JP7334733B2 - Glass interleaving paper and its manufacturing method - Google Patents

Description

TECHNICAL FIELD The present invention relates to a glass interleaving paper to be inserted between glass plates and a method for producing the same.

In recent years, due to the multipurpose use of glass sheets, the quality requirements for glass interleaving paper have become stricter. For example, in the case of glass substrates used in flat panel displays such as liquid crystal displays, minute electronic components are formed on the surface of the glass substrate. result in product defects. Therefore, the surface of the glass substrate is required to have a high degree of clarity.

As glass substrates become larger and mass-produced, glass substrates are often piled up and transported for the purpose of improving transport efficiency. Since the contact pressure between the glass interleaving paper and the glass substrate increases when the glass substrates are stacked, the probability that trace components, foreign substances, etc. in the glass interleaving paper adhere to (contaminate) the glass substrate increases. On the other hand, with the high-definition processing of glass substrates, the surface of glass substrates is required to have a higher degree of clarity. Due to these circumstances, the quality level required for glass interleaving paper is becoming more and more sophisticated.

There are several possible causes for contamination of the surface of the glass substrate. The resin content in the glass interleaving paper may adhere to the surface of the glass substrate, making the surface of the glass substrate water-repellent. In addition, soda glass used in glass substrates for touch panels has a problem that when the contact period between the surface of paper and the surface of the glass substrate becomes long, the surface of the glass substrate tends to develop a paper grain pattern or discoloration. Discoloration occurs when soluble components such as sodium ions in the glass substrate undergo an ion exchange reaction with water, and the surface of the glass substrate is corroded and roughened, or when eluted components react with acid gases such as carbon dioxide in the air. This is a phenomenon in which the reaction product precipitates on the surface, making the surface look white and cloudy.

The resin content in the glass interleaving paper is mainly sticky natural resin derived from wood. The resin content includes resin acids (abietic acid) and fatty acids (stearic acid, oleic acid) released from wood, pulp and paper in the manufacturing process of raw material pulp and the process of making glass interleaving paper from raw material pulp. When these resin components adhere to the surface of the glass substrate, the surface of the glass substrate becomes water-repellent, which hinders the formation of fine electronic circuits on the surface of the glass substrate.

Pitch control agents are sometimes used in the pulp manufacturing process and the papermaking process in order to reduce the harmful effects of the resin content. A pitch control agent is an additive that prevents resin from adhering to manufacturing equipment during the glass interleaving paper manufacturing process and papermaking process. Specifically, talc, aluminum sulfate, Surfactants, cationic polymers, etc. are used.

The surface of a glass plate, particularly a glass substrate used for a flat panel display, is washed with a medium mainly containing water before shipment or before a process of mounting electronic components and the like. This washing process removes most of the foreign matter such as paper dust adhering to the surface of the glass substrate. may have.

Various methods have been proposed to prevent such contamination of the glass substrate surface. For example, in Patent Document 1, it is possible to reduce the proportion of talc present on the surface and instead use surfactants, cationic polymers, aluminum sulfate (aluminum sulfate), etc. as non-talc pitch control agents. disclosed.

In addition, Patent Document 2 discloses an interleaving paper for glass plates containing zeolite as an interleaving paper for glass plates that suppresses the occurrence of burning of the glass plates, makes the glass plates water-repellent, and does not cause paper marks to adhere. there is

JP 2016-125146 A JP-A-7-41034

In the method of using the pitch control agent described in Patent Document 1, aggregates composed of the resin component and the pitch control agent may occur, so it is not necessarily suitable for interleaf paper applications for glass substrates that require extremely high clarity. it wasn't good enough. In addition, the method of blending zeolite described in Patent Document 2 was not sufficiently effective against scorching.

The present invention has been made in view of the circumstances as described above. That is, the object of the present invention is to suppress the occurrence of burning of the glass plate, reduce the adhesion of the resin content of the glass interleaving paper to the glass plate, and reduce the water repellency of the surface of the glass plate. An object of the present invention is to provide a slip sheet and a manufacturing method thereof.

In order to solve the above problems, the present inventors studied the effect of metal ions on the occurrence of discoloration, and found that glass interleaving paper with a relatively high content of group 2 elements such as calcium and magnesium is discolorable. We found that it occurs less frequently. Further, it was found that adding a predetermined amount of a group 2 element to the glass interleaving paper reduces the occurrence of discoloration and reduces water repellency. The present invention is based on such findings. That is, the present invention has the following configurations.

(1) A glass interleaving paper containing chemical pulp as a main component, containing 0.1 to 3.0% by mass of Group 2 elements, and having a basis weight of 10 to 300 g/m ² .

(2) The glass interleaving paper according to (1), wherein the Group 2 element is at least one of calcium and magnesium.

(3) A method for producing a glass interleaving paper containing chemical pulp as a main component, having a Group 2 element content of 0.1 to 3.0% by mass, and having a basis weight of 10 to 300 g/m ² , A method for producing glass interleaving paper, wherein water containing the group 2 element is used in at least one of the chemical pulp production process and the papermaking process.

(4) A method for producing a glass interleaving paper containing chemical pulp as a main component, having a group 2 element content of 0.1 to 3.0% by mass, and having a basis weight of 10 to 300 g/m ² , A method for producing glass interleaving paper, wherein the compound containing the Group 2 element is added to the chemical pulp in at least one step of the chemical pulp production step, the papermaking step, and the post-papermaking step.

(5) The method for producing glass interleaving paper according to (4) above, wherein the compound containing the Group 2 element is calcium carbonate.

According to the glass interleaving paper of the present invention, it is possible to suppress the occurrence of burning of the glass plate, reduce the adhesion of the resin content of the glass interleaving paper to the glass plate, and reduce the water repellency of the surface of the glass plate. . Moreover, according to the manufacturing method of the glass interleaving paper of this invention, the said glass interleaving paper can be manufactured.

The present invention will be specifically described below. The embodiments shown below are examples, and the present invention should not be construed as being limited to these embodiments.

The glass interleaving paper of this embodiment contains a chemical pulp as a main component and a Group 2 element. Each component will be described below.

(chemical pulp)
The glass interleaving paper (hereinafter also referred to as "interleaving paper" as appropriate) of the present embodiment contains chemical pulp as a main component. Here, the chemical pulp as the main component means that the chemical pulp exceeds 50% by mass with respect to the mass of the interleaving paper. The mass of the chemical pulp is preferably 70% by mass or more, more preferably 90% by mass or more, relative to the mass of the interleaving paper. Chemical pulp is cellulose pulp produced through a chemical process, and examples thereof include kraft pulp (KP), sulfite pulp (SP), soda pulp (AP), and the like. In the case of chemical pulp made from wood, softwood pulp, hardwood pulp, or a mixture thereof may be used. Furthermore, as the wood pulp, kraft pulp (KP) having a low content of sticky natural resin derived from wood is suitable. Chemical pulps not made from wood include, for example, non-wood fiber pulps made from kozo, mitsumata, hemp, kenaf, and the like.

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

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

The chemical pulp preferably has a beating degree of 200 to 700 mlcsf. Here, the freeness is the Canadian standard freeness according to JIS P8121. By setting the degree of beating of the chemical pulp in the range of 200 to 700 mlcsf, it is possible to obtain the mechanical strength and workability necessary for interleaving paper. If the beating degree of the chemical pulp is less than 200 mlcsf, the density of the interleaving paper becomes high and the cushioning property becomes low, so that the glass surface is easily scratched. On the other hand, if the beating degree of the chemical pulp is higher than 700 mlcsf, the strength of the paper becomes weak, and there is a risk of breakage during the distribution process or manufacturing process. More preferably, the chemical pulp has a freeness of 350 to 600 mlcsf. A known method can be used for beating the pulp in order to adjust the beating degree to 200 to 700 mlcsf.

(Group 2 element)
Group 2 elements are group 2 metal elements such as calcium, magnesium, barium, beryllium, and strontium. Among these, at least one of calcium and magnesium is important as a group 2 element contained in interleaving paper. Water with a high content of metal ions such as calcium and magnesium is called hard water, and water with a low content is called soft water. Water hardness is expressed by the amount (mg/l) of calcium and magnesium metal ions contained in water. Electric conductivity is also used as an index of water hardness.

(Discoloration of the glass plate)
Burning of a glass plate is caused by an ion exchange reaction between sodium in the glass and hydrogen ions of water. The following two mechanisms are conceivable as the mechanism of the generation of scorch on the glass plate. When water droplets adhere to the surface of the glass plate, a small amount of sodium ions in the glass dissolve into water, sodium hydroxide is generated on the surface of the glass plate, and the surface of the glass plate is eroded and roughened, making the glass plate cloudy. In addition, when water droplets on the surface of the glass plate evaporate, sodium ions react with carbon dioxide in the air to produce sodium carbonate and sodium hydrogen carbonate, which adhere to the surface of the glass plate and make the glass plate cloudy. .

(glass interleaving paper)
The interleaving paper is mainly composed of cellulose pulp, and the pulp has carboxyl groups in its hemicellulose component. The carboxy groups in the pulp react with ions of group 2 elements (calcium ions, magnesium ions, etc.) in the water used in the pulp manufacturing process and the papermaking process to produce salts. When the hardness (electrical conductivity) of the water used is low, less salt is produced, and when the hardness of the water is high, more salt is produced. Furthermore, more salts can be generated by adding group 2 elements in the interleaving paper.

The inventors of the present invention have found that when water containing a large amount of group 2 elements is used in the production of interleaving paper, burning generally occurs compared to the case where water containing a small amount of group 2 elements is used. I found that it tends to be difficult. A clear explanation of why interleaving paper burns must await future research. It is presumed that the amount of replacement increases and the amount of scorching increases. However, the reaction with the group 2 element in the water used in the production of the interleaving paper produces a salt due to the exchange of hydrogen ions and group 2 element ions, and the carboxyl group (-COOH) in the pulp is liberated. It is thought that when the hydrogen ion content is reduced, the amount of scorching is reduced.

On the other hand, the resin content in the interleaving paper is a compound having a carboxyl group such as resin acid (abietic acid) and fatty acid (stearic acid, oleic acid), and exists as colloidal pitch in the pulp suspension. When group 2 elements are present in the interleaving paper, the binding force between the resin content (colloidal pitch) and the pulp fibers increases due to the fixing action to the pulp fibers due to the charge force of the divalent cations generated from the group 2 elements. expected to increase. As a result, the amount of resin transferred to the glass plate is reduced, and adhesion (contamination) of the resin to the glass plate is reduced.

In addition, like the carboxyl group of pulp, the resin component reacts with ions of Group 2 elements in the water used in the pulp manufacturing process and the papermaking process to produce a salt. Salts of resin acids and fatty acids have lower solubility in water and higher melting points. Furthermore, when fatty acids and resin acids are converted into salts such as fatty acid calcium and resinate calcium, the adhesiveness is reduced, the affinity with the glass plate is reduced, and adhesion (contamination) to the glass plate is reduced. .

The interleaving paper of the present embodiment has a Group 2 element content of 0.1 to 3.0% by mass. When the content of the Group 2 element is 0.1% by mass or more, the content of free hydrogen ions of carboxy groups in the pulp decreases, and the amount of scorching can be reduced. In addition, it is possible to reduce the adhesion of the resin to the glass plate, thereby reducing the water repellency of the surface of the glass plate. On the other hand, when the content of the Group 2 element exceeds 3.0% by mass, there is a concern that the salt of the Group 2 element may precipitate in the interleaving paper and contaminate the glass plate. The Group 2 element content is more preferably 0.15 to 0.5% by mass. The content of group 2 elements in the interleaving paper can be obtained by measuring the ash content of the interleaving paper and further measuring the content of the group 2 elements in the ash by fluorescent X-ray analysis.

As a method for controlling the content of Group 2 elements in the interleaving paper to 0.1 to 3.0% by mass, Group 2 elements are added in at least one step of the chemical pulp manufacturing process and the papermaking process. A method of using the contained water (first method), and a method of adding a compound containing a group 2 element to the chemical pulp in at least one of the chemical pulp manufacturing process, the papermaking process, and the post-papermaking process. (Second method).

In the first method, by appropriately controlling the content of Group 2 elements in the water used in at least one of the chemical pulp manufacturing process and the papermaking process, Group 2 elements in the finally obtained interleaving paper Element content can be adjusted. The hardness of water containing Group 2 elements is preferably 70 to 500 (mg/l), more preferably 120 to 400 (mg/l). Also, the electric conductivity of water is preferably 14 to 100 mS/m, more preferably 24 to 33 mS/m. The water containing the Group 2 element may be used in both the chemical pulp manufacturing process and the papermaking process, or may be used in either one of the processes. When metal ions of Group 2 elements are dissolved in the water used in the manufacturing process of chemical pulp or the papermaking process, the carboxyl group contained in the chemical pulp forms a salt with the metal ions to form a second Group elements can be retained inside.

As the second method, a method of adding a compound containing a Group 2 element to the raw material in at least one of the chemical pulp manufacturing process and the papermaking process (internal addition method), the chemical pulp manufacturing process and the papermaking process A method using water in which a compound containing a group 2 element is dissolved and dispersed in at least one step of (water use method), and an aqueous solution in which a compound containing a group 2 element is dissolved and dispersed in a process after papermaking There is a method of coating the surface of interleaving paper (coating method). The internal addition method and the water-use method are preferable from the viewpoint of easily acting on the surface layer and inside of the pulp and the resin content (colloidal pitch) in the pulp slurry.

(calcium carbonate)
In the second method, calcium carbonate is preferred as the compound containing the Group 2 element. Calcium carbonate is an additive conventionally used as a filler in various types of paper. Calcium carbonate is sparingly soluble in water, so most of the calcium carbonate can be retained on paper as a solid, but some dissolves. Its solubility in water is 0.00015 mol/L (25° C.) and produces calcium ions. Moreover, the calcium carbonate aqueous solution exhibits basicity.

The amount of calcium carbonate added to the interleaving paper is preferably 0.15 to 3.0% by mass, more preferably 0.3 to 1.5% by mass. If the amount of calcium carbonate added exceeds 3.0% by mass, there is a concern that the calcium carbonate particles may be retained in the interleaving paper beyond the solubility of calcium carbonate, contaminating the glass plate. Therefore, it is preferable that the amount of calcium carbonate added is as small as possible. In order to reduce the content of calcium carbonate particles that precipitate in the interleaving paper, it is preferable not to use a retention aid so that the calcium carbonate particles are not retained in the interleaving paper. As the calcium carbonate, light calcium carbonate obtained by a synthetic method is preferable because it contains few contaminants.

As described above, by specifying the content of the group 2 element in the interleaving paper, the occurrence of burning of the glass plate is suppressed, the adhesion of the resin content of the interleaving paper to the glass plate is reduced, Water repellency of the surface of the glass plate can be reduced.

(papermaking chemicals)
Various known chemicals can be used as the chemicals for papermaking to be used in making interleaving paper, as long as they do not contaminate the glass surface. Examples of papermaking chemicals include paper strength agents such as polyacrylamide, water resistance agents such as polyamide polyamine epichlorohydrin, softeners, antistatic agents, antifoaming agents, slime control agents, fillers and dyes. Since any of these papermaking chemicals may contaminate the glass plate, even if they are added, the total content is preferably 0.1% by mass or less.

(Method for manufacturing glass interleaving paper)
There are no particular restrictions on the method for producing the interleaving paper, and the interleaving paper can be produced by using various paper machines and selecting appropriate papermaking conditions. Specific examples of the paper machine include fourdrinier formers, twin wire formers, cylinder formers, and inclined formers. The layer structure of the interleaving paper may be a single layer or multiple layers. As a method for controlling the content of the group 2 element in the interleaving paper to 0.1 to 3.0% by mass, the first method or the second method can be used.

(Characteristics of glass interleaving paper)
A smaller basis weight of the interleaving paper is preferable because it reduces the mass during transportation. On the other hand, it is preferable that the basis weight of the interleaving paper is relatively large in terms of cushioning properties, but if it is too large, the mass during transportation becomes large, which is not preferable. Considering the balance between cushioning properties and ease of transportation, and usage, the basis weight of the interleaving paper is 10 to 300 g/m ² . Further, a more preferable basis weight of the interleaving paper is 35 to 80 g/m ² .

The thickness of the interleaving paper is preferably 25 to 250 μm from the viewpoint of cushioning properties and workability. Also, 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 or alkaline. Specifically, the pH of the interleaving paper is preferably 6 or higher, more preferably 8 or higher.

The interleaving paper of the present embodiment protects the glass substrates when a plurality of glass substrates for flat panel displays such as touch panel glass substrates, liquid crystal displays, organic electroluminescence displays, and plasma displays are stacked and stored and transported. used for

EXAMPLES The present invention will be described in detail below with reference to Examples, but the present invention is not limited to these. In addition, the numerical value which shows a compounding is a numerical value (mass%) of the solid content or the mass reference|standard of an active ingredient. In addition, unless otherwise specified, the paper produced was treated according to JIS P8111, and then subjected to measurement and evaluation tests.

(Examples 1 to 4, Comparative Example 1)
Materials used in Examples and Comparative Examples are as follows.
Softwood bleached kraft pulp (NBKP): commercially available softwood bleached kraft pulp Light calcium carbonate: TP-121-5S manufactured by Okutama Kogyo Co., Ltd.

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

[Example 1]
As the raw material pulp, commercial NBKP (softwood bleached kraft pulp) 100% virgin pulp slurry (beating degree 450 mlcsf) was used, and using water with an electrical conductivity of 25 mS / m, fourdrinier was used without adding papermaking chemicals. Paper was made on a paper machine. After papermaking, the paper was dried to obtain a glass interleaving paper having a basis weight of 50 g/m ² . The resulting glass interleaving paper had a Group 2 element content of 0.23 % and a pH (JIS P 8133-2) of 6.6.

[Example 2]
A glass interleaving paper was obtained in the same manner as in Example 1, except that 0.3% by mass of light calcium carbonate was added to the absolute dry pulp and water with an electrical conductivity of 3 mS/m was used. The resulting glass interleaving paper had a Group 2 element content of 0.17% and a pH (JIS P 8133-2) of 6.6.

[Example 3]
A glass interleaving paper was obtained in the same manner as in Example 2, except that the amount of light calcium carbonate added was 0.9% by mass. The resulting glass interleaving paper had a Group 2 element content of 0.25% and a pH (JIS P 8133-2) of 9.3.

[Example 4]
A glass interleaving paper was obtained in the same manner as in Example 2, except that the amount of light calcium carbonate added was 3% by mass. The resulting glass interleaving paper had a Group 2 element content of 0.41% and a pH (JIS P 8133-2) of 9.4.

[Comparative Example 1]
A glass interleaving paper was obtained in the same manner as in Example 2, except that no precipitated calcium carbonate was added. The resulting glass interleaving paper had a Group 2 element content of 0.08% and a pH (JIS P 8133-2) of 6.5.

(Evaluation content)
The evaluation contents of the obtained glass interleaving paper are as follows.
<Content of group 2 element in interleaving paper>
The ash content of the glass interleaving paper was determined according to JIS P8251. The content (% by mass) of the Group 2 elements in the obtained ash was obtained from the measured value of mass concentration using a fluorescent X-ray spectrometer (manufactured by JEOL Ltd., JSX-3600M). The Group 2 element content m (% by mass) in the glass interleaving paper was determined by the following formula (1).
m=a×b (1)
Here, m: Group 2 element content (% by mass)
a: Ash content of glass interleaving paper (% by mass)
b: Group 2 element content in ash (% by mass)

<Evaluation of discoloration of glass plate>
A 200 mm × 200 mm glass plate for a touch panel is placed on a 210 mm × 210 mm glass interleaving paper, three sets of the combination are alternately laminated, a 1 kg weight is placed on it and pressure is applied, a temperature of 50 ° C., a humidity of 90% RH. A sample was prepared by leaving it in the environment for 4 days. After the surface of the glass plate was washed with water and dried, the degree of wrinkle-like fogging that occurred when the glass plate surface was exhaled was observed (n=3). Evaluation of discoloration of the glass plate was performed according to the following criteria. ○ and △ were judged to be acceptable.
○: No cloudiness △: There is a little cloudiness, but it is at a usable level ×: There is cloudiness

<Evaluation of water repellency of glass plate>
A 200 mm × 200 mm flat panel display glass plate is placed on a 210 mm × 210 mm glass interleaving paper, 3 sets of the combination are alternately laminated, and a 1 kg weight is placed on it to apply pressure, temperature 50 ° C., humidity 90%. A sample was prepared by leaving it in a RH environment for 4 days. After the surface of the glass plate was washed with water and dried, deionized water was applied to the surface of the glass plate and the degree of water repellency was observed (n=3). The water repellency of the glass plate was evaluated according to the following criteria.
○: Excellent without water repellency ×: Poor with water repellency

Table 1 shows the evaluation results of Examples 1 to 4 and Comparative Example 1. The glass interleaving papers of Examples 1 to 4 were excellent in discoloration and water repellency of the glass plate. In particular, Examples 1 to 3, in which the content of the Group 2 element was 0.17 to 0.25% by mass, were even more excellent in terms of discoloration of the glass plate. On the other hand, the glass interleaving paper of Comparative Example 1 was inferior in discoloration and water repellency of the glass plate.

Claims (3)

A glass mixture containing chemical pulp as a main component, having a Group 2 element content of 0.1 to 3.0% by mass, a basis weight of 10 to 300 g/m ² , and wherein the Group 2 element is calcium. A method of making paper, comprising:
A method for producing glass interleaving paper, wherein the compound containing the Group 2 element is added to the chemical pulp in at least one of the chemical pulp production process, the papermaking process, and the post-papermaking process. 2. The method for producing glass interleaving paper according to claim 1 , wherein the compound containing the group 2 element is calcium carbonate. 3. The method according to claim 2 , wherein at least one of the manufacturing process, the papermaking process, and the post-papermaking process comprises adding 0.15 to 3.0% by mass of the calcium carbonate to the bone dry pulp. A method for producing glass interleaving paper.