JP2016060981A - Transparent paper - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a transparent paper high in transparency, excellent in dimensional stability to temperature change and hardly generating unevenness even humidity changes.SOLUTION: The transparent paper is a transparent paper having total light transmittance of 80% or more and haze degree of 60% or less and contains pulp having following irregular freeness of 100 to 600 ml and an aqueous resin consisting of at least one of a water soluble resin and a water dispersible resin, and the aqueous resin is a resin having B type viscosity of an aqueous resin-containing liquid manufactured with aqueous resin concentration of 10 mass% of 35 mPa s or less and the percentage content of the aqueous resin is 0.1 to 50 mass%. The irregular freeness: freeness measured by changing pulp collection amount from 3 g to 0.3 g and changing a JIS specification screen plate to a 80 mesh wire in a Canada standard freeness degree method defined in JIS P8121.SELECTED DRAWING: None

Description

  The present invention relates to a transparent paper.

Transparent paper based on wood pulp is known as an alternative material for plastic transparent films. In recent years, it has been attracting attention as a material that uses less fossil fuels due to increased awareness of environmental protection.
As the transparent paper, for example, a paper obtained by making a pulp raw material with high beating of pulp and then supercalendering to eliminate air between pulp fibers and closely contacting the fibers is known ( Patent Document 1).
Further, as a transparent paper, a paper obtained by putting a dense base paper that has been beaten into a wet state and applying a synthetic resin clearing agent is known (Patent Document 2).

JP-A-8-199499 JP 2003-201694 A

However, the transparent paper described in Patent Document 1 has insufficient dimensional stability against changes in humidity. When the humidity changes, the dimensional change occurs and the formation of large visible irregularities (referred to as “bokeh”). A defective phenomenon) may occur.
Even in the transparent paper described in Patent Document 2, the dimensional stability against humidity change is not sufficiently improved, and when the humidity is changed, there is a case where the paper becomes uneven.
When the transparent paper is uneven, the transparency becomes uneven, making it difficult to apply to the application of reading characters and barcodes through the transparent paper. If the beating degree of the pulp is suppressed, the dimensional stability is improved, but in this case, the transparency tends to be lowered.
An object of the present invention is to provide a transparent paper that is highly transparent, excellent in dimensional stability against changes in humidity, and that does not easily blur even when the humidity changes.

The transparent paper of the present invention is a transparent paper having a total light transmittance defined by JIS K7361 of 80% or more and a haze degree defined by JIS K7361 of 60% or less, and the following irregularity freeness is 100. -600 ml of pulp and an aqueous resin comprising at least one of a water-soluble resin and a water-dispersible resin, and the aqueous resin is an aqueous resin-containing liquid prepared so that the aqueous resin concentration is 10% by mass. The B-type viscosity at 25 ° C. specified in JIS Z8803-1 is 35 mPa · s or less, and the content ratio of the aqueous resin is 0.1 to 50 mass%.
(Anomaly Freeness)
Freeness measured by changing the amount of collected pulp from 3g to 0.3g and from JIS standard screen plate to 80 mesh wire in Canadian Standard Freeness Method stipulated in JIS P8121.
In the transparent paper of the present invention, the aqueous resin is preferably a styrene / (meth) acrylic acid copolymer.

  The transparent paper of the present invention has high transparency, excellent dimensional stability against changes in humidity, and does not easily blur even when the humidity changes.

The transparent paper of the present invention is a paper containing pulp and an aqueous resin, having a total light transmittance of 80% or more defined by JIS K7361 and a haze degree defined by JIS K7361 of 60% or less.
If the total light transmittance of the transparent paper is less than 80% or the haze degree is more than 60%, it is difficult to read characters and barcodes through the transparent paper because of low transparency.
The basis weight of the transparent sheet is preferably 10 to 100 g / ^{m 2,} and more preferably 20~45g / ^{m 2.} When the basis weight of the transparent paper is equal to or more than the lower limit value, the dimensional stability becomes higher, the generation of wrinkles can be suppressed, and breakage can be prevented. On the other hand, if the basis weight of the transparent paper is not more than the above upper limit value, sufficiently high transparency can be secured, and flexibility and workability during processing are enhanced.

The pulp constituting the transparent paper is a pulp having an irregular freeness measured by the following measuring method of 100 to 600 ml. Here, the irregular freeness is the freeness (freeness measured by changing the amount of pulp collected from 3 g to 0.3 g and from the JIS standard screen plate to 80 mesh wire in the Canadian Standard Freeness Method prescribed in JIS P8121. ).
When the irregular freeness of the pulp is less than the lower limit value, the dimensional stability of the transparent paper is lowered, and blurring tends to occur. When the upper limit value is exceeded, the transparency of the transparent paper may be lowered.
The irregular freeness of the pulp is preferably 150 to 500 ml, and more preferably 200 to 400 ml.

Pulp having an irregular freeness in the above range can be obtained by beating the pulp raw material so as to be pulverized more finely than when producing pulp for use in ordinary papermaking.
Examples of pulp raw materials include softwood bleached chemical pulp, hardwood bleached chemical pulp, cotton linter, waste paper pulp, mechanical pulp, and the like. These may be used alone or in combination of two or more. . Among the pulp raw materials, soft paper bleached chemical pulp and hardwood bleached chemical pulp are preferable because the transparency of the transparent paper becomes higher. Bleached chemical pulp is pulp obtained by treating wood with a method such as a kraft method or a sulfite method.
When beating, various beating machines such as a disc refiner, a conical refiner, and a cylindrical refiner can be used.

  In the transparent paper, pulp is the main component. Specifically, the pulp content in the transparent paper is preferably 50 to 99.9% by mass, more preferably 70 to 99.5% by mass. Preferably, it is 80-99 mass%. If the pulp content in the transparent paper is equal to or higher than the lower limit value, paper can be easily produced. If the pulp content is equal to or lower than the upper limit value, the aqueous resin can be sufficiently contained, and the dimensional stability of the transparent paper is further improved. be able to.

The aqueous resin is at least one of a water-soluble resin and a water-dispersible resin.
Examples of the water-soluble resin include cellulose derivatives and water-soluble polymers.
Examples of the cellulose derivative include carboxymethyl cellulose and hydroxypropyl methyl cellulose.
Examples of the water-soluble polymer include polyvinyl pyrrolidone, polyacrylamide, polyethylene oxide, and a polymer having an acid group such as a carboxy group or a sulfo group (for example, a styrene / acrylic acid copolymer).
Water-dispersible resins include wax emulsions and water-insoluble polymer emulsions.
Examples of the wax include paraffin, higher fatty acid, fatty acid amide, fatty acid alcohol ester and the like.
Examples of the water-insoluble polymer include polyacrylic acid ester, polymethacrylic acid ester, polyvinyl chloride, polyvinyl acetate, polystyrene, polyester, polyurethane, polyamide, and copolymers thereof.
The water-soluble resin and the water-dispersible resin may be used alone or in combination of two or more.
Among the water-based resins, a styrene / (meth) acrylic acid copolymer having a styrene unit and an acrylic acid unit or a methacrylic acid unit is preferable because the effect of improving transparency and dimensional stability is great. The styrene / (meth) acrylic acid copolymer may have monomer units (acrylic acid ester units, methacrylic acid ester units, etc.) other than styrene units, acrylic acid units and methacrylic acid units.
The acid value of the styrene / (meth) acrylic acid ester copolymer is preferably 50 to 500 mgKOH / g, and more preferably 150 to 300 mgKOH / g. If the acid value of the styrene / (meth) acrylic acid ester copolymer is not less than the lower limit, the dimensional stability of the transparent paper can be further improved, and if it is not more than the upper limit, styrene / ( A (meth) acrylic acid ester copolymer can be obtained.

The aqueous resin is a resin having a B-type viscosity of 35 mPa · s or less, preferably 20 mPa · s or less, more preferably 10 mPa · s or less, in an aqueous resin-containing liquid prepared to have an aqueous resin concentration of 10% by mass. It is. Here, the B type viscosity is a viscosity at 25 ° C. defined in JIS Z8803-1.
Said B-type viscosity becomes a parameter | index of the average molecular weight of aqueous resin. That is, the lower the B-type viscosity of the aqueous resin-containing liquid, the smaller the average molecular weight of the aqueous resin. Therefore, an aqueous resin having a B-type viscosity of 35 mPa · s or less of the aqueous resin-containing liquid has a small average molecular weight.
Aqueous resin with an aqueous resin concentration of 10% by mass and a B-type viscosity exceeding 35 mPa · s has a high molecular weight and low permeability between pulps, so the dimensional stability of transparent paper cannot be increased. There is. Moreover, since the B-type viscosity of the said aqueous resin containing liquid exceeds 35 mPa * s, since the permeability | transmittance between pulp becomes non-uniform | heterogenous, it exists in the tendency for the transparency uniformity of transparent paper to become low.

The content ratio of the aqueous resin in the transparent paper is 0.1 to 50% by mass, preferably 0.5 to 30% by mass, and more preferably 1.0 to 15% by mass. Here, the content ratio of the aqueous resin contained in the transparent paper is measured by heating the transparent paper and thermally decomposing it, and analyzing the generated gas using gas chromatography.
When the content ratio of the aqueous resin in the transparent paper is less than the lower limit, the dimensional stability of the transparent paper is lowered, blurring tends to occur, and the uniformity of transparency may be lowered. On the other hand, when the content ratio of the aqueous resin exceeds the upper limit, transparency, particularly the haze degree, increases, and it becomes difficult to read characters and barcodes through transparent paper.

Moreover, fibers other than pulp, such as rayon, polyvinyl alcohol fiber, polyamide fiber, and polyester fiber, may be included in the transparent paper as long as the effects of the present invention are not impaired.
Further, the transparent paper contains additives that are used in normal papermaking, for example, a sizing agent, a size fixing agent, a wet paper strength agent, and a freeness improving agent, as long as the permeability of the aqueous resin is not impaired. It doesn't matter.

The transparent paper of this invention can be manufactured with the manufacturing method of the following (a) or (b), for example.
(A) Making a base paper by making a slurry containing pulp having an anomalous freeness in the above-mentioned range, coating the base paper with a coating liquid containing an aqueous resin, impregnating, and size-pressing as necessary, A method of calendering after drying.
(B) A method of producing a base paper by making a slurry containing pulp and an aqueous resin having an irregular freeness within the above range, performing size pressing as necessary, drying, and calendering.

In the production methods (a) and (b), the paper machine used for paper making is not particularly limited. For example, a long net paper machine, a twin wire paper machine, an on-top type twin wire paper machine, etc. Can be mentioned.
In the method (a), the method for coating the base paper with a coating solution containing an aqueous resin is not particularly limited, and various coating devices such as a gravure coater, a blade coater, an air knife coater, a roll coater, a bar coater, A method of coating using an impregnation machine can be applied. Among the coating apparatuses, a roll coater is preferable because the base paper is easily impregnated with a coating liquid containing an aqueous resin.
Moreover, the coating of the coating liquid containing an aqueous resin may also serve as a size press.
In the method (b), an additive used in normal papermaking may be added to the slurry containing pulp and aqueous resin.
In the manufacturing methods (a) and (b), examples of the calendar equipment used in the calendar process include a machine calendar, a soft calendar, a super calendar, and a gloss calendar.

According to the production methods (a) and (b) above, it is possible to easily obtain a transparent paper having a total light transmittance of 80% or more and a haze degree of 60% or less.
That is, when the specific aqueous resin is contained in the irregular freeness pulp in the specific range, the total light transmittance of the transparent paper is obtained by a normal transparent paper manufacturing process that excludes the air of the pulp fibers by calendaring. Can be easily 80% or more and the haze degree can be 60% or less.

In the transparent paper of this invention, the said aqueous resin is included, The dimensional stability with respect to a humidity change is improved, improving transparency.
That is, since the aqueous resin used in the present invention has a low molecular weight, it is highly permeable and easily penetrates between pulps in the paper. The aqueous resin that has penetrated between the pulps can coat the hydroxy groups of the cellulose. By covering the hydroxy group of cellulose with an aqueous resin, adsorption of water molecules to the hydroxy group of cellulose can be suppressed. Thereby, in order to make a pulp hard to absorb moisture, the dimensional change by pulp moisture absorption can be suppressed. Therefore, since the transparent paper contains the water-based resin, the blur can be suppressed even if the humidity changes.
Moreover, since the space | gap between pulp is filled with aqueous resin, the light scattering property of transparent paper can be reduced. Therefore, by including the aqueous resin, the transparency of the transparent paper is increased, and the uniformity of the transparency is also increased. Therefore, the transparent paper of the present invention can be sufficiently used as an alternative material for a plastic transparent film.
In addition, transparent paper containing water-based resin can be recycled without hindrance. That is, when the transparent paper is redissolved with the pulper, the aqueous resin moves to water and is easily removed, so that the paper making of the recycled paper is not hindered.

Transparent paper is suitably used as the window of an envelope with a window.
When the transparent paper of the present invention is used for a window, when producing an envelope with a window, the size of the window is stabilized, so that the envelope can be easily glued as designed, and after the glue, wrinkles and deflection are generated. Can be prevented.
Moreover, since the transparency of the window is high, uniform, and blurring is suppressed, the portion of the envelope enclosed with the window can be seen clearly through the window. Therefore, when characters or barcodes are printed on the portion of the envelope that overlaps the windows, the characters or barcodes can be easily read through the windows.

Hereinafter, the present invention will be described in more detail with reference to Examples and Comparative Examples. However, the present invention is not limited to the following examples.
In addition, the B type viscosity in the following examples is a viscosity at 25 degreeC prescribed | regulated to JISZ8803-1.

Example 1
Using a double disc refiner, 100% by mass of softwood kraft pulp (NBKP) was beaten so that the irregular freeness was 250 ml, to obtain a slurry containing beaten pulp.
A sulfuric acid band and a freeness improver were added to the slurry to prepare a papermaking pulp slurry. At that time, the pulp concentration of the papermaking pulp slurry was 4.0% by mass when the slurry was 100% by mass, the sulfuric acid band was 1.0% by mass when the slurry was 100% by mass, The improver was 0.5% by mass when the slurry was 100% by mass.
Next, the papermaking pulp slurry was made using a long web paper machine to obtain a base paper, and then the base paper was size-pressed using a 2-roll size press. At that time, as the size press solution, a styrene / acrylic acid copolymer (Johncrill 57J, manufactured by BASF Japan, styrene / acrylic acid copolymer having a 10% by mass B-type viscosity of 5 mPa · s) is used. It was used. In the size press, when the total solid content of the paper after the size press is 100% by mass, the content ratio of the solid content of styrene / acrylic acid copolymer is 5.4% by mass, and The size press solution was applied so that the water content was 20% by mass.
Thereafter, the size-pressed paper was supercalendered to obtain a transparent paper.

(Example 2)
Implemented except that the size press solution was applied so that the content of solid content of styrene / acrylic acid copolymer was 1.4% by mass when the total solid content of the paper after size pressing was 100% by mass. In the same manner as in Example 1, a transparent paper was obtained.

(Example 3)
Implemented except that the size press solution was applied so that the solid content of the styrene / acrylic acid copolymer solids was 12.5% by mass when the total solid content of the paper after size press was 100% by mass. In the same manner as in Example 1, a transparent paper was obtained.

Example 4
NBKP was beaten so as to have an irregular freeness of 450 ml to prepare a slurry containing beaten pulp, and a transparent paper was obtained in the same manner as in Example 1 except that this slurry was used.

(Example 5)
A transparent paper was obtained in the same manner as in Example 1 except that the styrene / acrylic acid copolymer was changed to one having a B-type viscosity of 15 mPa · s in a solution having a concentration of 10% by mass.

(Example 6)
A transparent paper was obtained in the same manner as in Example 1 except that the styrene / acrylic acid copolymer was changed to one having a B-type viscosity of 30 mPa · s in a solution having a concentration of 10% by mass.

(Example 7)
Implemented except that the size press solution was applied so that the solid content of the styrene / acrylic acid copolymer solid content was 0.1% by mass when the total solid content of the paper after size press was 100% by mass. In the same manner as in Example 1, a transparent paper was obtained.

(Example 8)
Example 1 except that the size press solution was applied so that the content of solid content of the styrene / acrylic acid copolymer was 30% by mass when the total solid content of the paper after size pressing was 100% by mass. In the same manner, a transparent paper was obtained.

(Comparative Example 1)
Transparent paper was obtained in the same manner as in Example 1 except that the size press solution was changed to water.

(Comparative Example 2)
A transparent paper was obtained in the same manner as in Example 1 except that the styrene / acrylic acid copolymer was changed to one having a B-type viscosity of 40 mPa · s in a 10% by mass solution.

(Comparative Example 3)
NBKP was beaten so that the irregular freeness was 50 ml to prepare a slurry containing beaten pulp, and a transparent paper was obtained in the same manner as in Example 1 except that this slurry was used.

(Comparative Example 4)
NBKP was beaten so that the irregular freeness was 610 ml to prepare a slurry containing beaten pulp, and a transparent paper was obtained in the same manner as in Example 1 except that this slurry was used.
In addition, about the beaten pulp in this example, it was 50 ml when normal freeness was measured according to the Canadian standard freeness method prescribed | regulated to JISP8121.

<Evaluation>
About the obtained transparent paper, the total light transmittance, the haze degree, the uniformity of transparency, the readability of characters through the transparent paper, the dimensional change rate, and the occurrence of unevenness were measured or evaluated by the following methods. The results are shown in Tables 1 and 2.

[Total light transmittance, haze degree]
The total light transmittance and the haze degree were measured by the method specified in JIS K7361.
The haze degree can be obtained from the formula of (light quantity of scattered light) / (light quantity of all light transmitted light) × 100.

[Transparency uniformity]
The transparent paper was visually observed and the uniformity of transparency was evaluated according to the following criteria.
A: Excellent transparency uniformity.
○: Transparency is almost uniform or uneven, and is not conspicuous.
Δ: Although there is unevenness in transparency, it is a level at which it is determined that there is no practical problem.
X: Transparency is uneven, and there are problems in appearance and practical use.

[Ease of reading characters through transparent paper]
The printed matter on which characters were printed was placed on a transparent paper, and when the characters on the printed matter were visually observed through the transparent paper, the readability of the characters was evaluated according to the following criteria.
The easier it is to read characters through the transparent paper, the easier it is to read the destination when the transparent paper is used as the envelope window. Therefore, it becomes suitable as an envelope with a window for mailing.
○: The characters on the printed matter can be read without problems.
(Triangle | delta): It is somewhat difficult to read the character of printed matter.
×: The characters on the printed matter cannot be read.

[Dimensional change rate]
The obtained transparent paper was cut so that the length (flow direction at the time of papermaking) was 1.5 cm and the width (width direction at the time of papermaking) was 10.0 cm to prepare a test piece. The test piece was left in an environment of a temperature of 23 ° C. and a relative humidity of 50% for 24 hours, and then the dimensions of the test piece were measured. Next, the test piece was left in an environment of a temperature of 23 ° C. and a relative humidity of 80% for 8 hours, and then the dimensions of the test piece were measured. Next, the test piece was left in an environment of a temperature of 23 ° C. and a relative humidity of 25% for 8 hours, and the dimensions of the test piece were measured.
_Then, the equation of _{{(t 2 -t 3) /} t 1} × 100, was calculated dimensional change.
t ₁ : Horizontal length of the transparent paper after being left in an environment with a relative humidity of 50% and before being left in an environment with a relative humidity of 80% t ₂ : Transparent paper while being left to stand at a relative humidity of 80% The length t ₃ in which the horizontal direction of the paper changed: the length in which the horizontal direction of the transparent paper changed while left at 25% relative humidity. If the dimensional change rate exceeds 1.8%, the dimensional stability is practical. Is insufficient.

[Bokotsuki]
The transparent paper was left for 3 hours in an environment at a temperature of 23 ° C. and a relative humidity of 80%. Thereafter, the transparent paper was visually observed and the unevenness was evaluated according to the following criteria.
A: Bokeh is not seen.
○: Slightly blurred, but at a level where there is no problem.
(Triangle | delta): Although it is uneven, it is a level judged to be able to endure practically.
X: Bokeh is severe and is a level at which it is judged that there is a problem in practical use.

The transparent paper of Examples 1 to 8 containing 0.1 to 50% by mass of an aqueous resin having an irregular freeness of pulp of 100 to 600 ml and a viscosity of 10% by mass of 35 mPa · s or less has a total light transmittance. It was large and the haze value was small. Moreover, the transparent paper of Examples 1-8 had a small dimensional change rate, and it was hard to produce a blur. In addition, the transparent papers of Examples 1 to 8 were excellent in uniformity of transparency and ease of reading characters through the transparent paper.
On the other hand, the transparent paper of Comparative Example 1 containing no aqueous resin had a large dimensional change rate and was likely to be blurred. Moreover, the transparent paper of Comparative Example 1 had a large haze value and non-uniform transparency.
The transparent paper of Comparative Example 2 containing an aqueous resin having a B-type viscosity of 40 mPa · s in a 10% by mass solution had a large haze value, a large dimensional change rate, and was susceptible to unevenness. Further, the transparent paper of Comparative Example 2 had low uniformity of transparency, and it was difficult to read characters through the transparent paper.
The transparent paper of Comparative Example 3 in which the irregular freeness of the pulp was 50 ml had a large dimensional change rate, and was likely to be uneven.
The transparent paper of Comparative Example 4 having an irregular freeness of pulp of 610 ml had a low total light transmittance, a high haze value, a low uniformity of transparency, and it was difficult to read characters through the transparent paper.

Claims (2)

A transparent paper having a total light transmittance of 80% or more specified by JIS K7361 and a haze degree specified by JIS K7361 of 60% or less,
The following irregular freeness includes 100 to 600 ml of pulp, and an aqueous resin composed of at least one of a water-soluble resin and a water-dispersible resin,
The aqueous resin is a resin in which the B-type viscosity at 25 ° C. defined in JIS Z8803-1 is 35 mPa · s or less of an aqueous resin-containing liquid prepared so that the aqueous resin concentration is 10% by mass. Yes,
Transparent paper whose content rate of this aqueous resin is 0.1-50 mass%.
(Anomaly Freeness)
Freeness measured by changing the amount of collected pulp from 3g to 0.3g and from JIS standard screen plate to 80 mesh wire in Canadian Standard Freeness Method stipulated in JIS P8121.   The transparent paper according to claim 1, wherein the aqueous resin is a styrene / (meth) acrylic acid copolymer.