JP7375686B2 - moisturizing tissue paper - Google Patents

Description

The present invention relates to sanitary paper in the form of a thin film containing a humectant, in particular to a moisturizing tissue paper.

As one type of sanitary paper, moisturizing tissue paper consisting of a sheet containing a humectant is known. Moisturizing tissue paper has a plurality of sheets of tissue paper coated with a moisturizing agent.
The above-mentioned moisturizing tissue paper is required to have a good texture such as being moister and softer than tissue paper to which no moisturizer is applied (hereinafter referred to as "dry tissue"). In addition to these additional physical properties, it is also required to have resistance to tearing, similar to dry tissue. A moisturizing tissue paper that combines such basic physical properties with additional physical properties has a good feel and is resistant to tearing, which satisfies the user's sensuality.

Therefore, a moisturizing tissue paper with improved sensuality has been studied by specifying the tensile strength in the CD direction (Cross Direction) and MD direction (Machine Direction) within the range of threshold 1' to threshold 2' shown below. (See Patent Document 1).
・Threshold 1': Lower limit value to ensure basic physical properties ・Threshold 2': Upper limit value to ensure additional physical properties

Japanese Patent Application Publication No. 2013-188291

However, moisturizing tissue paper can be pulled in various directions, so if the tensile strength in the CD direction or MD direction is only specified, there is a risk of tearing when the moisturizing tissue paper is pulled in a direction other than the direction in which the tensile strength has been specified. , there is also a risk of being broken through in the thickness direction. If the tensile strength is increased in order to suppress such deterioration of basic physical properties, there is a risk that additional physical properties will be decreased due to a decrease in tactility. Therefore, it is difficult to achieve both basic physical properties and additive physical properties, and there is room for improvement in increasing the functionality.

The moisturizing tissue paper disclosed herein was devised in view of the above-mentioned problems, and one of its purposes is to enhance the sensuality of the moisturizing tissue paper. In addition, this purpose is not limited to this purpose, and the present invention also includes operations and effects that are derived from each configuration shown in the "Details of Carrying Out the Invention" described later and that cannot be obtained with conventional techniques. It can be positioned for other purposes.

The inventors of the present invention have found that sensory performance is satisfied by a moisturizing tissue paper having a dry bursting strength within a predetermined range. That is, it has been found that the sensory properties of moisturizing tissue paper can be improved by specifying the dry bursting strength within the range of Threshold 1 to Threshold 2 shown below.
・Threshold 1: Lower limit value to ensure basic physical properties ・Threshold 2: Upper limit value to ensure additional physical properties

The specific structure of the moisturizing tissue paper disclosed here includes a sheet containing a moisturizing agent, the amount of the moisturizing agent applied is 25.0 [%] or more, and a test in which four of the sheets were stacked one on top of the other. Under the measurement condition in which the body was attached to a circular frame with an inner diameter of 50 [mm], a spherical measuring tip with a diameter of 16 ± 0.2 [mm] was pushed in at a speed of 125 ± 5 [mm/min] as described above. In the measurement method of pushing into the center of a circular frame, the dry bursting strength, which is the strength when the test piece is pierced in the direction of polymerization of the sheets with the measuring element in a dry state, is 1.80 [N/4 sheets] It is above and below 3.00 [N/4 sheets].

According to the disclosed moisturizing tissue paper, sensuality can be enhanced.

Hereinafter, a moisturizing tissue paper as an embodiment will be described.
The moisturizing tissue paper of this embodiment has a bursting strength specified within a predetermined range.
"Bursting strength" is strength measured in accordance with ISO 12625-9; 2015, and is measured by a predetermined method under predetermined conditions. The term "predetermined state" as used herein means a state in which a test specimen made of stacked sheets constituting moisturizing tissue paper is attached to a circular frame. The "predetermined method" refers to a method of measuring the strength when the test specimen is pierced (ruptured) in the direction of polymerization of the sheet with a spherical probe.

Such bursting strength can be said to be the strength in various linear directions along the extending plane of the test specimen (for this reason, it can also be said to be "two-dimensional strength"). On the other hand, the tensile strength in the CD direction (also referred to as the "transverse direction") and MD direction (also referred to as the "longitudinal direction") mentioned above in the [Problem to be Solved by the Invention] section is limited to the strength in the linear direction. It can be said that there is (from this it can also be said to be "one-dimensional strength").
As the bursting strength increases, the moisturizing tissue paper becomes less likely to tear due to external forces in various directions that may be applied, but the texture of the moisturizing tissue paper tends to deteriorate.

Thus, a moisturizing tissue paper comprising a sheet of specimen having a bursting strength with a predetermined lower limit specified is advantageous over conventional moisturizing tissue paper having only a tensile strength with a predetermined lower limit specified. The following effect 1 can be obtained.
・Effect 1: In conventional moisturizing tissue paper, it is difficult to pull in directions other than the specified tensile strength.
Not only is it difficult to tear when stretched, but it is also difficult to break through in the thickness direction.

Furthermore, the moisturizing tissue paper provided with the sheet of the specimen having the bursting strength for which the predetermined upper limit has been specified can also obtain the following effect 2.
- Effect 2: A good tactile sensation can be obtained.
Therefore, the basic physical properties of Effect 1 and the additional physical properties of Effect 2 can be achieved at the same time, and the sensory properties can be enhanced.

Specifically, the moisturizing tissue paper of this embodiment has a dry bursting strength of 1.80 [N/4 sheets] from the viewpoint of ensuring the basic physical properties of Effect 1, as measured using a measuring tip in a dry state. The above is 3.00 [N/4 sheets] or less from the viewpoint of ensuring the additive properties of Effect 2.

Furthermore, the wet bursting strength measured using a probe in a wet state is 1.70 [N/4 sheet] or more from the perspective of ensuring the basic physical properties of Effect 1, and the perspective of ensuring the additional physical properties of Effect 2. to 2.70 [N/4 sheets] or less. Furthermore, if wet moisturizing tissue paper is not required to have a good feel or strength, it is not necessary to specify the upper and lower limits of the wet bursting strength measured using a probe in the wet state. .
Further, the moisturizing tissue paper of the present embodiment is specified to have a coating amount of a moisturizer, the details of which will be described later, of 25.0% or more. In addition, from the viewpoint of improving additive physical properties, the moisturizing tissue paper preferably has a compression recovery rate (RC) of 36.00 or less, which will be described in detail later, and a hand feel value (HF), which will be described in detail later, of 80 or more. It is preferable.

[I. One embodiment]
In one embodiment described below, the basic structure of the moisturizing tissue paper will be outlined in item [1]. The parameters of the moisturizing tissue paper will be detailed in item [2]. Finally, an example of adjusting the parameters listed in item [1] will be added in item [3].

[1. Basic configuration]
Moisturizing tissue paper comprises a sheet containing a humectant. The "sheet" here refers to a thin film-like sheet of paper (also referred to as "ply").
In this moisturizing tissue paper, a moisturizing agent is applied to a set of two-ply or three-ply tissue paper stacked one on top of the other. However, the present invention does not exclude moisturizing tissue paper in which a moisturizing agent is applied to a single sheet (so-called "1-ply" moisturizing tissue paper).

Moisturizing tissue paper is used in various forms, such as packaged in a box (so-called "box tissue") or packaged in a sachet (so-called "pocket tissue").
The moisturizing tissue paper described above has the following parameters.

[2. Parameter]
In this embodiment, each of the moisturizing tissue papers of Examples 1 to 4 and Comparative Examples 5 and 6 shown in Table 1 below was evaluated after measuring each parameter.

Below, regarding the parameters shown in Table 1 above, basic parameters such as mass and dimensions will be described in subsection [2-1], and detailed parameters such as bursting strength will be described in subsection [2-2]. Evaluation will be discussed in subsection [2-3].

[2-1. Basic parameters]
In this item [2-1], the number of plies, basis weight, paper thickness, and density will be explained in order.
--Number of plies--
The number of plies is the number of sheets constituting one set of moisturizing tissue paper.
--Basic weight--
Basis weight is the mass per unit area of moisturizing tissue paper. This basis weight is a measured value per sheet constituting the moisturizing tissue paper. The basis weight was measured according to JIS P 8124.

--Paper thickness--
Paper thickness is the thickness of a set of moisturizing tissue paper. Specifically, it is the thickness dimension of two sheets stacked on top of each other.
This paper thickness was measured using the following environment, equipment, and method.
・Measurement environment: ISO187 compliant environment (23℃±1℃, humidity 50%〈±2%〉)
・Measuring device: Thickness gauge (manufactured by Highbridge Seisakusho)
・Measurement method: Based on JIS P 8118, pressure 100 [kpa] ± 10 [kpa]
], the pressure surface diameter 16.0 [mm] ± 0.5 [mm] is pressed for 1 second.
Read the value when it is lowered at a speed of 1 [mm] or less.
The above-mentioned paper thickness is preferably in the range of 105 to 140 [μm], more preferably in the range of 105 to 120 [μm].

--density--
Density is the mass per unit volume of moisturizing tissue paper. This density was calculated by doubling the above basis weight and then dividing it by the above paper thickness.
This density is preferably in the range of 0.250 to 0.350 [g/cm ³ ], more preferably in the range of 0.295 to 0.350 [g/cm ³ ].

[2-2. Detailed parameters]
In this item [2-2], bursting strength will be explained in detail. After that, the measurement values by TSA, including the amount of moisturizer applied (hereinafter simply referred to as "application amount"), tensile strength, elongation, hand feel value (hereinafter referred to as "HF"), drop method water absorption, and compression. The characteristics will also be described.

--Bursting strength--
Bursting strength is the strength at which the moisturizing tissue paper bursts.
This bursting strength was measured by the following method under the following environment and conditions.
・Measurement environment: ISO187 compliant environment (23℃±1℃, humidity 50%〈±2%〉)
・Measurement condition: The test specimen made of overlapping sheets constituting moisturizing tissue paper is a circle.
・Measurement method: Strength when the test piece is pierced in the stacking direction of the sheets with a spherical probe
Measure.

Here, two types of burst strength shown below were measured.
・Dry bursting strength: Bursting strength measured using a probe in a dry state ・Wet bursting strength: Bursting strength measured using a probe in a wet state For dry bursting strength, test specimens 1 and 2 below are used. The target was measured.
・Test specimen 1: Test specimen made by stacking two sheets (second specimen)
・Test specimen 2: Test specimen made by stacking four sheets (first specimen)
The wet bursting strength was measured using the above test specimen 2.

In detail, measurements were made using the following equipment, objects, and methods.
・Measuring device: Tissue softness analyzer (abbreviated as “TSA”)
(Emtec Electronic GmbH (Germany))
・Measurement object: 110 [mm] x 110 [mm] square sheet ・Measurement method: Hold the sample to be measured from above and below with a fixture with a hole in the center and fix it.
Ru. Lower the ball-shaped terminal (measuring tip) into the center of the hole, and make sure the sample is not torn.
Read the value when This measurement was carried out 10 times, and these 10 measurements
Take the average of fixed values.

Furthermore, the wet bursting strength was measured after the sample was sandwiched and fixed from above and below, but before the ball-shaped terminal was lowered into the center of the hole, the following procedure was performed.
・Measurement procedure: Take 1000 [μl] of water into a pipettor. pipettor on the side of the bowl
, and drain all the water for 5 seconds.

--Amount of application--
The application amount is the amount of moisturizer applied to the moisturizing tissue paper.
The smaller the amount applied, the lower the moisturizing properties will be, and the more the amount applied, the more likely the moisturizing tissue paper will be damaged.
The application amount is at least 25.0 [%] or more, more preferably 26.0 [%] or more, and even more preferably 27.0 [%] or more, from the viewpoint of ensuring moisture retention. , 28.0[%] or more is particularly preferable. On the other hand, the amount of application is preferably 35.0 [%] or less, more preferably 34.0 [%] or less, and 33.0 [%] or less, from the viewpoint of suppressing damage to the moisturizing tissue paper. It is more preferable that
This coating amount is calculated (measured) using the following formula.
・Formula: Application amount [%] = [(mass of extract)/{(sample amount) - (mass of extract)}]×100
The above coating amount was measured using the following equipment and method: ・Measuring device: Soxhlet extractor ・Measuring method: Using an acetone/ethanol mixed solvent (volume ratio 1:1), under reflux for 4 hours
Interval extraction was performed. Calculate the application amount from the obtained extract and sample amount.
Ta.

--Tensile strength and elongation--
<Tensile strength>
Tensile strength is the magnitude of the load (dry tensile strength) when a dry moisturizing tissue paper is pulled and broken. This tensile strength is measured with a set of two sheets stacked one on top of the other.
The above tensile strength includes the four types listed below.
・T: Tensile strength in the longitudinal direction (measured value)
・Y: Lateral tensile strength (measured value)
・√TY: Geometric mean of longitudinal tensile strength and transverse tensile strength (calculated value)
・Y/T ratio: Ratio of horizontal tensile strength to longitudinal tensile strength (calculated value)

Ordinary tissue paper has a tensile strength greater in the longitudinal direction than in the transverse direction because the raw material fibers are oriented more in the longitudinal direction than in the transverse direction. The moisturizing tissue paper of this embodiment also has such anisotropy in tensile strength.
Therefore, one aspect is that when moisturizing tissue paper is pulled in various directions, the tensile strength in the horizontal direction becomes rate-determining. The greater the strength, the more difficult it is for the moisturizing tissue paper to tear.
Another aspect is that the greater the ratio of the tensile strength in the transverse direction to the tensile strength in the longitudinal direction, the more the anisotropy of strength in the moisturizing tissue paper is suppressed (isotropy of strength is ensured). This tends to ensure overall strength regardless of the direction in which it is pulled.

<Elongation>
Elongation is a parameter representing the ease with which moisturizing tissue paper stretches, and is the degree of elongation when a predetermined load is applied. This elongation is measured with a set of two sheets stacked one on top of the other.
The above elongation includes the following two types.
・Vertical elongation (measured value)
・Lateral elongation (measured value)

When ordinary tissue paper is peeled off from a Yankee roll by a blade that abuts against the roll during the manufacturing process, a crepe (also called "creping") consisting of fine wrinkles is formed. This crepe has a structure in which fine irregularities are continuous along the MD direction corresponding to the longitudinal direction of the tissue paper, and is also present in the tissue paper of the product.
In tissue paper, since the crepe functions as an allowance for stretching in the vertical direction, it is easier to stretch in the vertical direction than in the horizontal direction. The moisturizing tissue paper of this embodiment also has such anisotropy in the degree of elongation.
Although it is presumed that the greater the stretch, the more the load applied to the moisturizing tissue paper is absorbed, it is also presumed that the moisturizing tissue paper becomes thinner when stretched, making it more likely to tear.

<Measurement>
Tensile strength and elongation were measured using the following environment, equipment, and method.
・Measurement environment: ISO187 compliant environment (23℃±1℃, humidity 50%〈±2%〉)
・Measuring device: Universal testing machine TENSILON RTC-1250A (A Co., Ltd.
Manufactured by &D Co.)
・Measurement method: Measure the sheet that makes up the moisturizing tissue paper with a width of 15 [mm] and span length.
A set of samples cut to 100 [mm] was pulled at a tensile speed of 50 [mm/mm].
This is the value obtained by pulling and measuring under the conditions of 10 minutes and calculating the average of 10 measurements.
Ru.
Regarding elongation, it was calculated using the following formula.
Elongation [%] = Amount of elongation of stacked samples [mm] x 100/Span length [mm]

--Measurement values by TSA--
The measured value by TSA is a value measured by a tissue softness analyzer (abbreviated as "TSA" measuring device), and is a parameter representing the quality of thin film paper.
The measured values by this TSA include four types: HF, TS7, TS750, and D. Note that HF, TS7, and TS750 are dimensionless quantities, and these dimensionless quantities are written in Table 1 with [-].
<HF>
HF is an index showing the smoothness of the outer surface of moisturizing tissue paper. This HF becomes an index indicating that the higher the value, the smoother the image. Note that "HF" tends to increase as the amount of moisturizing agent applied increases, and also tends to increase as the basis weight decreases.

<TS7>
TS7 is an index indicating the softness on the surface of the moisturizing tissue paper, and the softer the tissue, the smaller the value. If the moisturizing tissue paper differs only in the presence or absence of irregularities on the surface, the same or almost the same value will be measured regardless of the presence or absence of irregularities, and this TS7 is an index corresponding to "true softness".

<TS750>
TS750 is an index indicating the degree of unevenness of the surface of moisturizing tissue paper. The greater the surface irregularities, such as crepe (also referred to as "creping") or embossing, the greater the TS750 value.
<D>
D is an index showing the stiffness of the moisturizing tissue paper. The higher the stiffness (stiffness), the smaller the value of "D".

<Measurement>
HF, TS7, TS750, and D included in the measured values by TSA were measured using the following environment, device, object, method, and procedure.
・Measurement environment: ISO187 compliant environment (23℃±1℃, humidity 50% (±2%))
・Measuring device: Tissue softness analyzer (abbreviated as “TSA”)
(Emtec Electronic GmbH (Germany))
・Measurement target: Sample with a diameter of 112.8 mm ・Measurement method: Measure TS7 and TS750 from the vibration frequencies shown below, and apply the changes shown below.
D was measured from the amount of shape displacement. Including these TS7, TS750, D
, perform calculations using the paper thickness, basis weight, and number of plies as functions in the following procedure, and calculate the HF
was calculated (measured).
<Vibration frequency>
One bladed rotor is applied to the sample to be measured placed on the sample stage.
After pushing in from above with a pushing pressure of 00 [mN], 2.0 [times/se]
c] vibration frequency when rotated.
<Deformation displacement amount>
The bladed rotor is rotated around the sample to be measured, which is placed on the sample stage.
without rolling, apply pressure of 100 [mN] and 600 [mN] respectively.
The amount of displacement in the vertical direction when pushed in from the opposite direction.
・ Procedure: Sample (emtec ref.2X〈nn.n〉) according to the attached instructions.
) and set the algorithm to facial II. calculation software
The software is emetec measurement system.
m was used.

--Dripping method water absorption--
The drop method water absorption is an index indicating the degree of water absorption by a moisturizing tissue paper.
The above-mentioned dropping method water absorption was measured using the following objects and methods.
・Measurement target: 100 [mm] x 100 [mm] moisturizing tissue paper ・Measurement method: 0.1 g of ion-exchanged water is placed on the moisturizing tissue paper to be measured at a height of 10 mm.
The liquid is absorbed and light is reflected from the surface of the sample to be measured.
The time until it disappeared (visually) was measured.

--Compression characteristics--
The compression property is an index indicating the property when the moisturizing tissue paper is compressed.
This compression specification includes LC, WC, RC, To, TM, (To-TM)/To. Note that LC, TM, (To-TM)/To are dimensionless quantities, and these dimensionless quantities are written in Table 1 with [-].

<LC>
LC is also called "compression hardness" and is a parameter that expresses the linear proportionality of the repulsive force to the depth when a sheet of moisturizing tissue paper is pushed in. The larger the value, the harder the compression is and the more resilient it is. show.
<WC>
WC is also referred to as "compression energy" and represents the energy required to compress a sheet of moisturizing tissue paper, and a larger value indicates that it is more likely to be compressed.

<RC>
RC is also called "compression recovery rate" and indicates the recovery ability of a sheet of moisturizing tissue paper when it returns to its original state after being compressed. There is a tendency to improve the moist feeling as well as a tendency to improve. RC (compression recovery rate) is preferably 36.00 or less, more preferably 35.50 or less, and 35.00 or less from the viewpoint of improving additional physical properties such as softness and moist feeling. It is even more preferable that there be.
<To and TM>
Each of To and TM is the thickness dimension when pressure is applied to the sheet of moisturizing tissue paper. To is the thickness when a pressure of 0.5 [gf/cm ² ] is applied, and TM is the thickness when a pressure of 50.0 [gf/cm ² ] is applied.

<Measurement>
LC, WC, RC, To, TM, (To-TM)/To included in the compression characteristics were measured using the following environment, device, object, and method.
・Measurement environment: ISO187 compliant environment (23℃±1℃, humidity 50% (±2%))
・Measuring device: KES FB3-AUTO-A automated compression testing machine
(manufactured by Kato Tech Co., Ltd.)
・Measurement object: Sample cut to a size of 10 [cm] x 20 [cm] ・Measurement method: Place the above measurement object between a 2 [cm ² ] pressure plate and a pressure receiving plate, and hold for 50 [seconds]
The pressure plate is lowered at a speed of /mm], and the pressure that changes at that time and the time
The thickness of the sample was measured.

[2-3. evaluation]
The moisturizing tissue paper on which the various parameters described above were measured was evaluated using the following method, and the evaluation results are described in the following comparison.

--Evaluation method--
The moisturizing tissue paper whose various parameters described above were measured was evaluated as follows.
Sensory evaluation was conducted with the level hidden. Fifty monitors touched each of the moisturizing tissue papers of Examples 1 to 4 and Comparative Examples 1 and 2, and evaluated the "resistance to tearing during use (feeling of use)" and "softness" of these moisturizing tissue papers. and "moist feeling" were evaluated on the following five scales. The average value of the evaluation scores of 50 monitors was calculated for each of "resistance to tearing during use (feeling of use)", "softness", and "moist feeling", and this value was rounded to the nearest whole number. was used as the score for each evaluation item.
・5 points: Very good ・4 points: Especially good ・3 points: Somewhat good ・2 points: Somewhat poor ・1 point: Poor

- Comparison -
As shown in Table 1 above, the moisturizing tissue papers of Examples 1 to 4 had at least a score of 3 in each of the evaluation items of "resistance to tearing during use (feeling of use),""softness," and "moist feeling." Evaluations of points or higher were obtained.
On the other hand, the moisturizing tissue papers of Comparative Examples 5 and 6 only received a score of 2 or less in at least one of the evaluation items of "resistance to tearing during use (feeling of use),""softness," and "moist feeling." I couldn't get it.

From the above comparison, the applied amount of moisturizer is 25.0 [%] or more and the dry bursting strength is 1.80 [N/4 sheets] or more and 3.00 [N/4 sheets] or less. The moisturizing tissue papers of Examples 1 to 4 can ensure all of "resistance to tearing during use (feeling of use)", "softness", and "moist feeling", and have both basic physical properties and additional physical properties. It turns out that you can. Similarly, the moisturizing tissue papers of Examples 1 to 4, which have a wet bursting strength of 1.70 [N/4 sheets] or more and 2.70 [N/4 sheets] or less, It can be seen that all of the properties of "difficulty (feeling of use)", "softness" and "moist feeling" can be ensured, and that both basic physical properties and additional physical properties can be achieved.
Therefore, the moisturizing tissue papers of Examples 1 to 4 can have enhanced sensuality.

On the other hand, the moisturizing tissue papers of Comparative Examples 5 and 6, in which the amount of moisturizing agent applied was less than 25.0%, had a "moist feeling" score of 2 or less, and the additive properties were not ensured. Furthermore, the moisturizing tissue paper of Comparative Example 5, which has a dry bursting strength of more than 3.00 [N/4 sheets] and a wet bursting strength of more than 2.70 [N/4 sheets], was found to be ``resistant to tearing during use.'''' was secured, but ``moist feeling'' and ``softness'' were both 2 points or less, giving a low evaluation for additive properties. In addition, the moisturizing tissue paper of Comparative Example 6, which has a dry bursting strength of less than 1.80 [N/4 sheets] and a wet bursting strength of less than 1.70 [N/4 sheets], does not maintain "softness". However, in addition to ``moist feeling'', ``resistance to tearing during use'' was 2 points or less, and basic physical properties were not ensured.
Therefore, the moisturizing tissue papers of Comparative Examples 5 and 6 cannot enhance sensory properties.

In addition, it is assumed that the moisturizing tissue papers of Examples 1 to 4 ensured additional physical properties such as "softness" and "moist feeling" because the RC (compression recovery rate) was 36.00 or less. be done.
In addition, it is presumed that the moisturizing tissue papers of Examples 1 to 4 ensured the additive properties of "softness" and "moist feeling" also because the HF was 80 or higher.

[3. Adjustment example]
In one embodiment, the moisturizing tissue paper described above can be obtained using the fiber materials, additives, and manufacturing method described below.

[3-1. Fiber raw materials]
The base paper used as the moisturizing tissue paper of this embodiment is obtained by paper-making a slurry containing fiber raw materials. It is preferable to use pulp as this fiber raw material, and examples of this pulp include those illustrated in Table 2 below. Note that the pulp used for the base paper of this moisturizing tissue paper is not limited to those exemplified in Table 2. The pulps shown in Table 2 may be used alone or in combination of two or more.

When softwood pulp is used as a fiber raw material, it is preferable that the content of softwood pulp with respect to the total mass of pulp components contained in the base paper of the moisturizing tissue paper is equal to or higher than the values listed below [mass%].
・Preferred value: 10 [mass%]
・More preferable value: 15 [mass%]
・More preferable value: 20 [mass%]
On the other hand, the content of softwood pulp relative to the total mass of pulp components contained in the base paper of the moisturizing tissue paper is preferably equal to or less than the values [% by mass] listed below.
・Preferred value: 90 [mass%]
・More preferable value: 80 [mass%]

Furthermore, it is preferable to use hardwood pulp in addition to softwood pulp as the fiber raw material. In this case, it is preferable that the content of hardwood pulp based on the total mass of pulp components contained in the base paper of the moisturizing tissue paper is equal to or higher than the values listed below [% by mass].
・Preferred value: 10 [mass%]
・More preferable value: 20 [mass%]
On the other hand, the content of hardwood pulp relative to the total mass of pulp components contained in the base paper of the moisturizing tissue paper is preferably equal to or less than the values listed below [% by mass].
・Preferred value: 90 [mass%]
・More preferable value: 85 [mass%]
・More preferable value: 80 [mass%]
By setting the content (mixing ratio) of softwood pulp or hardwood pulp as described above, it becomes easy to ensure the bursting strength, tensile strength, etc. of the base paper (moisturizing tissue paper).

The length weighted average fiber length of the fiber raw material is preferably within the ranges listed below. The "length-weighted average fiber length" herein refers to the fiber length as a raw material, and is the fiber length before being subjected to beating treatment or the like.
・Softwood pulp: A range greater than 0.50 [mm] and less than 5.00 [mm] ・Hardwood pulp: A range greater than 0.50 [mm] and less than 2.00 [mm]

Note that the length-weighted average fiber length of the fiber components of the pulp contained in the base paper of the moisturizing tissue paper is preferably at least the value [mm] listed below. The "length-weighted average fiber length" herein refers to the fiber length of the fiber component obtained by disintegrating the fiber component of the pulp contained in the base paper of the moisturizing tissue paper, and is also referred to as the disintegrated fiber length.
・Preferred value: 0.35 [mm]
・More preferable value: 0.40 [mm]

On the other hand, the length-weighted average fiber length (disintegrated fiber length) is preferably equal to or less than the values listed below [mm].
・Preferred value: 5.00 [mm]
・More preferable value: 4.00 [mm]
・More preferable value: 3.00 [mm]
・More preferable value: 2.00 [mm]

When softwood pulp and hardwood pulp are used together as fiber components (pulp components), the above length-weighted average fiber length (disintegrated fiber length) is calculated by calculating the length weight of the disintegrated fiber length from the fiber length of both pulps. The average fiber length was calculated, and is the fiber length calculated by the following measurement method.
<Measurement method>
First, a fiber dispersion slurry obtained by disintegrating base paper in water is prepared. The fiber dispersion slurry contains 0.002 [mass%] of fiber components in 500 [ml] of water.
Prepare a diluted solution so that the concentration is 0.01 [mass%] or less, and use a fiber length measuring device (Va
The length-weighted average value of the disintegrated fibers is calculated.
By setting the average fiber length as described above, it becomes easy to ensure burst strength, tensile strength, etc. of the base paper (moisturizing tissue paper).

In addition, the freeness of the fiber components of the pulp contained in the base paper of moisturizing tissue paper is not particularly limited, but it is preferably at least the lower limit listed below, and is preferably at least the upper limit listed below. It is preferable that there be.
・Preferred lower limit: 350 [ml]
・More preferable lower limit: 400 [ml]
・More preferable lower limit: 450 [ml]
・Preferred upper limit: 800 [ml]

Freeness is a value indicated by Canadian Standard Freeness (C.S.F.) specified in JIS P 8121, and is a value indicating the degree of beating of the fiber. Beating of fibers can be carried out on paper stock (slurry) in which fibers are dispersed using a known beating machine such as a beader or a disc refiner. Generally, the smaller the freeness value of the fiber, the stronger the degree of beating, the greater the damage to the fiber due to beating, and the more fibrillation is progressing. As fibrillation of fibers progresses, the number of bonding points between fibers increases, resulting in improved strength.

[3-2. Additive]
The base paper of the moisturizing tissue paper of this embodiment may contain optional components (additives) shown in Table 3 below in addition to the above-mentioned raw materials. In this case, it is preferable that each type of optional component is contained in the proportions illustrated in the rightmost column of Table 3. Note that the optional components in Table 3 may be used alone or in combination of two or more.

[3-3. Production method]
The method for manufacturing the moisturizing tissue paper of this embodiment includes the following three steps.
・Pre-treatment process: A process of pre-treating raw materials for the paper-making process. ・Paper-making process: A process of making paper from the raw materials treated in the pre-treatment process. ・Post-processing process: Performing post-treatment of the base paper obtained in the paper-making process. Process

--Pre-treatment process--
The pretreatment step includes a step of obtaining a slurry containing at least a fiber raw material (hereinafter referred to as "slurry step"). It is preferable that the slurry step includes a step of beating the fiber raw material (hereinafter referred to as "beating step"). In the beating process, beating can be performed using, for example, a double disc refiner. At the time of this beating treatment, the softwood pulp and the hardwood pulp may be beaten individually, or these pulps may be mixed and then beaten.
The above pretreatment step may include a step of bleaching the fiber raw material (hereinafter referred to as "bleaching step"). Bleaching agents used in the bleaching process include known bleaching agents such as oxygen bleaches and chlorine bleaches.

--Paper making process--
Paper machines used in the papermaking process include various paper machines such as cylinder type and Fourdrinier type suction breast formers, twin wire formers, C-wrap and S-wrap type cylinder formers, and crescent formers. It will be done.
Slurry formation methods in the papermaking process include a method in which a pulp slurry that is a mixture of softwood pulp and hardwood pulp is made into paper to form a wet paper as one uniform layer, and a method in which a softwood pulp layer and a hardwood pulp layer are combined into a single layer. Examples include a method of forming a sheet of wet paper, and any of these forming methods may be employed.

In the papermaking process, when the longitudinal tensile strength (tensile strength) of the moisturizing tissue paper is T and the transverse tensile strength (tensile strength) is Y, the Y/T ratio is 35% or more. It is preferable to adjust the jet wire ratio below so that it is 65% or less. By setting such a jet wire ratio, it becomes easy to ensure the bursting strength, tensile strength, etc. of the base paper (moisturizing tissue paper).
Jet wire ratio (J/W ratio) = drawing water flow speed / wire speed The jet wire ratio is the ratio between the slurry supply speed and the wire running speed. If the jet wire ratio is greater than 1, the slurry When the feeding speed of the wire is faster than the running speed of the wire, it is called "push formation". On the other hand, when the jet wire ratio is less than 1, the slurry supply speed is slower than the wire running speed, and this case is called "pulling formation."

In the above-mentioned papermaking process, a slurry containing fiber raw material is supplied onto a mesh wire to form a thin layer of pulp. Thereafter, each step listed below is performed.
・Dehydration process: A process in which a thin layer of pulp is dehydrated to obtain wet paper ・Water extraction process: A process in which the wet paper obtained in the dehydration process is pressed to extract water (pressing process)
・Drying process: Drying the wet paper pressed in the water squeezing process

<Dehydration process and water squeezing process>
In the dewatering process, the water in a thin layer of pulp is removed under a mesh wire for the water extraction process. When the thin layer is squeezed out in this dewatering process, a wet paper is obtained. Note that the wire used in the dehydration process is generally a ring made of metal or plastic mesh.
In the water squeezing process, the wet paper obtained in the dewatering process is transferred from the wire to the felt, and pressure is applied to the wet paper by a press roll through the felt, thereby mechanically squeezing the wet paper. Ru.

<Drying process>
The drying process is preferably a process of blowing hot air toward the wet paper or a process of pressing the wet paper onto the outer peripheral surface of a Yankee dryer. In the drying process using a Yankee dryer, it is preferable to scrape the dried paper with a doctor blade from the Yankee dryer to perform a crepe process (crepe process) to form wrinkles on the crepe.

When the base paper (crepe paper) crepe-treated by this manufacturing method is used for the moisturizing tissue paper of this embodiment, it is preferable that the crepe rate is 10 [%] or more and 30 [%] or less. By setting the crepe rate to 10% or more, softness can be imparted to the base paper or ply. On the other hand, by setting the crepe rate to 30 [%] or less, the thickness of the base paper or ply can be increased, and a lotion paper that has a good feel and a luxurious feel can be obtained.
The above crepe rate is determined by assuming that the crepe rate is "Rc [%]", the peripheral speed of the dryer shell of the paper machine is "Va [m/min]", and the peripheral speed of the take-up roll is "Vb [m/min]". '', it can be calculated using the following formula.
Rc={(Va-Vb)/Vb}×100

--Post-processing process--
The post-processing step includes at least a winding step of winding up the base paper dried in the drying step, and may include a calendering step after the drying step and before the winding step.
In the calendering process, the base paper dried in the drying process is calendered. Examples of this calendering include calendering using two metal rolls, and soft calendering using one of the two rolls as an elastic roll.

The linear pressure of the calender in calendering is preferably at least the lower limit listed below, and preferably at most the upper limit listed below. By setting the linear pressure within the range shown below, it becomes easy to adjust the base paper to the desired thickness and softness.
- Preferred lower limit: 0.1 [kg/cm]
・More preferable lower limit: 1.0 [kg/cm]
・More preferable lower limit: 2.0 [kg/cm]
- Preferred upper limit: 13.0 [kg/cm]
・More preferable upper limit: 12.0 [kg/cm]
・More preferable upper limit: 11.0 [kg/cm]

Note that the embodiment described above is merely an example, and there is no intention to exclude the application of various modifications and techniques not explicitly described in this embodiment. Each structure of this embodiment can be modified and implemented in various ways without departing from the spirit thereof. Moreover, they can be selected as needed, and can be combined as appropriate.

Claims (3)

A two-ply moisturizing tissue paper comprising a set of two sheets containing a humectant,
The paper thickness, which is the thickness dimension of the two sheets overlapped, is in the range of 105 to 140 [μm],
The density calculated by doubling the mass per unit area per sheet and dividing by the paper thickness is 0.250 to 0.350 [g/cm 3 ] ^,
The amount of the moisturizer applied is 25.0 [%] or more,
Measured in accordance with ISO 12625-9; 2015, the strength is when a test piece in which the four sheets are stacked is pierced in the direction of superposition of the sheets with a dry probe. A moisturizing tissue paper having a certain dry bursting strength of 1.80 [N/4 sheet] or more and 3.00 [N/4 sheet] or less. Strength measured in accordance with ISO 12625-9; 2015, when the test piece is pierced in the direction of polymerization of the sheet by the wet measuring element in a wet state. The moisturizing tissue paper according to claim 1, having a wet bursting strength of 1.70 [N/4 sheets] or more and 2.70 [N/4 sheets] or less. The moisturizing tissue paper according to claim 1 or 2, having a compression recovery rate (RC) of 36.00 or less.