Manufacturing method of glass interleaving paper.

(3) In the method for producing the glass interleaving paper according to the above (1), a sodium-containing compound is added in at least one step of the chemical pulp manufacturing step, the paper making step, and the post-paper making step. A method for manufacturing glass interleaving paper.

(4) The method for producing a glass interleaving paper according to (3) above, wherein the compound containing sodium is sodium sulfate.

According to the glass interleaving paper of the present invention, it is possible to reduce the occurrence of discoloration of the glass plate. Further, according to the method for producing a glass interleaving paper of the present invention, the glass interleaving paper can be produced.

Hereinafter, the present invention will be specifically described. The embodiments shown below are examples, and the present invention is not limited to these embodiments.

The glass interleaving paper of the present embodiment contains chemical pulp as a main component and contains sodium. Hereinafter, each component will be described.

(Chemical pulp)
The glass interleaving paper of the present embodiment (hereinafter, also appropriately referred to as “combining paper”) contains chemical pulp as a main component. Here, the fact that the chemical pulp is the main component means that the chemical pulp exceeds 50% by mass with respect to the mass of the interleaving paper. The chemical pulp is preferably 70% by mass or more, more preferably 90% by mass or more, based on the mass of the interleaving paper. The chemical pulp is a cellulose pulp produced through a chemical process, and examples thereof include kraft pulp (KP), sulfate pulp (SP), and soda pulp (AP).

Chemical pulp (wood pulp) made from wood includes softwood pulp and hardwood pulp. The present inventor has found that when hardwood pulp is blended as chemical pulp, discoloration tends to be less likely to occur as compared with the case where hardwood pulp is not blended. The reason why burns are less likely to occur when hardwood pulp is mixed is considered as follows. When the glass plate and the interleaving paper are stacked and stored, if the interleaving paper absorbs moisture and stretches due to the influence of high humidity environment such as summer, wrinkles are formed and a gap is created between the glass plate and the interleaving paper. Humid air will come into direct contact with the glass plate. High-humidity air tends to cause discoloration, which will be described later. Therefore, it is possible to suppress the occurrence of discoloration by using paper that hardly causes wrinkles even if it absorbs moisture. Since hardwood pulp has a shorter fiber length than softwood pulp, increasing the amount of hardwood pulp improves the texture of the paper, suppresses the occurrence of wrinkles due to moisture absorption, and the gap between the glass plate and the interleaving paper. It is possible to prevent the occurrence of burns and reduce the amount of burns.

That is, in the interleaving paper of the present embodiment, the ratio of hardwood pulp to the chemical pulp is set to 10% by mass or more in order to reduce the amount of discoloration. The ratio of hardwood pulp to the chemical pulp is preferably 40% by mass or more, more preferably 70% by mass or more.

Further, as the wood pulp, kraft pulp (KP) having a low content of a sticky natural resin derived from wood is suitable. Examples of chemical pulp not made from wood include non-wood fiber pulp made from mulberry, mitsumata, hemp, kenaf and the like.

Examples of pulp other than chemical pulp include semi-chemical pulp such as semi-chemical pulp (SCP) and chemi-grand wood pulp (CGP); crushed wood pulp (GP), thermomechanical pulp (TMP, BCTMP), refiner grand wood pulp (RGP). Such as mechanical pulp. The glass interleaving paper of the present embodiment may be one or a mixture of two or more types of pulp other than chemical pulp.

Since used paper pulp generally contains a large amount of sticky foreign substances, impurities, and resin, virgin pulp is preferable to used paper pulp as a pulp raw material for interleaving paper.

The beating degree of the chemical pulp is preferably 200 to 700 mlcsf. Here, the degree of beating is the Canadian standard freeness according to JIS P8121. By setting the beating degree of the chemical pulp in the range of 200 to 700 mlcsf, it is possible to obtain the mechanical strength and processability required for the interleaving paper. When the degree of beating of the chemical pulp is less than 200 mlcsf, the density of the interleaving paper tends to be high and the cushioning property tends to be low, so that the glass surface may be easily scratched. On the other hand, when the beating degree of the chemical pulp is higher than 700 mlcsf, the paper strength is weakened, so that there is a risk of breakage in the distribution process or the manufacturing process. The degree of beating of the chemical pulp is more preferably 350 to 600 mlcsf. As for the method of beating the pulp, a known method can be used.

(Discoloration of glass plate)
Conventionally, the following two mechanisms have been considered as the mechanism by which the glass plate is burnt. That is, when water droplets adhere to the surface of the glass plate, a small amount of sodium ions in the glass dissolve into the water, sodium hydroxide is generated on the surface of the glass plate, the surface of the glass plate is eroded and roughened, and the glass plate becomes cloudy. .. In addition, when water droplets on the surface of the glass plate evaporate, sodium ions react with carbon dioxide in the air to generate sodium carbonate and sodium hydrogen carbonate, which adhere to the surface of the glass plate and make the glass plate cloudy. ..

In the case of the above-mentioned conventional discoloration, the white turbidity of the glass plate can be confirmed by using a fluorescent lamp having a general brightness. However, it has become clear that in a glass substrate for a touch panel or the like, there is a type of minute (micro) discoloration different from the above-mentioned conventional discoloration. This minute discoloration cannot be visually recognized unless it is inspected in a dark room using a high-intensity lamp. In a glass substrate or the like for a touch panel, fine electronic members or the like are formed on the surface of the glass substrate. Therefore, even a minute discoloration that cannot be visually recognized unless it is inspected in a dark room using a high-brightness lamp causes defects such as disconnection and becomes a product defect, which is a problem.

(sodium)
The present inventor has found that when the interleaving paper contains a predetermined amount of sodium, the above-mentioned minute discoloration tends to be less likely to occur. That is, the interleaving paper of the present embodiment has a sodium content of 0.03 to 1.0% by mass. When the sodium content is 0.03% by mass or more, the amount of discoloration can be reduced. On the other hand, if the sodium content exceeds 1.0% by mass, there is a concern that sodium salts may precipitate in the interleaving paper and contaminate the glass plate. The content of sodium in the interleaving paper is more preferably 0.05 to 0.5% by mass, still more preferably 0.1 to 0.3% by mass. The sodium content in the interleaving paper can be specified by measuring the ash content of the interleaving paper and further measuring the sodium content in the ash content by fluorescent X-ray analysis.

It is necessary to wait for further research to clarify the cause and mechanism of the glass plate causing the above-mentioned minute discoloration, but it is thought that the cause is the ion exchange reaction between sodium in the glass and hydrogen ions in water. Be done. And, it is considered that the minute discoloration is caused by the following mechanism.

A soda glass plate is usually used as the glass substrate for the touch panel. The soda glass plate has a protective film for preventing scratches made of sulfate on the surface of the glass plate. The flaw prevention protective film is formed by spraying sulfurous acid gas on the surface of the glass plate to react the sodium in the glass plate with the sulfurous acid gas to generate sodium sulfate on the surface of the glass plate at the time of manufacturing the glass plate. .. When sulfur dioxide gas is sprayed, sodium in the glass plate bleeds (moves) near the surface, so that the amount of sodium is deficient near the surface of the glass plate. It is presumed that this causes a slight discoloration.

However, when the sodium content in the interleaving paper is high, it has the effect of suppressing the sodium ions in the glass plate from bleeding (moving) to the interleaving paper. Furthermore, it also has the effect of transferring sodium ions in the interleaving paper to the sodium-deficient portion near the surface of the glass plate through the protective film for preventing defects made of sodium sulfate. As a result, the abundance of sodium ions in the glass plate is stabilized, and the ion exchange reaction between hydrogen ions and sodium ions of water vapor in the interleaving paper or in the air is suppressed. It is presumed that this will reduce the occurrence of discoloration without increasing the abundance of hydrogen ions in the glass plate.

As a method for controlling the content of sodium in the interleaving paper to 0.03 to 1.0% by mass, water containing sodium is used in at least one step of the chemical pulp manufacturing step and the paper making step. There is a method (first method) and a method (second method) of adding a compound containing sodium in at least one step of a chemical pulp manufacturing step, a paper making step, and a post-paper making step.

In the first method, the sodium content in the finally obtained interleaving paper is adjusted by appropriately controlling the sodium content in the water used for at least one step of the chemical pulp manufacturing step and the papermaking step. can do. Sodium is a component generally contained in water. So-called soft water has a relatively low sodium content, and hard water contains a relatively large amount of sodium. The hardness of the sodium-containing water is preferably 70 to 500 (mg / l), more preferably 120 to 400 (mg / l). The electrical conductivity of water is preferably 14 to 100 mS / m, more preferably 24 to 33 mS / m. The sodium-containing water may be used in both the chemical pulp manufacturing process and the papermaking process, or may be used in either process. When sodium is dissolved in the water used for the manufacturing process or papermaking process of chemical pulp, the carboxy group contained in the chemical pulp may form a salt with a metal ion to retain the sodium inside. can. Moreover, since the paper is produced by drying wet paper, a certain amount of sodium in the water can be retained.

The second method includes a method of adding a compound containing sodium to the raw material in at least one step of the chemical pulp manufacturing step and the papermaking step (internal addition method), and at least one of the chemical pulp manufacturing step and the papermaking step. A method using water in which a compound containing sodium is dissolved and dispersed in one step (watering method), and a method in which an aqueous solution in which a compound containing sodium is dissolved and dispersed in a step after papermaking is applied to the surface of the interleaving paper. (Coating method) etc. Among these, a coating method capable of containing sodium more efficiently is preferable.

(Sodium sulfate)
In the second method, the sodium-containing compound is preferably sodium sulfate (Glauber's salt, Na ₂ SO ₄ ). Sodium sulfate may be used as a raw material for glass.

The amount of sodium sulfate added to the interleaving paper is preferably 0.03 to 1.5% by mass, more preferably 0.05 to 1.0% by mass, still more preferably 0.1 to 0.6% by mass. If the amount of sodium sulfate added exceeds 1.5% by mass, sodium sulfate particles may precipitate on the surface of the glass plate, causing problems.

As described above, by defining the ratio of hardwood pulp to the chemical pulp and the content of sodium in the interleaving paper, it is possible to reduce the occurrence of discoloration of the glass plate.

(Chemicals for papermaking)
As the papermaking chemicals used for papermaking of the interleaving paper, various known chemicals can be used as long as the glass surface is not contaminated. Examples of the papermaking chemical include a paper strength enhancer such as polyacrylamide, a water resistant agent such as polyamide polyamine epichlorohydrin, a softener, an antistatic agent, an antifoaming agent, a slime control agent, a filler, and a dye. Since all of these papermaking chemicals have a risk of contaminating the glass plate, it is preferable that the total amount is 0.1% by mass or less even when added.

(Manufacturing method of glass interleaving paper)
The method for producing the interleaving paper is not particularly limited, and papermaking can be performed by selecting appropriate papermaking conditions using various paper machines. Specific examples of the paper machine include a long net former, a twin wire former, a circular net former, and an inclined former. The layer structure of the interleaving paper may be a single layer or a multi-layer structure. As a method for controlling the sodium content in the interleaving paper to 0.03 to 1.0% by mass, the above-mentioned first method or the second method can be used.

(Characteristics of glass interleaving paper)
It is preferable that the basis weight of the interleaving paper is small because the mass during transportation is small, but if it is too small, sufficient cushioning property cannot be imparted to the glass plate. On the other hand, it is preferable that the basis weight of the interleaving paper is large to some extent in terms of cushioning property, but if it is too large, the mass during transportation becomes large, which is not preferable. Considering the balance between cushioning and transportability and the application, the basis weight of the interleaving paper is 10 to 300 g / m ² . The more preferable basis weight of the interleaving paper is 30 to 80 g / m ² .

The thickness of the interleaving paper is preferably 25 to 250 μm from the viewpoint of cushioning property and workability. The density of the interleaving paper is preferably 0.4 to 1.2 g / cm ³ .

The pH of the interleaving paper (JIS P 8133-2) is preferably neutral.

The interleaving paper of the present embodiment is for protecting the glass substrate when a plurality of glass substrates for a flat panel display such as a touch panel glass substrate, a liquid crystal display, an organic electroluminescence display, and a plasma display are laminated and stored and transported. Suitable for use in.

Hereinafter, the present invention will be described in detail with reference to Examples, but the present invention is not limited thereto. The numerical value indicating the composition is a numerical value (mass%) based on the mass of the solid content or the active ingredient. Unless otherwise specified, the paper was processed according to JIS P8111 and then subjected to measurement and evaluation tests.

(Examples 1 to 4, Comparative Examples 1 to 2)
The materials used in the examples and comparative examples are as follows.
Broadleaf bleached kraft pulp (LBKP): Commercially available broadleaf bleached kraft pulp Coniferous bleached kraft pulp (NBKP): Commercially available coniferous bleached kraft pulp Sodium sulfate: Anhydrous neutral sodium sulfate manufactured by Toso Co., Ltd.

The electric conductivity of irrigation water was measured using a portable electric conductivity meter ES-51 manufactured by HORIBA in accordance with JIS K 0130: 2008.

[Example 1]
As the raw material pulp, a virgin pulp slurry (beating degree 450 mlcsf) of 80% commercially available LBKP (broadwood bleached kraft pulp) and 20% commercially available NBKP (coniferous bleached kraft pulp) is used, and water having an electric conductivity of 25 mS / m is used. , Paper was made with a Nagami paper machine without adding chemicals. After papermaking, the paper was dried to obtain a glass interleaving paper having a basis weight of 40 g / m ² . The sodium content of the obtained glass interleaving paper was 0.05%.

[Example 2]
Using water with an electric conductivity of 3 mS / m, a glass sulfate solution was applied in the same manner as in Example 1 except that a sodium sulfate solution was applied by a size press so that the amount of sodium sulfate added to the interleaving paper was 0.3%. Got The sodium content of the obtained glass interleaving paper was 0.10%.

[Example 3]
A glass interleaving paper was obtained in the same manner as in Example 2 except that the amount of sodium sulfate added to the interleaving paper was 0.5%. The sodium content of the obtained glass interleaving paper was 0.18%.

[Example 4]
A glass interleaving paper was prepared in the same manner as in Example 3 except that a virgin pulp slurry (beating degree 450 mlcsf) containing 40% of commercially available LBKP (hardwood bleached kraft pulp) and 60% of commercially available NBKP (softwood bleached kraft pulp) was used as the raw material pulp. Obtained. The sodium content of the obtained glass interleaving paper was 0.18%.

[Comparative Example 1]
A glass interleaving paper was obtained in the same manner as in Example 2 except that sodium sulfate was not added. The sodium content of the obtained glass interleaving paper was 0.01%.

[Comparative Example 2]
A glass interleaving paper was obtained in the same manner as in Example 3 except that a commercially available NBKP (coniferous bleached kraft pulp) 100% virgin pulp slurry (beating degree 450 mlcsf) was used as the raw material pulp. The sodium content of the obtained glass interleaving paper was 0.18%.

(Evaluation content)
The evaluation contents of the obtained glass interleaving paper are as follows.
<Sodium content in interleaving paper>
The ash content of the glass interleaving paper was determined according to JIS P8251. The content (% by mass) of sodium in the obtained ash was obtained from the measured value of the mass concentration using a fluorescent X-ray analyzer (JSX-3600M, manufactured by JEOL Ltd.). The sodium content m (mass%) in the glass interleaving paper was determined by the following formula (1).
m = a × b ... (1)
Here, m: sodium content (mass%)
a: Ash content (mass%) of glass interleaving paper
b: Sodium content in ash (% by mass)

<Evaluation of discoloration of glass plate>
A 200 mm x 200 mm touch panel glass plate is placed on a 210 mm x 210 mm glass interleaving paper, three sets of the combinations are alternately laminated, and a 1 kg weight is placed on it to apply pressure, and the temperature is 50 ° C. and the humidity is 90% RH. The sample was left to stand in the environment for 4 days. After washing the surface of the glass plate with water and drying it, a high-intensity lamp was irradiated in a dark room to observe white turbidity on the surface of the glass plate (n = 3). The discoloration of the glass plate was evaluated according to the following criteria. A was judged to be acceptable.
A: No cloudiness B: Partially cloudy C: Cloudy

Table 1 shows the evaluation results of Examples 1 to 4 and Comparative Examples 1 and 2. The glass interleaving papers of Examples 1 to 4 were excellent in discoloration of the glass plate. On the other hand, in the glass interleaving papers of Comparative Examples 1 and 2, the discoloration of the glass plate was inferior.

Claims (4)

A glass interleaving paper containing chemical pulp as a main component, a sodium content of 0.03 to 1.0% by mass, and a basis weight of 10 to 300 g / m ² .
A glass interleaving paper in which the ratio of hardwood pulp to the chemical pulp is 10% by mass or more. The method for producing a glass interleaving paper according to claim 1, wherein water containing sodium is used in at least one of the chemical pulp manufacturing process and the papermaking process. Production method. The method for producing a glass interleaving paper according to claim 1, wherein a compound containing sodium is added in at least one step of the chemical pulp manufacturing step, the paper making step, and the post-paper making step. Manufacturing method of glass interleaving paper. The method for producing a glass interleaving paper according to claim 3, wherein the compound containing sodium is sodium sulfate.