JP3860815B2 - Crepe paper manufacturing method and crepe paper - Google Patents

Description

  The present invention relates to a crepe paper used for a liquid-retaining body material, tissue paper, toilet roll, and the like interposed between a top sheet and a back sheet of a napkin or a paper diaper.

Crepe paper is produced, for example, by pressing wet paper onto the surface of a heated cylindrical Yankee-dryer, passing through a certain amount of drying, and then peeling the paper body from the Yankee dryer through a doctor blade. The That is, the paper body accumulates a potential crepe forming force in the process of sticking to the smoothed surface of the dryer and drying, and after being peeled off from the surface of the cylindrical Yankee dryer by a doctor blade, Form a crepe on the bend. Therefore, in order to form a paper body having a good quality crepe, good adhesion of the paper to the heated cylindrical Yankee dryer is required.
Special table 10-510886

  By the way, crepe paper is often used for products that are assumed to be used in a wet state, such as tissue paper and toilet paper, and requires water absorption and wet paper strength. Conventionally, in order to increase the wet paper strength of crepe paper, it has been dealt with mainly by increasing the beating degree of the raw material pulp. However, since the beating of the raw material pulp increases the density of the paper, the softness and water absorption decrease. However, with the recent improvement in living standards, there is an increasing demand from consumers for softness and high water absorption in tissue paper that is used for crepe paper. In the paper industry, water absorption is soft in crepe paper. It is a challenge to improve both the strength and wet paper strength.

  Accordingly, a main object of the present invention is to provide a crepe paper having both a high wet paper strength and flexibility while having a water absorption performance much higher than that of a conventional crepe paper.

The present invention that has solved the above problems is as follows.
<Invention of Claim 1>
A method for producing a crepe paper having a basis weight of 10 to 50 g / m ² , a wet tensile strength (horizontal) of 40 cN / 25 mm or more, and a water absorption of 13.0 g / g or more,
After slurrying raw material pulp containing 40-100% by weight of softwood pulp and beating it with a down width of 30 cc or less,
While stirring the slurry, a cationic wet paper strength enhancer of 0.02 to 6.0% by weight of the dry weight of the raw pulp is added thereto,
Thereafter, 0.01 to 2.0% by weight of the dry weight of the raw pulp, an anionic carboxyl methyl cellulose having a degree of etherification of 0.3 to 0.9 is added,
Thereafter, a papermaking raw material obtained by adding an amphoteric or anionic softening agent of 0.01 to 2.0% by weight of the dry weight of the raw material pulp,
Make paper and make wet paper or dry paper,
A method for producing a crepe paper, characterized in that the wet paper or dry paper is attached to a Yankee dryer heated using a cationic adhesive, and then creping is performed.

<Invention of Claim 2>
A crepe paper having a basis weight of 10 to 50 g / m ² , a wet tensile strength (horizontal) of 40 cN / 25 mm or more, and a water absorption of 13.0 g / g or more,
After slurrying raw material pulp containing 40 to 100% by weight of softwood pulp and beating it with a down width of 30 cc or less,
While stirring the slurry, a cationic wet paper strength enhancer of 0.02 to 6.0% by weight of the dry weight of the raw pulp is added thereto,
Thereafter, 0.01 to 2.0% by weight of the dry weight of the raw pulp, an anionic carboxyl methyl cellulose having a degree of etherification of 0.3 to 0.9 is added,
Thereafter, a papermaking raw material obtained by adding an amphoteric or anionic softening agent of 0.01 to 2.0% by weight of the dry weight of the raw material pulp,
Make paper and make wet paper or dry paper,
A crepe paper obtained by carrying out a crepe treatment in which the wet paper or dry paper is attached to a Yankee dryer heated using a cationic adhesive and then peeled off.

  In the present invention, by adding anionic carboxymethylcellulose, the cationic wet strength agent and the pulp fiber are linked in a chain, and the fixability and fixing amount of the wet strength agent to the pulp fiber are increased. For this reason, even when the beating degree is not increased, the paper strength when wet can be expressed, so that high water absorption is obtained and softness is improved. In this case, the degree of etherification of the anionic carboxymethylcellulose is preferably 0.3 to 0.9. And it is suitable for the addition amount of a wet paper strength enhancer to be the weight of 0.02-6.0 weight% of the said raw material pulp dry weight.

  Moreover, it is suitable for the addition amount of a softening agent to add the cationic or amphoteric softening agent of 0.01 to 2.0 weight% of raw material pulp dry weight. As a result, a flexible crepe paper can be obtained, and a high water absorption and wet strength can be obtained.

Further, the basis weight after papermaking is preferably 10 to 50 g / m ² , and the wet tensile strength (lateral) is preferably 40 cN / 25 mm or more.

Next, embodiments of the present invention will be described in detail below.
The crepe paper according to the present invention is obtained after papermaking a slurryed pre-papermaking raw material containing softwood pulp, anionic carboxymethylcellulose (hereinafter referred to as CMC), and a cationic wet paper strength enhancer. And creping.

  The ratio of the softwood pulp in the raw material pulp is 40 to 100% by weight. Since softwood pulp has a long fiber length compared to hardwood pulp, the paper quality after papermaking is soft and the softness tends to be expressed. When the ratio of the softwood pulp is less than 40%, it tends to be hard. Pulp other than the softwood pulp in the raw material pulp is not particularly limited. Hardwood pulp or synthetic pulp can be used. These raw material pulps can be used after beating appropriately, but the preferred beating degree in the present invention is about 0 to 30 cc in the CSF down width, which is remarkably lower than the beating width of 130 to 200 cc of the prior art. Since the beating degree can be remarkably lowered without beating, the pulp fiber is less damaged, and the resulting paper becomes porous and excellent in water absorption and soft.

  CMC, softener and wet paper strength enhancer are added to the raw pulp. The softener, wet paper strength enhancer, and CMC may be added after slurrying the raw material pulp, or may be added immediately after or after drying the wet part of the paper machine or the dryer. Addition of CMC, a softening agent, and a wet paper strength enhancer increases the bond strength between fibers and increases the paper strength when wet even if the beating degree is low. Particularly preferably, after the raw pulp is slurried and beaten, a wet paper strength enhancer is added while stirring the slurry, and then CMC and softener are added in this order. In this way, the softener and the wet paper strength enhancer are bonded to the CMC and the pulp fiber evenly, and the chain combination of the pulp fiber, CMC, softener, and wet paper strength enhancer is generated, resulting in strong and wastefulness. No net-like bond is constructed, and the paper strength becomes stronger even if the beat is not beaten or the beat width is small.

  Here, the degree of etherification of CMC is desirably 0.3 to 0.9. If it is less than 0.3, the effect of promoting the binding of the softener and paper strength enhancer to the pulp fiber is small, and even if it exceeds 0.9, the effect of promoting the binding is small. The amount of CMC used may be appropriately determined in consideration of the degree of etherification and the types of softener and paper strength enhancer used. Preferably, the dry weight of the raw material pulp is 0.01 to It is 2.0 weight% of weight mixing | blending.

  On the other hand, as the wet paper strength enhancer, conventionally known cationic wet strength agents can be used. About the usage-amount, it is suitable to use the weight of 0.02-6.0 weight% of the dry weight of the said raw material pulp with respect to raw material pulp. When the amount is less than 0.02% by weight, it is difficult to obtain a paper strength enhancing effect. When the amount exceeds 0.6% by weight, the softener is inhibited from fixing to the pulp fiber, so that it is difficult to express softness.

  On the other hand, the softener according to the present invention needs to be amphoteric or cationic because CMC is anionic and in the papermaking system, the pulp fiber is negatively charged. Examples of the softening agent include fatty acid esters and quaternary ammonium salts.

  About the usage-amount of a softening agent, it is desirable to set it as the weight of 0.01 to 2.0 weight% of the dry weight of raw material pulp. If the amount is less than 0.01% by weight, it is difficult to obtain the effect of the softening agent, and if the amount added exceeds 2.0% by weight, the fixing of the wet paper strength enhancer to the pulp fiber is inhibited and the water absorption is improved. It becomes difficult.

  Here, the use of the softening agent improves the softness of the paper because of the common mechanism because the softening agent is a surfactant. However, there have been various problems in the past. As is well known, in the papermaking system, the surface of the pulp fiber is negatively charged, so that a cationic or amphoteric surfactant is conventionally used for flexibility. Therefore, the cationic group which is a hydrophilic group is adsorbed on the pulp fiber surface, the lipophilic group is arranged outward, and if this lipophilic group exists between the fibers microscopically, the friction between the fibers is reduced, It feels soft by giving the sheet a slimy feeling. However, the lipophilic group between the fibers inhibits hydrogen bonding between the fibers and causes a decrease in strength. Moreover, since this lipophilic group exists in the fiber surface, water absorption deteriorates. In the present invention, the presence of CMC and a wet paper strength enhancer is present, and the use of an appropriate amount of a softening agent makes it possible to obtain an effective softening effect without causing a decrease in water absorption and paper strength.

  On the other hand, in the present invention, the paper machine for making the paper-making raw material is not particularly limited, and the paper can be produced by a conventionally known paper machine. The creping treatment after the papermaking raw material is made on wet paper or dry paper can be performed by a conventionally known method.

  For example, as described in a conventional example, wet paper is pressed and adhered to the surface of a heated cylindrical Yankee dryer, and after a certain amount of drying, the paper body is removed from the Yankee dryer via a doctor blade. It can be peeled off and creped.

  Here, the paper body accumulates potential crepe forming force in the process of sticking to the smoothed surface of the dryer and drying, and after it is peeled off from the cylindrical Yankee dryer surface by the doctor blade, it is instantaneous. In order to form a bent crepe, the paper adherence to a heated cylindrical Yankee dryer is important for forming a paper body having a good quality crepe, and the degree greatly affects the crepe form. In such a crepe treatment, a crepe aid containing a certain amount of adhesive and release agent is continuously sprayed on the surface of a normal cylindrical Yankee dryer. In the present invention, the presence of anionic carboxymethyl cellulose is present. Thus, when a cationic adhesive is used, the adhesion to the Yankee dryer is improved and a good crepe form is formed, and the crepe paper is superior in appearance, feel and water absorption.

Subsequently, comparative tests between Conventional Examples 1 to 3 and the examples of the present invention were conducted, and will be described in detail below.
The conventional example was a crepe paper (conventional product) currently on the market. The papermaking conditions of these crepe papers are as shown in Table 1 below. In addition, the softening agent used in the Example is fatty acid ester. Moreover, the measurement method of the paper quality of the Example shown in following Table 1 and a prior art example is as follows.
[Dry tensile strength]
Measured based on JIS P 8113.
[Wet tensile strength]
Measured based on JIS P 8135.
[Water absorption]
Cutting a crepe paper according to the example and conventional example 100mm square was measured for the sample S _1. The measurement sample S ₁ was prepared by five sheets per the examples and the conventional example were measured weight of each sample for measurement S _1. Next, as shown in FIG. 1, the measurement sample S ₁ is placed on the planar net-like sample support member 10 of the measuring instrument 1, and the sample support member 10 is lowered toward the bat 11 filled with pure water below. The measurement sample S ₁ is floated on pure water, and immediately after the pure water is immersed in the entire measurement sample S ₁ , the sample support member 10 is raised and left for 30 seconds to drain the measurement sample S ₁ and then again. The weight of the measurement sample S ₁ was measured. Then, the weight of the measurement sample that was purely immersed was divided by the weight of the measurement sample before immersion (during drying) to obtain an increased weight%, and the average of the five samples was calculated as the water absorption.

  As shown in Table 1, the crepe paper of the present invention has much higher water absorption and wet tensile strength than the conventional product compared to the conventional product.

  It can be used for liquid-retaining body materials, tissue paper, toilet rolls and the like that are interposed between the top sheet and the back sheet of napkins and paper diapers that require flexibility and water absorption.

It is a perspective view which shows the outline of a water absorption amount measurement.

Explanation of symbols

1 ... water absorption measuring device, S _1, S ₂ ... specimen support member, 11 ... batt.

Claims (2)

A method for producing a crepe paper having a basis weight of 10 to 50 g / m ² , a wet tensile strength (horizontal) of 40 cN / 25 mm or more, and a water absorption of 13.0 g / g or more,
After slurrying raw material pulp containing 40 to 100% by weight of softwood pulp and beating it with a down width of 30 cc or less,
While stirring the slurry, a cationic wet paper strength enhancer of 0.02 to 6.0% by weight of the dry weight of the raw pulp is added thereto,
Thereafter, 0.01 to 2.0% by weight of the dry weight of the raw pulp, an anionic carboxyl methyl cellulose having a degree of etherification of 0.3 to 0.9 is added,
Thereafter, a papermaking raw material obtained by adding an amphoteric or anionic softening agent of 0.01 to 2.0% by weight of the dry weight of the raw material pulp,
Make paper and make wet paper or dry paper,
A method for producing a crepe paper, characterized in that the wet paper or dry paper is attached to a Yankee dryer heated using a cationic adhesive, and then creping is performed. A crepe paper having a basis weight of 10 to 50 g / m ² , a wet tensile strength (horizontal) of 40 cN / 25 mm or more, and a water absorption of 13.0 g / g or more,
After slurrying raw material pulp containing 40 to 100% by weight of softwood pulp and beating it with a down width of 30 cc or less,
While stirring the slurry, a cationic wet paper strength enhancer of 0.02 to 6.0% by weight of the dry weight of the raw pulp is added thereto,
Thereafter, 0.01 to 2.0% by weight of the dry weight of the raw pulp, an anionic carboxyl methyl cellulose having a degree of etherification of 0.3 to 0.9 is added,
Thereafter, a papermaking raw material obtained by adding an amphoteric or anionic softening agent of 0.01 to 2.0% by weight of the dry weight of the raw material pulp,
Make paper and make wet paper or dry paper,
A crepe paper obtained by carrying out a crepe treatment in which the wet paper or dry paper is attached to a Yankee dryer heated using a cationic adhesive and then peeled off.

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