JP2017197276A - Packaging material and container containing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a packaging material which effectively suppress permeation of hydrogen gas and the like while having a layer structure that is comparatively easily structured.SOLUTION: A packaging material formed from a laminate containing an aluminum foil contains (1) a first resin layer, a first aluminum foil, a second aluminum foil and a second resin layer in this order from a side in contact with an object to be packaged, where (2) thicknesses of the first aluminum foil and the second aluminum foil are the same or different from each other and are 5-50 μm, and (3) a bearing force of the second aluminum foil is 5-50 N/mm.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a packaging material used as a bag (accommodating part) such as a pouch.

  Pouches made of packaging materials including aluminum foil are widely used as containers for various products such as foods and drinks, pharmaceuticals, and cosmetics. Compared with plastic bottles, cans, etc., pouches are, for example, 1) easy to carry, 2) easy to handle even for elderly people and children, 3) can be easily pushed out even with semi-solid or gel-like materials, 4) The demand is increasing for reasons such as easy disposal.

  By the way, recently, beverages containing hydrogen (hereinafter referred to as “hydrogen water”) have been developed and commercialized in anticipation of an antioxidant effect in vivo. Such beverages are also shipped in a pouch with a spout, for example, and sold to consumers.

  As a packaging material for constructing such a pouch, for example, low density polyethylene (LDPE) / polybutylene from the side in contact with the contents (that is, the inner surface side) toward the side in contact with the outside air (that is, the outer surface side). A packaging material laminated in the order of terephthalate (PBT) / aluminum foil / polyethylene terephthalate (PET) is used (for example, Patent Document 1).

  A packaging material using a polyethylene / aluminum foil / PET laminate is also known as an exterior sheet constituting a pouch container for filling with hydrogen water (Patent Document 2).

  As represented by pouches that contain hydrogen water as described above, aluminum foil is indispensable as a barrier layer to make the packing material particularly low in gas permeability and hard to leak the filled gas. ing. In such a pouch, an extremely thin aluminum foil is used from the viewpoints of handleability (flexibility), economy, weight reduction, and the like.

JP2008-189377 JP2015-30521

  However, such a thin aluminum foil has a fine pinhole (through hole). In general beverages, even if such pinholes are present, there is not much problem. However, when extremely fine gas components such as hydrogen water are dissolved in the liquid, dissolved hydrogen ( As a result of hydrogen molecules) being able to pass through the pinhole, there is a problem that the hydrogen concentration is greatly reduced and the commercial value is lowered.

  Moreover, when a pouch is manufactured using a packaging material containing aluminum foil, a spout serving as a drinking mouth is generally formed by integral molding with the pouch, but in that case, from a very small gap around the spout. Dissolved hydrogen may leak.

  On the other hand, in order to use only the part without any pinholes, it is possible to inspect the presence of aluminum foil pinholes in advance and cut out and use only the part without pinholes. In addition, since the yield of the aluminum foil is significantly reduced, mass production cannot be performed. A similar problem occurs when a preliminary inspection is performed in order to provide a pouch that does not leak from the periphery of the spout.

  Therefore, a main object of the present invention is to provide a packaging material that can effectively suppress permeation of hydrogen gas or the like while having a layer structure that is relatively easy to configure. Another object of the present invention is to provide a container suitable for storing hydrogen water or the like.

  As a result of intensive studies in view of the problems of the prior art, the present inventor has found that the above object can be achieved by adopting a specific laminated structure, and has completed the present invention.

That is, the present invention relates to the following packaging material and a container including the same.
1. A packaging material comprising a laminate including aluminum foil,
(1) The first resin layer, the first aluminum foil, the second aluminum foil, and the second resin layer are included in this order from the side in contact with the packaged item.
(2) The thicknesses of the first aluminum foil and the second aluminum foil are the same or different from each other, and are 5 to 50 μm,
(3) The yield strength of the second aluminum foil is 5 to 50 N / mm ² .
A packaging material characterized by that.
2. The packaging material according to Item 1, wherein the first aluminum foil and the second aluminum foil are both soft foils.
3. Item 3. The packaging material according to Item 1 or 2, wherein the first resin layer is polyethylene and the second resin layer is polyethylene terephthalate.
4). Item 4. The packaging material according to any one of Items 1 to 3, which has an adhesive layer between the first aluminum foil and the second aluminum foil.
5. The packaging material according to any one of Items 1 to 4, wherein the first aluminum foil and the second aluminum foil have a surface facing each other 1) a glossy surface and a poppy surface, or 2) a poppy surface and a glossy surface, respectively. .
6). Item 6. The packaging material according to any one of Items 1 to 5, wherein the first resin layer contains at least one of aluminum powder and magnesium powder.
7). A container comprising the packaging material according to any one of Items 1 to 6,
(1) A pouch composed of the packaging material so that the side in contact with the packaged object becomes the first resin layer,
(2) A pouch with a spout, characterized by having a spout provided on the pouch so that an article to be packaged can be discharged from the pouch.
8). Item 8. The pouch with a spout according to Item 7, wherein the package is a food or drink.
9. Item 9. The pouch with a spout according to Item 8, wherein the food or drink is hydrogen water.
10. Item 10. A product in which a pouch with a spout according to any one of Items 7 to 9 is filled with an item to be packaged.

  ADVANTAGE OF THE INVENTION According to this invention, the packaging material which can suppress effectively permeation | transmission of hydrogen gas etc. can be provided, having a layer structure comparatively easy to comprise.

  In particular, since it has a layer structure in which two layers of specific aluminum foil are stacked, even if a minute pinhole exists in one aluminum foil, the other aluminum foil suppresses or prevents the transmission of hydrogen gas or the like. be able to. In addition, even when a spout is attached, it is possible to effectively follow the shape of the spout, and as a result, leakage of hydrogen gas or the like that can occur in the spout periphery can be suppressed. Thereby, it is also possible to provide a container suitable for sealing and housing hydrogen water or the like.

  Moreover, since the existing aluminum foil can be used for aluminum foil itself, the above excellent packaging materials can be provided relatively easily and reliably. Therefore, the packaging material and container of the present invention are suitable for production on an industrial scale.

  The packaging material and container having such characteristics can be suitably used for packaging, housing, sealing, and the like of foods and drinks (including retort foods), pharmaceuticals, cosmetics, daily necessities, and the like. In particular, due to its high barrier properties and the like, it is optimal as a packaging material and container (especially a pouch with a spout) for containing drinking hydrogen water.

An example of the layer structure of the packaging material of this invention is shown. It is the schematic of the pouch with a spout produced using the packaging material of this invention.

1. Packaging material The packaging material of the present invention is a packaging material comprising a laminate containing an aluminum foil,
(1) The first resin layer, the first aluminum foil, the second aluminum foil, and the second resin layer are included in this order from the side in contact with the packaged item.
(2) The thicknesses of the first aluminum foil and the second aluminum foil are the same or different from each other, and are 5 to 50 μm,
(3) The yield strength of the second aluminum foil is 5 to 50 N / mm ² .
It is characterized by that.

  As an example of the packaging material of the present invention, FIG. In the packaging material 10 of the present invention, a first resin layer 11, a first aluminum foil 12, a second aluminum foil 13, and a second resin layer 14 are laminated in order from the side (inner side) that comes into contact with an object to be packaged.

  In the packaging material of the present invention, layers other than these layers may be provided as necessary. For example, an adhesive layer, a printing layer, an overcoat layer, etc. are mentioned. Therefore, an adhesive layer (not shown) may be formed between the respective layers as necessary. In particular, an adhesive layer is preferably interposed between the first aluminum foil 12 and the second aluminum foil 13.

  When a container (container) is configured using this packaging material, for example, the container (for example, a bag) may be prepared so that the first polyester resin layer 11 is exposed as the inner surface. For example, when producing a bag body, various types of bag bodies, such as a gusset bag, a standing bag, a three-way bag, etc. can be suitably selected according to the kind of contents.

  Moreover, when manufacturing a container using the packaging material of this invention, when the 1st resin layer 11 has heat-sealing property, a container can be comprised by utilizing it. In addition, the container can be constituted by using an adhesive (heat sealant or the like) separately. A known or commercially available adhesive can be used. Below, each layer which can comprise the packaging material of this invention is demonstrated.

(1) 1st resin layer As resin which comprises a 1st resin layer, if it is used with forms, such as a film and a coating material, it will not be limited, for example. For example, polyolefin (polyethylene, polypropylene, etc.), polyester (polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, etc.), polystyrene, polycarbonate, polyacrylonitrile, polyimide, polyamide, polyvinyl alcohol, vinyl chloride, polyvinylidene chloride, methacryl At least one of a resin, an ethylene-vinyl acetate copolymer, an ethylene-vinyl alcohol copolymer, and the like can be suitably used.

  The first resin layer is composed of a single layer or multiple layers. When composed of multiple layers, a structure in which two layers or three or more layers are laminated can be employed. Also in the case of a multilayer, each layer is preferably composed of the resin exemplified above. In the case of a multi-layer, for example, a) a film that can form each layer is formed in advance, and then these are laminated to obtain a multi-layer, and b) a coating obtained from a paint containing a resin component is laminated. Any of a method of obtaining a multilayer by c), a method of obtaining a multilayer by combining the film and the coating film, and the like can be employed.

  The thickness of the first resin layer (total thickness in the case of multiple layers) is not limited, but it is usually preferable to set appropriately within the range of 9 to 25 μm. By setting within this range, for example, when the packaging material of the present invention is used as a material for a pouch bag with a spout, the piercing strength is strong and the spout can be easily molded or attached.

  In the first resin layer, various additives may be contained in at least a layer (inner wall layer) that comes into contact with an article to be packaged. For example, hydrogen generating substances, preservatives, antibacterial agents, antioxidants, colorants and the like can be mentioned. For example, when the packaged item is potable hydrogen water, it is preferable that a hydrogen generating substance is contained in at least the inner wall layer. By adding a hydrogen-generating substance into the inner wall layer, hydrogen gas generated by the reaction of the substance with water effectively reduces the hydrogen concentration of potable hydrogen water that is the package (contents). Can be suppressed.

  The hydrogen generating substance is not limited as long as it generates hydrogen gas by reacting with water, but in the present invention, at least one of aluminum powder and magnesium powder can be suitably used from the viewpoint of high reactivity. . The average particle size of these powders is usually preferably about 1 to 30 μm. As such powder itself, a publicly known or commercially available powder can be used. The content of the hydrogen generating substance can be adjusted as appropriate according to the desired amount of hydrogen replenishment, etc., but normally hydrogen can be sufficiently supplied by containing 1 to 20% by mass in the inner wall layer.

  Further, when a hydrogen generating material is contained in the inner wall layer, it is preferable to use polyethylene, particularly low density polyethylene (LDPE), as the inner wall layer. By using LPDE, the hydrogen water that is to be packaged (contents) and the hydrogen-generating substance can easily contact and react with each other. As a result, hydrogen gas can be generated more effectively. By dissolving in hydrogen water, it is possible to effectively suppress or prevent a decrease in hydrogen concentration.

  The method for containing the hydrogen generating material in the inner wall layer is not limited. For example, a method including a step of forming a mixture containing the resin component and the powdered hydrogen generating material into a film can be employed. The packaging material of the present invention can be constituted by laminating the thus obtained hydrogen generating substance-containing film with other layers.

(2) 1st aluminum foil 1st aluminum foil is 5-50 micrometers in thickness of 1 sheet. When the thickness of the aluminum foil is less than 5 μm, the leakage of contents (for example, hydrogen contained in drinking hydrogen water) increases. When it exceeds 50 μm, for example, when a spout is formed on a bag made of the packaging material of the present invention, the first resin layer may be broken or cracked.

  The composition of the first aluminum foil is not particularly limited. For example, in addition to Al—Mn-based “1N30” and “3004”, Al—Fe-based “8021” and “8079” having high workability and high barrier properties. Etc. can be used suitably.

  The first aluminum foil is preferably a softly tempered foil (soft foil). If the aluminum foil is a hard foil, the aluminum foil may be easily broken during spout molding or the like as compared with the case of using a soft foil.

Strength of the first aluminum foil is not particularly limited, it can usually be appropriately set within a range of about 5~50N / mm ^2. In particular, the same aluminum foil as the second aluminum foil described later can also be suitably used.

  The 1st aluminum foil can also use a well-known or commercially available aluminum foil, if these physical properties are provided.

(3) Second aluminum foil The second aluminum foil has a thickness of 5 to 50 μm. When the thickness of the aluminum foil is less than 5 μm, leakage of contents (for example, hydrogen contained in hydrogen water) increases. When it exceeds 50 μm, for example, when the spout is attached to the bag made of the packaging material of the present invention, the first resin layer may be broken or cracked.

  The composition of the second aluminum foil is not particularly limited. In addition to Al—Mn-based “1N30” and “3004”, Al-Fe-based “8021”, “8079” and the like having high workability and high barrier properties It can be used suitably.

  The second aluminum foil is preferably a softly tempered foil (soft foil). If the aluminum foil is a hard foil, the aluminum foil may be easily broken during spout molding or the like as compared with the case of using a soft foil.

The yield strength of the second aluminum foil is about 5 to 50 N / mm ² , preferably 5 to 40 N / mm ² . As a result, for example, the aluminum foil can follow the spout shape even during spout molding integrated processing, and as a result, leakage of an article to be packaged (particularly hydrogen contained in hydrogen water) can be effectively suppressed or prevented. .

  As long as the second aluminum foil has these physical properties, a known or commercially available aluminum foil can also be used.

  The second aluminum foil and the first aluminum foil are laminated and bonded together. At this time, it is preferable that one of the surfaces to be bonded is a poppy surface and the other is a gloss surface. If the glossy surfaces or the poppy surfaces are overlapped with each other, the processing suitability may deteriorate and the yield may be reduced.

  When the first aluminum foil and the second aluminum foil are stacked, the first aluminum foil and the second aluminum foil can be stacked without interposing another layer, but it is particularly preferable to stack the layers through an adhesive layer. As a result, both aluminum foils can be firmly joined (laminated), and gaps that can occur between the layers can be more reliably eliminated. It does not specifically limit as an adhesive agent used for an adhesive bond layer, For example, synthetic resin adhesives, such as a urethane type adhesive agent, a polyester-type adhesive agent, a polyether-type adhesive agent, are mentioned. Among these, what is used as an adhesive for dry laminating etc. can be used conveniently. In the present invention, a urethane adhesive can be particularly preferably used. Urethane adhesives (especially two-component curable urethane adhesives) are more advantageous than other adhesives in that they are suitable for dry lamination, form a tough film layer, and exhibit excellent durability. It is.

(4) Second resin layer The resin constituting the second resin layer is not limited as long as it is used in the form of a film, paint, etc. For example, polyolefin (polyethylene, polypropylene, etc.), polyester (polyethylene terephthalate) (PET), polybutylene terephthalate, polyethylene naphthalate, etc.), polystyrene, polycarbonate, polyacrylonitrile, polyimide, polyamide, polyvinyl alcohol, vinyl chloride, polyvinylidene chloride, methacrylic resin, ethylene-vinyl acetate copolymer, ethylene -At least 1 sort (s), such as a vinyl alcohol copolymer, can be used conveniently.

  The second resin layer preferably uses PET as at least the outermost layer. When PET is used on the outermost layer side, it has light resistance, gloss, etc., and for example, printing as a package of various products is possible.

  The second resin layer is composed of a single layer or multiple layers. When composed of multiple layers, it has a structure in which two layers or three or more layers are laminated. Also in the case of a multilayer, each layer is preferably composed of the resin exemplified above. In the case of a multi-layer, a) a method for obtaining a multi-layer by previously forming films that can form each layer, and b) by laminating a coating film obtained from a paint containing a resin component Any of a method for obtaining a multilayer, c) a method for obtaining a multilayer by combining the film and the coating film, and the like can be employed.

  The thickness of the second resin layer (the total thickness in the case of multiple layers) is not limited, but it is usually preferable to set appropriately within the range of 9 to 25 μm. By setting within this range, for example, when the packaging material of the present invention is used as a material for a pouch bag with a spout, the piercing strength is strong and the spout can be easily molded.

  The second resin layer may contain various additives within a range that does not hinder the effects of the present invention. For example, antiseptic | preservative, an antibacterial agent, antioxidant, a coloring agent etc. are mentioned.

(5) Other layer In this invention, another layer can be provided as needed within the range which does not inhibit the effect of this invention. For example, an adhesive layer, an overcoat layer, a printing layer, etc. are mentioned.

  In particular, the adhesive layer can be implemented using a polyester-based adhesive, a polyether-based adhesive, a polyurethane-based adhesive, or the like. Further, the laminating method is not limited, and examples include a dry laminating method, a wet laminating method, a heat laminating method, an extrusion laminating method, a gravure printing method, a roll coating method, and the like, and higher adhesive strength is obtained. In this respect, the dry lamination method is preferable. In particular, a dry lamination method using a urethane-based adhesive is more preferable.

2. Manufacturing method of packaging material The packaging material of this invention can be manufactured by laminating | stacking each layer. The laminating method is not particularly limited. For example, a) a method of previously forming films that can constitute each layer and laminating them, and b) forming each layer (excluding the first aluminum foil and the second aluminum foil). A method of laminating a coating film obtained by preparing paints and applying them to the first aluminum foil and / or the second aluminum foil, c) a method of combining a) and b), and the like can be adopted. .

  In the present invention, as described above, it is desirable that at least the first aluminum foil and the second aluminum foil are laminated with the adhesive layer interposed therebetween. In particular, a two-component curable urethane adhesive can be suitably used as the adhesive.

3. Container The present invention also includes a container containing the packaging material and a product (for example, a beverage, a retort product, etc.) in which the container is filled with a packaged item (content). In this case, the form, type, size and the like of the container are not particularly limited, but the packaging material of the present invention can be suitably used for the following pouch with a spout. That is, (1) a pouch composed of the packaging material so that the side in contact with the packaged object becomes the first resin layer, and (2) a spout provided on the pouch so that the packaged object can be discharged from the pouch. A pouch with a spout characterized by having: is one of the preferred forms.

  FIG. 2 shows an example of a pouch with a spout. In this pouch, a spout 24 is fixed to a bag body 21 made using the packaging material of the present invention. The spout 24 is provided with a screw-type cap 22 at the upper opening of the straw member 23, and can be repeatedly opened and closed. The surface of the bag body 21 that comes into contact with the object to be packaged is preferably composed of a resin layer (LDPE or the like) containing a powdered hydrogen generating substance, and hydrogen is brought into contact with the solvent (water or the like) that is the object to be packaged. And hydrogen can be supplied to the solvent. In addition, since the aluminum body is doubled in the bag body, even if there is a fine pinhole in one aluminum foil, it is surely sealed with the other aluminum foil, so the dissolved hydrogen It can be effectively prevented from being scattered outside through the bag body.

  As the spout as described above, for example, one formed from a synthetic resin such as polypropylene or polyethylene can be suitably used. Such a spout can be a known or commercially available one. Moreover, it is preferable that the spout is bonded and fixed to a pouch container (a bag formed using the packaging material of the present invention) by a known bonding method.

  Moreover, the attachment method itself can be implemented similarly to the well-known pouch with a spout. As for the attachment of the spout, the specific shape of the pouch container is not particularly limited, and it is preferable that the contents cannot enter and exit from other than the spout.

  As an item to be packaged (contents) that can be filled in the container of the present invention, for example, liquids such as water and alcohol, as well as solids and semi-solids (gel bodies, high-viscosity bodies, etc.) can be applied. It can also be applied to various products such as foods, pharmaceuticals, and cosmetics. In particular, in this invention, it can use suitably also for hydrogen water (potable hydrogen water) etc. from the high sealing property (barrier property). Hydrogen water in the present invention may be any beverage containing hydrogen, and is not limited to water alone. For example, in addition to fruit juice components, carbonated water, milk components, food additives such as sweeteners and the like are also included. Is included. Moreover, the property of hydrogen water is not limited, and includes all liquids such as water, semi-solids (gel bodies, high-viscosity bodies, etc.) and the like.

  The features of the present invention will be described more specifically with reference to the following examples and comparative examples. However, the scope of the present invention is not limited to the examples.

Example 1
One aluminum foil (1N30 material, width 1100 mm, proof stress 2.52 N / mm ² ) as a first aluminum foil and one aluminum foil (3004 material, width 1100 mm, proof stress 6) as a second aluminum foil .12 N / mm ² ) was prepared, and dry lamination was performed with a two-component curable polyurethane adhesive (manufactured by Sanyo Chemical Industries, Ltd., product name: Polybond AY) to prepare an aluminum foil laminate. These aluminum foils were bonded so that the surfaces to be bonded were a popped surface on one side and the glossy surface on the other side.

Next, 12 μm thick polyethylene terephthalate (PET: consumption name E5100 manufactured by Toyobo Co., Ltd.) and the above-mentioned aluminum foil laminate were dry-laminated with a two-component curable polyurethane adhesive, and “PET / first aluminum A laminate comprising “foil / second aluminum foil” was obtained. This laminate pinhole detector (Nikka intensity measurement, Ltd.: HSE525) was examined the number of pinholes with was 0 / m ^2.

  Next, on the surface opposite to the PET of the above-mentioned laminate, LDPE (manufactured by Tamapoly) having a thickness of 100 μm was bonded using a two-component curable polyurethane adhesive using dry lamination, and “PET / 1st A packaging material for pouch made of “aluminum foil / second aluminum foil / LDPE” was obtained. The LDPE serving as the inner wall layer previously contained 5% by mass of magnesium powder (average particle size: 5 μm) as a hydrogen generating substance.

  A standing pouch with a spout was produced using the packaging material for pouches described above. While heat-sealing the LDPEs according to a conventional method so that the LDPE of the packaging material becomes an inner wall, and the size is 17 cm long × 8.5 cm wide × 4.5 cm maximum thickness (bottom shape is substantially oval) A cylindrical body having an opening was formed. The spout was fixed by heat-sealing the opening while disposing a polyethylene spout having a diameter of 15 mm and a length of 10 cm in the opening. Thus, a standing pouch with a spout having a capacity of about 350 cc was produced.

  The pouch was filled with 330 cc of hydrogen water, and the spout lid was closed and sealed. For the production of the pouch, a filling machine manufactured by TD was used. The hydrogen concentration immediately after the initial filling was 1880 ppb. Thereafter, the mixture was sterilized by heating at 85 ° C. for 30 minutes, and after 24 hours, the hydrogen concentration was measured using a dissolved hydrogen concentration meter (DH-35A manufactured by Toa DKK Corporation). As a result, the hydrogen concentration after heat sterilization was 1240 ppb. Table 1 also shows the layer configuration and hydrogen concentration measurement results of the aluminum foils of this example and the following examples and comparative examples.

Example 2
A pouch was prepared in the same manner as in Example 1 except that ^two aluminum foils (3004 material, yield strength 5.1 N / mm ² ) each having a thickness of 5 μm were used as the first aluminum foil and the second aluminum foil. Then, hydrogen water was injected, and the hydrogen concentration of the contents after heat sterilization was measured. As a result, the hydrogen concentration was 1210 ppb.

Example 3
A pouch was prepared in the same manner as in Example 1 except that ^two aluminum foils (1N30 material, yield strength 21 N / mm ² ) each having a thickness of 50 μm were used as the first aluminum foil and the second aluminum foil. Water was injected and the hydrogen concentration of the contents after heat sterilization was measured. As a result, the hydrogen concentration was 1280 ppb.

Example 4
A pouch was prepared in the same manner as in Example 1 except that two pieces of aluminum foil (3004 material, yield strength 35.7 N / mm ² ) each having a thickness of 35 μm were used as the first aluminum foil and the second aluminum foil. Then, hydrogen water was injected, and the hydrogen concentration of the contents after heat sterilization was measured. As a result, the hydrogen concentration was 1250 ppb.

Comparative Example 1
A pouch was prepared in the same manner as in Example 1 except that ^two aluminum foils (1N30 material, yield strength 25.2 N / mm ² ) each having a thickness of 60 μm were used as the first aluminum foil and the second aluminum foil. Then, hydrogen water was injected and the hydrogen concentration of the contents was measured. As a result, the hydrogen concentration was 300 ppb. The LDPE on the inner layer side had cracks near the spout.

Comparative Example 2
Only one aluminum foil (purity 99.9%, yield strength 5 N / mm ² ) having a thickness of 12 μm was used as the aluminum foil, that is, “PET / aluminum foil / LDPE” was prepared and the pouch was prepared in the same manner as in Example 1. And hydrogen water was injected, and the hydrogen concentration of the contents was measured. As a result, the hydrogen concentration was 720 ppb.

Comparative Example 3
A pouch was prepared in the same manner as in Example 1 except that two aluminum foils (3004 material, proof stress 4.08 N / mm ² ) each having a thickness of 4 μm were used as the first aluminum foil and the second aluminum foil. Then, hydrogen water was injected and the hydrogen concentration of the contents was measured. As a result, the hydrogen concentration was 780 ppb.

Comparative Example 4
A pouch was prepared in the same manner as in Example 1 except that two aluminum foils (1N30 material, yield strength 2.1 N / mm ² ) each having a thickness of 5 μm were used as the first aluminum foil and the second aluminum foil. Then, hydrogen water was injected and the hydrogen concentration of the contents was measured. As a result, the hydrogen concentration was 780 ppb.

Comparative Example 5
A pouch was prepared and hydrogenated in the same manner as in Example 1 except that two aluminum foils (3004 material, yield strength 51 N / mm ² ) each having a thickness of 50 μm were used as the first aluminum foil and the second aluminum foil. Water was injected and the hydrogen concentration of the contents was measured. As a result, the hydrogen concentration was 280 ppb.

Comparative Example 6
One aluminum foil (3004 material, proof stress 5.1 N / mm ² ) having a thickness of 5 μm as the first aluminum foil, and 60 μm thick aluminum foil (1N30 material, proof stress 25.2 N / mm ² ) as the second aluminum foil A pouch was prepared in the same manner as in Example 1 except that one was used, and hydrogen water was injected, and the hydrogen concentration of the contents was measured. As a result, the hydrogen concentration was 920 ppb.

Comparative Example 7
Thick aluminum foil 5μm as the first aluminum (3004 material, yield strength 5.1 N / ^mm 2) one, an aluminum foil having a thickness of 50μm as a second aluminum (3004 material, yield strength 51N / ^mm 2) and one A pouch was prepared in the same manner as in Example 1 except that it was used, hydrogen water was injected, and the hydrogen concentration of the contents was measured. As a result, the hydrogen concentration was 280 ppb.

  As is clear from the above results, in the comparative examples, a significant decrease in hydrogen concentration by 30% or more was observed in 24 hours. By the way, in actual products, it takes several days to several months from manufacture to shipment and consumption by consumers, so it is considered that there is a further difference in hydrogen concentration. On the other hand, in Examples, it can be seen that a relatively high hydrogen concentration of 1200 ppb or more is maintained.

As described above, the first resin layer, the first aluminum foil, the second aluminum foil, and the second resin layer are included in this order from the inner wall layer, and each of the first aluminum foil and the second aluminum foil has a thickness of 5 μm or more and 50 μm or less. In the pouch container in which the proof stress of at least the second aluminum foil is 5 to 50 N / mm ² , hydrogen contained in the contents can be sufficiently prevented from leaking.

Claims (10)

A packaging material comprising a laminate including aluminum foil,
(1) The first resin layer, the first aluminum foil, the second aluminum foil, and the second resin layer are included in this order from the side in contact with the packaged item.
(2) The thicknesses of the first aluminum foil and the second aluminum foil are the same or different from each other, and are 5 to 50 μm,
(3) The yield strength of the second aluminum foil is 5 to 50 N / mm ² .
A packaging material characterized by that. The packaging material according to claim 1, wherein both the first aluminum foil and the second aluminum foil are soft foils. The packaging material according to claim 1 or 2, wherein the first resin layer is polyethylene and the second resin layer is polyethylene terephthalate. The packaging material in any one of Claims 1-3 which has an adhesive bond layer between 1st aluminum foil and 2nd aluminum foil. The packaging material according to any one of claims 1 to 4, wherein the first aluminum foil and the second aluminum foil have mutually facing surfaces 1) a gloss surface and a poppy surface, respectively, or 2) a poppy surface and a gloss surface, respectively. . The packaging material in any one of Claims 1-5 in which at least 1 sort (s) of aluminum powder and magnesium powder is contained in the 1st resin layer. A container comprising the packaging material according to claim 1,
(1) A pouch composed of the packaging material so that the side in contact with the packaged object becomes the first resin layer,
(2) A pouch with a spout, characterized by having a spout provided on the pouch so that an article to be packaged can be discharged from the pouch. The pouch with a spout according to claim 7, wherein the item to be packaged is a food or drink. The pouch with a spout according to claim 8, wherein the food or drink is hydrogen water. A product in which the pouch with a spout according to any one of claims 7 to 9 is filled with an article to be packaged.