JP4141435B2 - BCTMP combination sheet packaging - Google Patents

Description

  The present invention relates to a BCTMP-blended sheet package.

Conventionally, a BCTMP-blended sheet having high bulkiness and high oil absorption is known by blending BCTMP (Bleached ChemiThermoMechanical Pulp) as a raw material. The BCTMP-blended sheet is highly oil-absorbing and at the same time bulky, and therefore has suitability as, for example, kitchen paper or tissue paper. However, the BCTMP-blended sheet has a problem that lignin contained in a large amount in BCTMP is oxidized by ultraviolet rays and the paper turns yellow.
Then, the manufacturing method of the solid paper which improved the light resistance by apply | coating the microcapsule which includes an ultraviolet absorber on the surface of a BCTMP compounding sheet is known (for example, refer patent document 1).
Japanese Patent Laid-Open No. 5-279987

  However, although it can be suitably applied to recording paper or the like depending on the method described in Patent Document 1, since the UV absorber is attached to the surface of the BCTMP-containing sheet, kitchen paper is used from the viewpoint of safety. It is unsuitable for household paper such as paper and tissue paper, and there is still a problem that the yellowing of the sheet cannot be solved for these uses.

  Therefore, the problem of the present invention is that there is no problem in terms of safety as household paper, and that the BCTMP-blended sheet packaging body can maintain the whiteness of the BCTMP-blended sheet by preventing yellowing of the BCTMP-blended sheet Is to provide.

In order to solve the above problems, the invention according to claim 1, BCTMP formulation comprising a BCTMP blended sheet comprising blending N-BCTMP, and packaging film of the ultraviolet blocking properties of packaging the BCTMP blend sheet, the In the sheet package, the BCTMP-containing sheet contains 10% to 30% by weight of the N-BCTMP, and the packaging film absorbs in the wavelength range of 300 (nm) to 400 (nm) using a spectrophotometer. The spectrum is measured, and the ultraviolet transmittance which is a relative value when the ultraviolet transmittance in the case of a blank (a film containing no ultraviolet blocking agent) is 100 is 50% or less .

The invention according to claim 2 is the BCTMP-blended sheet package according to claim 1 , wherein the whiteness of the BCTMP-blended sheet is 72% or more .

The invention according to claim 3 is the BCTMP-combined sheet package according to claim 1 or 2 , wherein the packaging film is laminated with a separate film comprising an ultraviolet blocking agent on at least one side of the film body. It is characterized by being.

The invention according to claim 4 is the BCTMP-combined sheet package according to claim 1 or 2 , wherein the packaging film has an ultraviolet blocking agent printed on at least one surface of the film body.

The invention according to claim 5 is the BCTMP-blended sheet package according to any one of claims 1 to 4 , wherein the BCTMP-blended sheet contains an internal paper strength agent.

According to the invention described in claim 1, since the low light-resistant BCTMP-containing sheet that yellows when irradiated with ultraviolet rays is packaged with a packaging film having ultraviolet blocking properties, much of the ultraviolet rays are blocked by the packaging film, Ultraviolet rays that reach the BCTMP combination sheet are greatly reduced.
Thereby, yellowing of the BCTMP compound sheet can be prevented without any problem in terms of safety as household paper, and the whiteness of the BCTMP compound sheet can be maintained.
Moreover, when the BCTMP of the BCTMP combination sheet is 10% by weight to 30% by weight, the BCTMP combination sheet has appropriate oil absorption and bulk.
Moreover, an ultraviolet-ray transmittance of a film is 50% or less, an ultraviolet-ray can be interrupted | blocked suitably and the whiteness of a BCTMP compounding sheet can be maintained suitably.

According to the invention described in claim 2, it is a matter of course that the effect of the invention described in claim 1 can be obtained, and in particular, the whiteness of the BCTMP-containing sheet is 72% or more , so that the BCTMP-containing sheet is suitable. The whiteness of the BCTMP-blended sheet is given to the viewer, and a comfortable feeling of use can be brought about.

According to the invention described in claim 3 , it is a matter of course that the effects of the invention described in claim 1 or 2 can be obtained, and in particular, a separate film comprising an ultraviolet blocking agent is laminated on the film body. Thus, it is possible to add ultraviolet blocking property only to a desired position of the film body.

According to the invention described in claim 4 , it is natural that the effect of the invention described in claim 1 or 2 can be obtained. In particular, since the ultraviolet ray blocking agent is printed on the film body, the printing process is also performed. In addition to being able to add ultraviolet blocking property, it is possible to add ultraviolet blocking property only to a desired position of the film.

According to the invention described in claim 5 , it is a matter of course that the effects of the invention described in any one of claims 1 to 4 can be obtained. In particular, the BCTMP-containing sheet contains an internal paper strength agent. Thereby, even if it is a case where the mixture rate of BCTMP is raised, the fall of the intensity | strength of a BCTMP compounding sheet can be suppressed.

Hereinafter, embodiments of the present invention will be described in detail.
The BCTMP (Bleached Chemithermomechanical Pulp / decolorization chemithermomechanical pulp) blended sheet of the present embodiment can be suitably used for kitchen paper, toilet paper, crepe paper, and the like.

The BCTMP combination sheet in this embodiment is a sheet manufactured by adding various adjuvants to the pulp which is a raw material, for example. As a raw material pulp, BCTMP and other pulp are used together, for example.
[BCTMP combination sheet]

BCTMP is obtained by subjecting a softwood or hardwood, which is a raw material, to a wood chip by subjecting it to a wood chip, then softening the wood chip in advance by chemical treatment and grinding it with a pressure refiner ( ChemiThermoMechanical Pulp) is produced by bleaching with hydrogen peroxide.
BCTMP includes BCTMP (N-BCTMP) using coniferous trees (Nadelholz) and BCTMP (L-BCTMP) using broad-leaved trees (Laubholz) as raw materials. Used N-BCTMP.
BCTMP is produced by grinding wood chips after they have been previously softened by chemical treatment. Therefore, since the fiber is short and the paper strength (paper strength) is reduced by increasing the blending ratio, it is characterized by having high oil absorption and bulkiness as compared with other pulps.

As a pulp other than BCTMP, it can be used by appropriately selecting from chemical pulp made from plant fibers such as wood fiber and hemp, recycled pulp obtained from chemical pulp, synthetic pulp, inorganic fiber and the like.
In the present embodiment, for example, NBKP (Nadelholz Bleached Kraft Pulp / conifer bleached kraft pulp), LBKP (Laubholz Bleached Kraft Pulp / hardwood bleached kraft pulp), or DIP (Deinking Pulp / deinked pulp) was used.

NBKP and LBKP are classified into kraft pulp (Kraft Pulp) which is a kind of chemical pulp.
Chemical pulp is pulp produced by chemically treating wood chips with high-temperature chemicals to remove impurities other than fibers. Among them, kraft pulp is manufactured by adding a chemical solution mainly composed of caustic soda and sodium sulfide to wood chips, heating it at about 170 degrees for about 2 hours, and selectively eluting the lignin in the intermediate layer to take out the fibers. Compared with sulfite pulp and soda pulp, which are other pulps classified as chemical pulp, it is possible to produce pulp from a wide range of tree types, whether coniferous or hardwood, and high-strength pulp Can be obtained. NBKP and LBKP are pulps produced by bleaching this kraft pulp with hydrogen peroxide or the like.

Since hardwood, which is a raw material of LBKP, has short fibers, blending LBKP can provide a good texture and smooth the surface of the sheet.
On the other hand, softwood, which is a raw material for NBKP, has a fiber length that is at least twice as long as that of broad-leaved tree. Therefore, by adding NBKP, the bond between fibers increases and the strength can be increased.

DIP is a recycled pulp using old paper such as old newspapers as raw materials. The old paper is disaggregated with a large mixer, the ink and pulp are separated, the foreign matter is removed, and then washed with a washing machine. Recycled as paper (pulp). By using DIP, resource saving effects and energy saving effects can be achieved.
DIP can be blended in addition to BCTMP, NBKP and LBKP as a raw material for the BCTMP blended sheet.

  Examples of the various auxiliary agents include an internal paper strength agent. Examples of the internal paper strength agent include polyamide polyamine-epihalohydrin resin known as a cationic thermosetting resin and anionic carboxymethyl cellulose (CMC). These internally added paper strength agents are preferably added in an amount of 0.01 to 0.1% based on the absolute dry weight of the whole pulp. This is because if the addition amount is less than 0.01%, the paper strength is low and is easily broken in actual use, and if it exceeds 0.1%, the paper strength reaches a peak and costs increase.

  The blending ratio of N-BCTMP, NBKP, and LBKP is, for example, (N-BCTMP: NBKP: LBKP) = (20:50:30) (unit: wt%).

In the BCTMP blending sheet, N-BCTMP is blended in the range of 10 wt% to 30 wt% with respect to the total blending amount.
If N-BCTMP is 10% by weight or less, the bulk of the BCTMP-blended sheet will not be sufficiently increased, and the oil absorbability cannot be secured properly. If it is 30% by weight or more, the fiber is short and the strength is greatly reduced. This is because the whiteness decreases.

NBKP is blended in the range of, for example, 50% to 70% by weight with respect to the total blending amount, and LBKP is blended in the range of, for example, 10% to 40% by weight with respect to the total blending amount.
By blending NBKP and LBKP at the above ratio, the BCTMP blended sheet can be provided with smoothness and strength at the same time.
In addition, the ratio of the combination of NBKP and LBKP can be appropriately set according to the characteristics to be provided in the BCTMP combination sheet. That is, it is effective to increase the ratio of NBKP when it is desired to increase the strength and to increase the ratio of LBKP when it is desired to improve the smoothness.

The BCTMP blended sheet produced from the raw materials and various adjuvants described above is produced by, for example, a well-known wet method. That is, a paper material adjusting step for adjusting a paper material that is a suspension of wood pulp such as N-BCTMP, NBKP, and LBKP, and a paper making step for drying a fiber web by making fibers from the paper material are provided. It is manufactured by a manufacturing method comprising steps. Since this manufacturing method is well known, a description thereof will be omitted.
The BCTMP combination sheet may be manufactured, for example, in a roll shape or a web shape.

Here, the BCTMP combination sheet has a whiteness of 70% or more. Whiteness is used as an index of the whiteness of paper. The light reflection amount of a magnesium oxide standard white plate is taken as 100, and the ratio of the light reflection amount of a measurement object (BCTMP-containing sheet) is shown. is there.
JIS S 3104 stipulates that whiteness of tissue paper is 78% or more. However, in reality, consumers often do not feel white when the whiteness is less than 70%. By providing whiteness, many consumers feel white. When the BCTMP combination sheet of the present invention has a whiteness of 70% or more, the BCTMP combination sheet has an appropriate whiteness, giving the viewer the impression that the BCTMP combination sheet is white and comfortable. A feeling of use can be brought about.

The BCTMP-blended sheet produced as described above is packaged with a packaging film having ultraviolet blocking properties (hereinafter referred to as “ultraviolet blocking film”) to form a BCTMP-blended sheet package. The ultraviolet blocking film is formed, for example, by adding an ultraviolet absorber to a film resin.
[UV blocking film]

Examples of the film resin used as the ultraviolet blocking film include polyolefin resins such as polyethylene (PE) and polypropylene (PP), polystyrene resins such as polystyrene (PS) and substituted styrene polymers such as alkyl groups, and polycarbonates such as polycarbonate. Hydroxycarboxylic acid (co) resins such as poly (co) resins and polylactic acid polymers can be suitably used.
As the film resin, the above resins may be used alone, or a plurality of resins may be used in combination.
In the present embodiment, among the enumerated resins, in particular, the polyethylene film is more easily stretched than other films, is not easily torn, has excellent operability, and may be exposed by the BCTMP-blended sheet that is torn and encapsulated during transportation. Since it is excellent in that it is low, polyethylene was used as a film resin.
Of course, the film resin used for the ultraviolet blocking film is not limited to the resins listed above, and other suitable resins can be used.

UV blockers are organic UV absorbers that reduce UV transmittance by absorbing UV light of a specific wavelength, and UV scattering that lowers UV transmittance mainly by physically reflecting and scattering UV rays. It is classified as an agent.
As the organic ultraviolet absorber, a salicylic acid compound, a benzophenone compound, a benzotriazole compound, a cyanoacrylate compound, an acrylic compound, or the like can be suitably used.
As the inorganic ultraviolet scattering agent, zinc oxide, cerium oxide, titanium oxide, yttrium oxide, titanium black, iron oxide, calcium carbonate and the like can be suitably used.
As the ultraviolet blocking agent, the above ultraviolet absorber and ultraviolet scattering agent may be used alone or in combination.
In the present embodiment, among the listed UV blocking agents, in particular, the benzophenone compound has a high UV absorbing ability at a wavelength of 300 (nm) to 400 (nm), and remarkably improves the UV blocking resistance in the film resin. 2-hydroxy-4-methacryloxybenzophenone was used as an ultraviolet blocking agent.
Of course, the ultraviolet ray blocking agent is not limited to the ultraviolet ray absorbers and ultraviolet ray scattering agents listed above, and other suitable ultraviolet ray absorbing agents that can lower the ultraviolet ray transmittance can be used.

Further, the ultraviolet transmittance of the ultraviolet blocking film is 50% or less.
When the ultraviolet transmittance is 50% or less, ultraviolet rays can be suitably blocked, so that the whiteness of the packaged BCTMP-blended sheet can be suitably maintained.

  In addition to film resin and UV blocking agent, UV blocking film is a light stabilizer, antioxidant, heat stabilizer, antistatic agent, heat ray reflective agent, heat ray as long as the UV blocking property of the UV blocking film is not reduced. Other additives such as an absorbent, a flame retardant, a lubricant, a pigment, and a filler may be contained, and other suitable additives and adjuvants may be appropriately contained.

The ultraviolet blocking film may be a single layer or a multilayer structure in which a plurality of layers are laminated. In the present embodiment, an ultraviolet blocking film having a single layer structure is used.
The UV blocking film processing method is a method of obtaining a molded product by stretching a film resin in a uniaxial (biaxial) direction, or a uniaxial (biaxial) stretching process or heating and melting a film resin in a mold. A suitable processing method such as injection processing, which is a method for obtaining a molded product, can be used by injection-injecting into the substrate and cooling and solidifying. In the present embodiment, for example, an ultraviolet blocking film having a thickness of about 30 (μm) that can be easily shaped by a product is formed by biaxial stretching.

The addition of the ultraviolet blocking agent to the film resin was performed by kneading the ultraviolet blocking agent into the film resin. Specifically, when the film resin was polymerized, an ultraviolet blocking agent was directly added, and the ultraviolet blocking film was formed by biaxially stretching the ultraviolet blocking agent-containing resin film.
By kneading an ultraviolet blocking agent into the film resin to form an ultraviolet blocking film, the entire surface of the ultraviolet blocking film is uniformly provided with ultraviolet blocking properties.

In the case of an ultraviolet blocking film having a multilayer structure, for example, a composite film formed by directly applying an ultraviolet blocking agent to a film resin is used as a separate film, and on at least one surface of the film resin (film body) serving as a substrate layer. An ultraviolet blocking film may be formed by directly laminating (attaching).
By laminating a composite film comprising an ultraviolet blocking agent on a film resin (film main body), ultraviolet blocking properties can be added limited to a desired position.

Furthermore, the ultraviolet blocking film can be formed by printing on at least one surface of the film resin (film body) using an ink containing an ultraviolet blocking agent. Specifically, an ultraviolet blocking agent is added to an ink containing a resin, a solvent, an additive and the like contained in a general ink, such as an acrylic resin, an ethyl alcohol solvent, a water repellent, and a light stabilizer. An ultraviolet blocking film is formed by printing on the film resin (film body) formed into a sheet by biaxial stretching with the ultraviolet blocking agent-blended ink.
Examples of the printing performed with the ultraviolet blocking agent-blended ink include characters and patterns. As a method for printing characters, marks, colors, patterns, etc., a conventionally known method can be used. Specifically, printing can be performed by an inkjet method, a gravure printing method, a flexo method, or the like. Since these printing methods are well-known methods, detailed description is omitted.
Since the film resin (film body) is printed with an ultraviolet blocking ink containing an ultraviolet blocking agent, not only can the ultraviolet blocking property be added to the printing process, but also the desired position of the film. It is possible to add ultraviolet blocking property only to the above.
[Method of packaging BCTMP-containing sheet with UV blocking film]

As shown in FIG. 1 (a), the packaging of the BCTMP-blended sheet 12 with the ultraviolet blocking film 11 is performed by, for example, unwinding a roll of a gusset-folded roll into a fixed size, heat sealing, and cutting. BCTMP combination sheet gusset packaging 1 is formed by the gusset packaging. Since the gusset packaging is provided with a gusset, for example, even a BCTMP-blended sheet formed in a roll shape can be easily packaged.
In this case, for example, the amount of the ultraviolet blocking agent used can be suppressed by attaching a composite film having the above-described ultraviolet blocking property to a portion that is particularly easily irradiated with ultraviolet rays.
For example, the above-described ultraviolet blocking agent-containing ink can be used for printing only in a portion that is particularly easily irradiated with ultraviolet rays. In this case as well, the amount of ultraviolet blocking agent blended ink can be suppressed.

Moreover, as shown in FIG.1 (b), when packaging the BCTMP compounding sheet 22 formed by laminating | stacking the several BCTMP compounding sheet 22 with the ultraviolet-ray shielding film 21, for example, it is a pillow-shaped packaging form. It is suitably packaged by a certain pillow wrapping to form a BCTMP-containing sheet pillow wrapping body 2. Depending on the pillow packaging, the BCTMP compounding sheet 21 in a laminated state can be packaged, and the BCTMP compounding sheet 21 can be packaged by heat-sealing the two ends.
Furthermore, as shown in FIG. 1 (c), the BCTMP compounded sheet 32 is preferably formed by caramel wrapping which wraps the BCTMP compounded sheet 32 formed in a roll shape and wraps the both ends of the ultraviolet blocking film 31 and adheres them. 32 can be packaged, and the BCTMP-blended sheet caramel-wrapped package 3 is formed.
Similarly, in the case of pillow packaging and caramel-wrapped packaging, an ultraviolet blocking film can be formed by using a composite film having ultraviolet blocking properties and an ink containing ultraviolet blocking agent, and the amount of the ultraviolet blocking agent used can be suppressed.

  Depending on the BCTMP-blended sheet packagings 1, 2, and 3 described above, the low-light-resistant BCTMP-blended sheets 12, 22, and 32 that turn yellow when irradiated with ultraviolet rays are ultraviolet blocking films 11, 21 that have ultraviolet blocking properties. , 31, much of the ultraviolet rays are blocked by the ultraviolet blocking films 11, 21, and 31, and the ultraviolet rays reaching the BCTMP combination sheets 12, 22, and 32 are greatly reduced. Thereby, yellowing of the BCTMP combination sheets 12, 22, and 32 can be prevented without problems in terms of safety as household paper, and the whiteness of the BCTMP combination sheets 12, 22, and 32 can be maintained.

  The method for producing the ultraviolet blocking film is not limited to the method described above. For example, after the film resin is polymerized, the ultraviolet blocking agent is mixed using a blender, or the ultraviolet ray is preliminarily concentrated at a high concentration. An appropriate method such as a method of diluting a master batch containing a blocking agent and mixing it with a film resin can be used.

[Example]
Next, examples of the package of the BCTMP-blended sheet according to the present invention described above will be described together with comparative examples.

(Composition and proportion)
In Examples 1 to 4, the blending ratio (% by weight) of each pulp of N-BCTMP, NBKP, and LBKP in the BCTMP blended sheet, the blending amount of CMC, and the ultraviolet rays of the ultraviolet blocking film (hereinafter referred to as “UV blocking film”). The transmittance (hereinafter referred to as “UV transmittance”) (%) was changed.
Here, the UV transmittance (%) refers to UV in the case of a blank (film not containing an ultraviolet blocking agent) by measuring an absorption spectrum in a wavelength range of 300 (nm) to 400 (nm) using a spectrophotometer. This means the relative value when the transmittance is 100.
The composition and ratio of each example are shown in Table 1.

(Characteristic evaluation method)
The whiteness (%), bulk (specific capacity: cm ³ / g), paper strength (dry tearing length: km), and oil absorption speed (seconds) of the BCTMP-containing sheet of each example were measured. The measurement method for each item is as follows.
(Bulk)
The bulkiness was determined by calculating the volume ratio of the BCTMP-blended sheet to the weight of pulp or the like.
(Paper power)
Paper strength (paper strength) was measured according to the tensile strength test method for paper and paperboard specified in JIS P8113. In addition, it means that paper strength is large, so that a measured value is large (paper intensity | strength is high).
(Oil absorption speed)
The oil absorption rate was measured according to the method for measuring the water absorption of the tissue paper specified in JIS S3104.
(Whiteness)
The whiteness after irradiating a 500 watt UV lamp for 10 hours was measured for the BCTMP-blended sheet package using SUNTEST CPS manufactured by ATLAS. The whiteness was determined by calculating the ratio of the light reflection amount of the measurement object, with the light reflection amount of the magnesium oxide standard white plate as 100.
(sensory evaluation)
Twenty test subjects observed the whiteness of the BCTMP-blended sheet with the naked eye, thereby performing an evaluation based on the following evaluation criteria, and taking the average of all evaluations in each example.
A: Almost no coloring is observed. O: Slight coloring is observed. X: Clear coloring is clearly recognized. In the case of "A" and "O", the BCTMP-containing sheet is recognized as white. In some cases it is not recognized as white.
Table 1 shows the results of testing by each of the test methods described above.
[Comparative example]

(Composition and proportion)
In Comparative Examples 1 to 4, the blending ratio (% by weight) of each pulp of N-BCTMP, NBKP, and LBKP in the BCTMP-blended sheet and the UV transmittance (%) of the UV blocking film were changed. The composition and ratio of each comparative example are shown in Table 1.

(Characteristic evaluation method)
The whiteness (%), bulk (specific capacity: cm ³ / g), paper strength (dry breaking length: km), and oil absorption speed (seconds) of the BCTMP-containing sheet of each comparative example were measured. Each item was measured by the same method as the measurement method of the example. The results are shown in Table 1.

In addition to Examples 1-4 and Comparative Examples 1-4, the same characteristic evaluation was performed also about the conventional example which wrapped the sheet | seat which does not contain N-BCTMP with the film which does not contain UV blocker. Table 1 shows the composition, ratio and characteristic evaluation results of the conventional example.
[Evaluation]

Each result was then evaluated.
(Bulk)
The bulkiness of Examples 3 and 4 (both 2.79 (cm ³ / g)), Example 2 (2.61 (cm ³ / g)), and Example 1 (2.50 (cm ³ / g)) )) In order, and both were bulkier than the conventional example (2.36 (cm ³ / g)).
That is, the BCTMP blended sheet (each example) blended with N-BCTMP is more bulky than the sheet not blended with N-BCTMP (conventional example), and the more N-BCTMP blended, the more N- The result that the bulk of a BCTMP compounding sheet became high was obtained.

(Paper power)
The paper strength (paper strength) was determined in Example 1 (2.7 (km)), Example 2 (2.6 (km)), Example 4 (2.3 (km)), and Example 3 (2 .2) was higher in the order, but both were lower than the conventional example (2.8 (km)).
However, when Example 3 with 30% by weight of N-BCTMP was compared with Example 4 and Comparative Example 4 with 40% by weight of N-BCTMP, the strength was in Example 4 (2.3). (Km)), Example 3 (2.2 (km)), and Comparative Example 4 (1.8 (km)).
That is, by increasing the blending amount of N-BCTMP from 30% by weight to 40% by weight, the strength of the BCTMP blending sheet is reduced, but by further blending 1.0 (kg / t) CMC, The result was that the strength recovered.

(Oil absorption speed)
The oil absorption speed is higher in the order of Example 4 (9 seconds), Example 3 (12 seconds), Example 2 (14 seconds), and Example 1 (18 seconds), all of which are faster than the conventional example (30 seconds). It was fast.
From this, the result that the BCTMP mixing | blending sheet | seat (each Example) which mix | blends N-BCTMP is provided with a higher oil absorptivity than the sheet | seat (conventional example) which does not mix | blend N-BCTMP was obtained.

(Whiteness)
The whiteness is measured in Example 1 (76%), 20% of Example 3 (73%), 50% of Example 2 (72%), and 10% of Examples where the UV transmittance of the UV blocking film is 50%. 4 (72%) in order, and all sensory evaluations were good (（or ○).
On the other hand, Comparative Example 1 (62%) in which the UV transmittance of the UV blocking film is 100%, Comparative Example 2 (69%) in which 75% is present, and Comparative Example 3 (65%) in which 75% is low have low sensory evaluation ( X). From this, the result that the UV transmittance of the UV blocking film is preferably 50% or less was obtained.
In addition, when the whiteness of the BCTMP blended sheet exceeds 70%, the sensory evaluation is high (◎ or ○), and when it is less than 70%, the sensory evaluation is low (x). The result is that the degree is preferably 70% or more.
Further, when Example 3 (whiteness 73%) having a UV transmittance of 20% and Comparative Example 4 (whiteness 66%) having a UV transmittance of 20% are compared, the brightness of Comparative Example 4 is higher. I can see that it is low. This means that the whiteness of the BCTMP-blended sheet itself is reduced by increasing the proportion of the N-BCTMP blending amount.
From this, the result that it was preferable that the compounding quantity of N-BCTMP is 30 weight% or less was obtained.

It is a figure for demonstrating the shape of a BCTMP compounding sheet packaging body.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 BCTMP compounding sheet gazette packaging body 2 BCTMP compounding sheet pillow packaging body 3 BCTMP compounding sheet caramel winding packaging 11, 21, 31 UV blocking film 12, 22, 32 BCTMP compounding sheet

Claims (5)

A BCTMP-blended sheet obtained by blending N-BCTMP ;
An ultraviolet blocking packaging film for packaging the BCTMP-containing sheet;
In B CTMP blend sheet wrapping body Ru provided with,
The BCTMP-containing sheet contains 10% to 30% by weight of the N-BCTMP,
When the packaging film measures an absorption spectrum in a wavelength range of 300 (nm) to 400 (nm) using a spectrophotometer, and the ultraviolet transmittance in the case of a blank (a film containing no ultraviolet blocking agent) is 100 The BCTMP-blended sheet package characterized by having an ultraviolet transmittance that is a relative value of 50% or less. In the BCTMP combination sheet package according to claim 1 ,
The BCTMP-blended sheet package, wherein the whiteness of the BCTMP-blended sheet is 72% or more . In the BCTMP combination sheet packaging body according to claim 1 or 2 ,
The packaging film is a BCTMP-combined sheet packaging body in which a separate film comprising an ultraviolet blocking agent is laminated on at least one surface of a film body. In the BCTMP combination sheet packaging body according to claim 1 or 2 ,
The packaging film is a BCTMP-combined sheet packaging body in which an ultraviolet blocking agent is printed on at least one surface of a film body. In the BCTMP combination sheet package according to any one of claims 1 to 4 ,
The BCTMP blended sheet package, wherein the BCTMP blended sheet contains an internal paper strength agent.

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