JP6176918B2 - Packaging material - Google Patents

Description

  The present invention relates to a packaging material.

  At present, packaging materials for foods made from natural fiber or chemical fiber as raw material fibers are required to have a beautiful pattern and other design characteristics, and in particular, excellent properties such as a unique Japanese paper-like texture, feel and luxury. Is required.

  In response to such demands, there has been proposed a patterned paper obtained by making a raw fiber containing rayon fibers (see Japanese Patent Application Laid-Open No. 2011-1645). When the rayon fiber is made, the rayon fiber aggregates on the paper surface and shows a soft texture like a Japanese paper. However, since rayon fibers are less entangled with the fibers themselves, the tensile strength of the obtained paper is generally low. If the strength of the paper is low, it may cause damage or damage to the packaging material or contents, and it cannot be suitably used especially for food packaging materials. On the other hand, it is conceivable to add a large amount of paper strength improving components such as binder fibers to the paper in order to prevent a decrease in the strength of the paper. However, if a large amount of binder fibers are added to the rayon fibers, the paper becomes difficult to disintegrate in water. It is difficult to recycle as a pulp raw material. In addition, rayon fibers are relatively expensive because they are manufactured through complicated manufacturing processes in multiple stages.

JP 2011-1645 A

  The present invention has been made in view of the above disadvantages, and an object of the present invention is to provide a packaging material that is inexpensive, recyclable, and excellent in strength while having a Japanese paper-like texture.

  As a result of intensive studies in order to solve the above problems, the present inventor made a raw material pulp containing mercerized pulp at a predetermined ratio, and set the arithmetic average roughness (Ra) of the surface within a specific range. Thus, the inventors have found that a Japanese paper-like texture can be expressed, and have completed the present invention.

The invention made to solve the above problems is
A packaging material made from paper pulp,
The content of mercerized pulp in the raw material pulp is 3% by mass or more and 40% by mass or less,
The packaging material is characterized in that the arithmetic average roughness (Ra) of the surface is 1.6 μm or more and 4.0 μm or less.

  The packaging material can produce a raw paper-like texture similar to that of conventional rayon paper by papermaking raw pulp containing mercerized pulp at the above-described content and setting the arithmetic average roughness of the surface within the above range. Moreover, since the said packaging material is manufactured through a comparatively simple manufacturing process compared with rayon fiber, a manufacturing cost can be reduced and also the content rate of a mercerized pulp shall be in the said range. In addition to strength, it excels in disintegration in water.

  The mercerized pulp preferably includes mercerized softwood bleached kraft pulp. Since the mercerized softwood bleached kraft pulp is long and relatively bulky, the above properties can be expressed more easily.

  The freeness of the disaggregated pulp obtained by disaggregating the packaging material in accordance with JIS-P8220 (1998) “pulp-disaggregation method” is preferably 400 ml or more and 780 ml or less. By increasing the bulk of the packaging material, a Japanese paper-like texture can be expressed more easily.

  The raw material pulp preferably contains softwood bleached kraft pulp. Thus, the intensity | strength of a packaging material can be raised more by including a conifer bleached kraft pulp.

  The packaging material of the present invention is inexpensive, recyclable and excellent in strength while having a Japanese paper-like texture. Moreover, the said packaging material has a Japanese paper-like texture, and can be used especially suitably as a food packaging material for which a high-class feeling is requested.

The packaging material is a packaging material obtained by papermaking raw pulp,
The content of mercerized pulp in the raw material pulp is 3% by mass or more and 40% by mass or less,
The packaging material is characterized in that the arithmetic average roughness (Ra) of the surface is 1.6 μm or more and 4.0 μm or less. Hereinafter, the packaging material will be described in detail.

<Raw material pulp>
The packaging material is obtained by papermaking raw material pulp. The raw material pulp contains mercerized pulp with the above-described content, and may further contain other fiber components.

  “Mercerylation” refers to the treatment of cellulose fibers with alkali. “Mercered pulp” refers to pulp that has been mercerized. Specifically, mercerized pulp is obtained by treating cellulose contained in pulp with an alkali such as sodium hydroxide, and changing the —OH group mainly at the 6-position of the glucose unit in the cellulose to an —ONa group or the like. Say.

  Mercerized pulp is difficult to form hydrogen bonds between fibers under the influence of mercerization, and can be made into bulky paper by blending mercerized pulp with raw pulp, unique texture, feel similar to Japanese paper, High quality and other characteristics can be expressed. Further, the obtained packaging material has high strength, and the amount of paper strength improving components such as binder fibers used for rayon fibers can be reduced. Further, since the mercerized pulp is manufactured without going through a complicated process such as rayon fiber, the manufacturing cost can be reduced and recycled. In addition, as long as a desired packaging material can be obtained, all of said -OH group may be mercerized, and the one part may be mercerized.

  The mercerization method is not particularly limited, and examples thereof include a method in which raw pulp is immersed in an alkaline aqueous solution, and a method in which raw alkaline pulp is impregnated with spraying or the like. The aqueous alkaline solution is not particularly limited, and examples thereof include salts such as sodium, potassium, calcium (hydroxide, oxide, carbonate, etc.), aqueous ammonia, and the like.

  If an example of the manufacturing method of mercerized pulp is given, raw material pulp will be immersed in alkaline aqueous solution, and it will process about 5 minutes or more and 48 hours or less at room temperature. The mercerized pulp can be obtained by washing the obtained mercerized raw pulp with warm water having a temperature of 40 ° C. or higher and 100 ° C. or lower and a pH of 3 or higher and 12 or lower, and then recovering it using centrifugal dehydration or the like. Further, mercerized pulp may be subjected to drying.

  Mercerized pulp can be produced according to known methods, but is also commercially available. Examples of commercially available mercerized pulp include “SULFATE” (product name) manufactured by Rayonnia, “ULTRANIER” (product name) manufactured by the company, “POROSAUIE” (product name) manufactured by the company, and the like.

  The pulp fiber for mercerization used for manufacture of mercerized pulp is not specifically limited, For example, a well-known pulp fiber is mentioned.

  Pulp fiber is not particularly limited, for example, chemical pulp such as hardwood bleached kraft pulp (LBKP), softwood bleached kraft pulp (NBKP), hardwood unbleached kraft pulp (LUKP), softwood unbleached kraft pulp (NUKP), ground pulp (GP), thermomechanical pulp (TMP), chemithermomechanical pulp (CTMP), refiner mechanical pulp (RMP) and other mechanical pulp, corrugated wastepaper, liner wastepaper, magazine wastepaper, newspaper wastepaper, old paper wastepaper, etc. Examples include pulp, upper white waste paper pulp, and deinked pulp.

  Of these, softwood bleached kraft pulp is preferred. That is, the mercerized pulp preferably includes mercerized softwood bleached kraft pulp. Since mercerized softwood bleached kraft pulp is long and relatively bulky, it can more easily express characteristics such as a unique texture, texture, and high-quality feeling similar to Japanese paper.

  The content of mercerized pulp in the raw material pulp is 3% by mass or more and 40% by mass or less, preferably 4% by mass or more and 20% by mass or less, more preferably 4% by mass or more and 15% by mass or less. Thus, by setting the content of the mercerized pulp within the above range, the above-mentioned Japanese paper-like texture can be effectively expressed without reducing the strength. When the content exceeds the above upper limit, the texture is lowered, and the printability when printing on the surface as a packaging material is reduced, or the strength is reduced. When the content is less than the above lower limit, the packaging material cannot effectively express the texture of Japanese paper.

  The freeness of mercerized pulp is not particularly limited, but is usually 550 ml or more, preferably 600 ml or more, and unbeaten is particularly preferred. When the freeness is within the above range, there is a tendency that a Japanese paper-like texture can be effectively expressed. If the freeness is less than 550 ml, the texture of Japanese paper may be lowered.

  Although the fiber length (average fiber length) of mercerized pulp is not specifically limited, Usually, 1 mm or more and 6 mm or less, Preferably they are 1.5 mm or more and 5.5 mm or less. When the fiber length is within the above range, the packaging material tends to have a unique texture of Japanese paper. If the fiber length exceeds the above upper limit, the texture may be lowered and the shading of the stamping surface may be severe, or there is a risk of binding. If the fiber length is less than the lower limit, the packaging material may have a unique Japanese paper-like texture.

<Other fiber components>
Raw material pulp can also contain other fiber components other than mercerized pulp. In this case, the packaging material can have not only the characteristics derived from mercerized pulp but also characteristics derived from other fiber components.

  Other fiber components are not particularly limited, and examples thereof include pulp fibers before the mercerization as described above, known synthetic fibers, and water-soluble chemical fibers.

  The synthetic fiber is not particularly limited, and examples thereof include cellulose-based fibers such as acetate, and cellulose-based regenerated fibers such as rayon, cupra, and polynosic. In addition, vinylon fibers can also be used as water-soluble synthetic fibers as long as the effects of the present invention are not impaired.

  Among these, the raw material pulp preferably contains softwood bleached kraft pulp. The strength of the packaging material can be further increased.

  The content of other fiber components in the raw material pulp is preferably 60% by mass to 97% by mass, more preferably 80% by mass to 96% by mass, and still more preferably 85% by mass to 96% by mass. It is. There exists a tendency which can raise the intensity | strength of a packaging material as content rate is in the said range. If the content exceeds the above upper limit, the packaging material may not have a unique texture similar to Japanese paper. If the content is less than the above lower limit, the strength of the packaging material may be lowered, or the texture may be lowered and the marking surface may become dull.

  The freeness of other fiber components is not particularly limited, and is usually 350 ml or more and 700 ml or less, preferably 400 ml or more and 650 ml or less. When the freeness is within the above range, the packaging material can increase strength while maintaining a unique texture of Japanese paper. If the freeness exceeds the above upper limit, the strength of the packaging material may be reduced. If the freeness is less than the above lower limit, the density increases, and the packaging material may have a unique Japanese paper-like texture.

  In addition, the pulp compounding rate in raw material pulp and the pulp content rate in a packaging material are substantially the same.

  As a combination of mercerized pulp and other fiber components, a combination of mercerized softwood bleached kraft pulp and softwood bleached kraft pulp is preferable. The texture and strength of Japanese paper can be further improved.

  The content of mercerized softwood pulp having a freeness of 550 ml or more is 3% by mass or more and 40% by mass or less, and the content of softwood bleached kraft pulp having a freeness of 350 ml or more and 700 ml or less is 60% by mass or more and 97% by mass or less. As a result, it is possible to obtain a packaging material having excellent strength while having a texture of Japanese paper.

<Paper making method>
The packaging material can be obtained by papermaking raw material pulp. The papermaking method is not particularly limited, and can be performed according to a known method. The papermaking method is not particularly limited, and examples thereof include an acidic papermaking method, a neutral papermaking method, and an alkaline papermaking method. The paper machine is not particularly limited, and examples thereof include a long net paper machine, a twin wire paper machine, a circular net paper machine, and a short net combination machine.

  Papermaking can also be performed in the presence of a papermaking chemical as long as the effects of the present invention are not impaired. The papermaking chemical is not particularly limited. For example, surfactants, waxes, sizing agents, fillers, rust inhibitors, conductive agents, antifoaming agents, dispersants, viscosity modifiers, flocculants, coagulants, and paper strength improvement. Ingredients, yield improvers, paper powder fall-off inhibitors, bulking agents, thickeners and the like can be mentioned.

  Among these, it is preferable to perform papermaking in the presence of either a thickener or a paper strength improving component.

  Specifically, when a thickener is used, the viscosity of the slurry becomes suitable. As a result, mercerized pulp fibers are uniformly dispersed and spread thinly and uniformly on the wire, and a unique texture more similar to Japanese paper can be easily formed.

  The thickener is not particularly limited, and examples thereof include cellulose derivatives, polyvinyl alcohol polymers, polyacrylic acid derivatives, and polyethylene oxide (polyethylene glycol).

  In these, since a uniform dispersion | distribution of mercerized pulp can be raised more and a Japanese paper-like texture can be raised more, a polyethylene oxide type | system | group thickener is preferable.

  The use ratio of the thickener is not particularly limited, but is usually 0.01 kg / t or more and 1 kg / t or less, preferably 0.05 kg / t or more and 0.3 kg / t or less. “Kg / t” refers to the mass (kg) of solid content per 1 ton of pulp solid content.

  When the paper strength improving component is used, the strength of the packaging material is improved. For this reason, it is preferable that the said packaging material contains a paper strength improvement component in the range which does not impair the effect of this invention.

  The paper strength improving component is not particularly limited, and examples thereof include a paper strength improving agent and a binder fiber.

  The paper strength improver is not particularly limited, and examples thereof include dry paper strength enhancers such as cationized starch and polyacrylamide, wet form strength enhancers such as urea formaldehyde resin, melamine formaldehyde resin, and polyamide polyamine epichlorohydrin (PAE). It is done.

  Among these, since the obtained packaging material is excellent in disintegration in water and can further increase the strength of the packaging material, a dry paper strength enhancer is preferred, and a polyacrylamide type dry paper strength enhancer is more preferred. .

  The binder fiber may contain water-soluble synthetic fibers such as polyvinyl alcohol fiber as long as the effects of the present invention are not impaired. Synthetic fibers such as polyester fiber, polyolefin fiber, and polyethylene terephthalate fiber are used for papermaking. The packaging material obtained by melting and bonding with the heat of the dryer at the time may be difficult to disaggregate in water.

  The use ratio of the paper strength improving component is not particularly limited, and is usually 0.02 kg / t or more and 4 kg / t or less, preferably 0.2 kg / t or more and 1 kg / t or less. “Kg / t” refers to the mass (kg) of solid content per 1 ton of pulp solid content.

<Packaging material>
Since the raw material pulp contains mercerized pulp, the packaging material has a Japanese paper-like texture after papermaking. “Japanese paper-like texture” refers to paper having an appearance and texture that creates a soft atmosphere similar to Japanese paper, such as calligraphy paper, semi-paper, shoji paper, paperboard, and wallpaper. The appearance and texture as described above can be confirmed by viewing the paper.

  Since the packaging material has irregularities on its surface, and has a unique texture similar to Japanese paper and an appropriate printing blur as printed on Japanese paper when printed on the surface, the arithmetic average roughness (Ra ) Is 1.6 μm or more and 4.0 μm or less, preferably 1.7 μm or more and 3.0 μm or less. When the arithmetic average roughness (Ra) is within the above range, the packaging material can more easily express not only the bulkiness, but also a unique texture, touch, luxury, and the like similar to Japanese paper. When the arithmetic average roughness (Ra) exceeds the above upper limit, when the surface unevenness becomes excessively large and printing is performed on the packaging material, there is a possibility that the shading at the time of printing becomes severe and the strength of the packaging material may be reduced. If the arithmetic average roughness (Ra) is less than the above lower limit, the packaging material may not have a Japanese paper-like texture, or when printing on the packaging material, it may not be able to develop a moderate blur as printed on Japanese paper. There is. In this embodiment, the arithmetic average roughness (Ra) on the surface of the packaging material can be adjusted by changing, for example, the type of raw material, the blending mass ratio, and the freeness.

  In addition to making the content of mercerized pulp 3% by mass or more and 40% by mass or less, and further by making the arithmetic average roughness (Ra) of the surface of the packaging material 1.6 μm or more and 4.0 μm or less, A packaging material having a strong texture and excellent strength can be obtained.

The basis weight of the wrapping material is not particularly limited, usually 5 g / ^{m 2} or more 50 g / ^{m 2} or less, preferably 9 g / ^{m 2} or more 40 g / ^{m 2} or less. When the basis weight is within the above range, the packaging material tends to be excellent in strength while having a Japanese paper-like texture. If the basis weight exceeds the above upper limit, the thickness of the packaging material becomes too thick, and it may be difficult to package when used as a packaging material. There exists a possibility that the intensity | strength of a packaging material may fall that basic weight is less than the said minimum.

Density of the packaging material is not particularly limited, usually 0.35 g / cm ³ or more 0.60 g / cm ³ or less, preferably 0.40 g / cm ³ or more 0.55 g / cm ³ or less. When the density is within the above range, the packaging material tends to have a suitable bulkiness. If the density exceeds the above upper limit, the packaging material may not have a Japanese paper-like bulkiness. When the density is less than the above lower limit, when printing is performed on the packaging material, there is a risk that the blurring during printing becomes severe. In this embodiment, the density can be adjusted, for example, by changing the type of raw material, the blending mass ratio, freeness, and the like.

  The tensile strength in the longitudinal direction of the packaging material is not particularly limited, but is usually from 0.5 kN / m to 5.2 kN / m, preferably from 0.6 kN / m to 4.0 kN / m. When the tensile strength is within the above range, the packaging material tends to be excellent in strength while having a Japanese paper-like texture. If the tensile strength exceeds the above upper limit, the packaging material may not have a Japanese paper-like bulkiness. If the tensile strength is less than the above lower limit, the strength is too low and it may be difficult to use as a packaging material. In this embodiment, the tensile strength can be adjusted, for example, by changing the basis weight, the type of raw material, the blending mass ratio, the freeness, and the like.

  The smoothness of the surface of the packaging material is not particularly limited, but is usually 20 seconds or more and 350 seconds or less, preferably 30 seconds or more and 250 seconds or less. When the smoothness is within the above range, the packaging material tends to be excellent in strength while having a Japanese paper-like texture. If the smoothness exceeds the above upper limit, the texture of Japanese paper may be lowered, and when printing is applied to the packaging material, there is a possibility that a moderate blur as printed on Japanese paper may not be exhibited. When the smoothness is less than the lower limit, when printing is performed on the packaging material, there is a risk that the blurring during printing becomes severe. In this embodiment, the smoothness can be adjusted, for example, by changing the type of raw material, the blending mass ratio, freeness, and the like.

  Although the freeness of the disaggregated pulp which disaggregated the said packaging material based on JIS-P8220 (1998) "pulp-disaggregation method" is not specifically limited, Usually, 400 ml or more and 780 ml or less, Preferably it is 500 ml or more and 780 ml or less. When the freeness is within the above range, the packaging material tends to be excellent in strength while having a Japanese paper-like texture. If the freeness exceeds the above upper limit, the strength of the packaging material may be reduced. If the freeness is less than the above lower limit, the density of the packaging material becomes high, and the texture of the Japanese paper may be lowered, or when printing on the packaging material, there is a possibility that an appropriate blur as printed on the Japanese paper may not be exhibited. . In this embodiment, the freeness of the disaggregated pulp obtained by disaggregating the packaging material can be adjusted, for example, by changing the kind of raw material, the blending mass ratio, the freeness, and the like.

  In addition to the content ratio of mercerized pulp being 3% by mass or more and 40% by mass or less and the arithmetic average roughness (Ra) of the surface of the packaging material being 1.6 μm or more and 4.0 μm or less, JIS-P8220 (1998) “ By setting the freeness of the disaggregated pulp obtained by disaggregating the packaging material in accordance with the “pulp-disaggregation method” to 400 ml or more and 780 ml or less, it is possible to obtain a packaging material having a stronger Japanese paper texture and excellent strength.

  Although the fiber length of the disaggregated pulp which disaggregated the said packaging material based on JIS-P8220 (1998) "pulp-disaggregation method" is not specifically limited, Usually, 1 mm or more and 6 mm or less, Preferably it is 1.5 mm or more and 5.5 mm or less It is. When the fineness is within the above range, the packaging material tends to have a unique texture of Japanese paper. If the fiber length exceeds the above upper limit, the texture may be lowered and the shading of the stamping surface may be severe, or there is a risk of binding. If the fiber length is less than the lower limit, the packaging material may have a unique Japanese paper-like texture. In this embodiment, the fiber length of the disaggregated pulp obtained by disaggregating the packaging material can be adjusted, for example, by changing the kind of raw material, the blending mass ratio, the freeness, and the like.

  The packaging material may be patterned paper, glossy paper, or decorative paper by providing a coating layer or printing layer on the surface of the paper as long as the effects of the present invention are not impaired. Also, it can be used by being laminated with other paper. The packaging material may be a single layer or a multilayer.

<Others>
The process conditions such as temperature, pressure, time, equipment, etc. in the papermaking process are not particularly limited, and are appropriately set according to the raw materials used. The number of stages of the papermaking process is not particularly limited, and may be performed in one stage or in multiple stages. Moreover, the raw material to be used may be used independently and may be used combining multiple types of raw material.

  The packaging material is inexpensive, recyclable and excellent in strength while having a Japanese paper-like texture. For this reason, the packaging material can be widely used for applications requiring the above characteristics, such as food packaging materials, wrapping paper, decorative paper, wallpaper, and the like, and can be particularly suitably used as food packaging materials.

  EXAMPLES Hereinafter, although an Example is given and this invention is demonstrated more concretely, this invention is not limited by these.

(Arithmetic mean roughness (Ra))
In accordance with JIS-B0601 (1994) “Product Geometrical Specification (GPS) —Surface Properties: Contour Curve Method—Terminology, Definitions, and Surface Property Parameters”, “Coarse Analyzer Surfcoder SE30K” manufactured by Kosaka Laboratory Ltd. ”Was used to measure the arithmetic average roughness (Ra) (unit: μm) of the surface of the packaging material to obtain the surface roughness. Arithmetic mean roughness (Ra) was measured with a cut-off value of λc 0.8 mm and an evaluation length of 5.0 mm in the lateral direction of the surface of the packaging material.

(Basis weight)
The basis weight (unit: g / m ² ) was measured in accordance with JIS-P8124 (2011) “Paper and paperboard—Method for measuring basis weight”.

(density)
The density (unit: g / cm ³ ) was measured according to JIS-P8118 (1998) “Paper and paperboard—Test method for thickness and density”.

(Tensile strength)
The tensile strength (unit: kN / m) was measured in the longitudinal direction of the packaging material in accordance with JIS-P8113 (2006) “Paper and paperboard—Test method for tensile properties—Part 2: Constant speed extension method”.

(Smoothness)
The smoothness (unit: seconds) was measured on the surface of the packaging material in accordance with JIS-P8119 (1998) “Paper and paperboard—Smoothness test method using Beck smoothness tester”.

(Freeness)
Freeness (unit: ml) was measured in accordance with JIS-P8121 (1995) “Pulp-Freeness test method”. In addition, the freeness of the pulp which disaggregated the packaging material is JIS-P8121 (1995) "pulp-freeness test method" for the packaging material disaggregated by a method based on JIS-P8220 (1998) "pulp-disaggregation method". Measured in conformity.

(Average fiber length (mass-weighted average fiber length))
For the average fiber length (unit: mm), the mass-weighted average fiber length was measured using a “Kajaani FiberLab fiber length measuring machine” manufactured by Metso Automation.

(Japanese paper-like texture (appearance))
20 people looked at the surface and judged whether it looked like Japanese paper.
A: 90% or more of the people evaluated that there was a Japanese paper-like texture.
A: 70% or more and less than 90% evaluated that there was a Japanese paper-like texture.
Δ: 50% or more and less than 70% evaluated that there was a Japanese paper-like texture.
X: Less than 50% of the people evaluated that they had a Japanese paper-like texture.

(Disaggregation test)
The obtained packaging material was cut into a 1.5 cm square, and this was put into a TAPPI standard disaggregator so as to have a concentration of 1.2%, and then disaggregated at 3000 rpm for 10 minutes. A hand-sheet is prepared from the sample dispersion obtained in this way. When the undissolved material is not visually observed in the sheet, the disintegrating property is good (○), and the undissolved material remains. Defective (x).

Example 1
Preparation of raw material slurry containing 10% by mass of unbeaten mercerized softwood bleached kraft pulp (freeness 750ml, average fiber length 3.1mm) and 90% by weight of softwood bleached kraft pulp (NBKP) beaten to 600ml freeness did. Polyethylene oxide-based thickened paper with a polyethylene oxide thickener (product name “Alcox”, manufactured by Meisei Chemical Industry Co., Ltd.) 0.1 kg / t based on the solid content of the raw material slurry. A force enhancer (manufactured by Harima Chemical Co., Ltd., product name “Harmide C-10”) was added in an amount of 0.6 kg / t on the basis of the solid content per raw material solid content. Using the raw material slurry, paper was made with a circular paper machine and dried with a Yankee dryer (surface temperature 105 ° C.) to obtain the packaging material of Example 1.

The basis weight of the obtained packaging material is 17 g / m ² , the density is 0.40 g / cm ³ , the tensile strength (longitudinal) is 1.15 kN / m, the smoothness (table) is 79 seconds, and the arithmetic average roughness (Surface roughness) Ra (table) was 2.7 μm, and the average fiber length was 2.7 mm. Moreover, the freeness of the pulp which disaggregated the obtained packaging material was 615 ml.

  Example 2 to Example 8 and Comparative Example 1 to Comparative Example 6 were performed in the same manner as Example 1 except that the raw materials of Example 1 were as shown in Table 1. However, the basis weight of Examples 5 and 6 was as shown in Table 1. In Comparative Example 6, a rayon fiber having a fineness of 3 dtex and a length of 5 mm was used, and 2% by mass of vinylon binder as a binder based on the total solid content of softwood bleached kraft pulp and rayon fiber was blended.

  Table 1 shows the raw materials, quality, and the like of the examples and comparative examples.

  It can be seen from Table 1 that the paper obtained in the examples is superior in tensile strength, Japanese paper-like texture, and the like as compared with the comparative example.

  The packaging material is inexpensive, recyclable and excellent in strength while having a Japanese paper-like texture. For this reason, the packaging material can be widely used for applications requiring the above characteristics, such as food packaging materials, wrapping paper, decorative paper, wallpaper, and the like, and can be particularly suitably used as food packaging materials.

Claims (6)

Na and papermaking pulp is, a packaging material that have a and the back surface is a surface not in contact with the table surface and the Yankee dryer is a surface and dried in contact with the Yankee dryer,
The content of mercerized pulp in the raw material pulp is 3% by mass or more and 35 % by mass or less,
The content of pulp fibers other than mercerized pulp in the raw material pulp is 65% by mass or more and 97% by mass or less,
Density is at 0.35 g / cm ³ or more 0.48 g / cm ³ or less,
A packaging material having an arithmetic mean roughness (Ra) of a surface on the surface side in the above table of 1.6 μm or more and 4.0 μm or less. The packaging material according to claim 1, wherein the mercerized pulp comprises mercerized softwood bleached kraft pulp. The packaging material according to claim 1 or 2 , wherein a freeness of the disaggregated pulp obtained by disaggregating the packaging material in accordance with JIS-P8220 (1998) "Pulp-Disaggregating method" is 400 ml or more and 780 ml or less. The packaging material according to claim 1 , wherein the raw material pulp includes softwood bleached kraft pulp. The packaging material according to any one of claims 1 to 4 , wherein the raw material pulp contains a thickener, and the content of the thickener is 0.01 kg or more and 1 kg or less per 1 ton of pulp solid content. The raw material pulp contains a paper strength improver, and the content of the paper strength improver is 0.02 kg or more and 4 kg or less per 1 t of pulp solid content,
The packaging material according to any one of claims 1 to 5 , wherein the tensile strength in the longitudinal direction is 0.5 kN / m or more and 5.2 kN / m or less.