JP2002086614A - Biaxially stretched polyamide film for lamination and retort pouch using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biaxially stretched polyamide film for lamination having gas barrier properties and shading properties capable of sterilizing content under pressure and heating without using an aluminum foil, and capable of protecting the deterioration of the content even during the long-term preservation and distribution of the content, and retort pouch using the same. SOLUTION: The biaxially stretched polyamide film for lamination is constituted by providing an aluminum vapor deposited layer on the single surface of a biaxially stretched polyamide film, and providing a high barrier layer. The barrier layer is selected from an aluminum vapor deposition layer, aluminum oxide deposition layer, silica vapor deposition layer, a PVD coating layer and PVA coating layer, on the other surface thereof. The retort pouch is formed from the biaxially stretched polyamide film formed from the laminate comprising the base material layer, the barrier layer and the heat seal layer.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a biaxially stretched polyamide film having a highly improved barrier property and a retort pouch using the same.

[0002]

2. Description of the Related Art Tort foods and the like, which are mainly filled with food in a pouch, hermetically sealed, sealed and then sterilized by heating under pressure, are commercially available. The retort packaging material (hereinafter referred to as “retort pouch”) composed of a flexible laminate resists the above-mentioned pressurized heat sterilization, and maintains the sealing and the quality of the contents for a long period of time at room temperature distribution, causing deterioration of taste. Not required. As shown in FIG. 3, the conventional retort pouch has an aluminum foil in an intermediate layer and has the following specifications. PET / ON / AL / CPP (a) PET / AL / ON / CPP (b) PET / AL / CPP (c) [Abbreviation PET: biaxially stretched polyester film, O
N: biaxially stretched polyamide film, AL: aluminum foil, CPP: cast polypropylene film] In the specification composed of these laminates, the aluminum foil had almost zero oxygen and water vapor barriers and good light-shielding properties. Aluminum foil was also important in terms of physical properties.

[0003]

However, in recent years,
In terms of waste disposal, retort pouches with a high proportion of aluminum foil as the material of the laminate forming the pouch are difficult to separate, and due to the burden of the company due to the recycling law derived from this, the barrier properties and light shielding properties There is a need for materials and processing methods that can be substituted for aluminum foil. As a method of obtaining gas barrier performance and light shielding properties without using an aluminum foil, a method of using a film in which aluminum is vapor-deposited on one side is considered. However, the aluminum-deposited film is
Cannot be used for printing stock. In addition, when a film on which aluminum is deposited is used in place of aluminum foil as a barrier material, the barrier property is reduced by retort, and the barrier layer is actually used because it is considerably inferior to the case where aluminum foil is used. Hardly ever. For example, when a biaxially stretched polyamide film on which aluminum is deposited is used as a barrier layer to form a packaging material for retort, the moisture absorption and drying of nylon by the retort cause
In some cases, the barrier property and the light-shielding property may be deteriorated. In addition, since there is moisture absorption during storage, it has been necessary to strictly wrap and store the film winding and to keep the storage conditions strict so as not to cause swelling or the like. An object of the present invention is to provide a gas barrier that can protect contents from deterioration and deterioration even when the contents are stored and distributed for a long period of time without using aluminum foil. And a light-shielding film and a retort pouch using the same.

[0004]

According to the present invention, there is provided a biaxially stretched polyamide film having an aluminum vapor-deposited layer provided on one surface thereof,
Aluminum evaporation, aluminum oxide evaporation, silica evaporation, P
A biaxially stretched polyamide film for lamination characterized by being provided with a high barrier coat layer selected from a VDC coat and a PVA coat, and a laminate formed of at least a base layer, a barrier layer, and a heat seal layer. ,
The retort pouch wherein the barrier layer is made of the biaxially stretched polyamide film for lamination.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION The inventor of the present invention has conducted intensive studies on the above-mentioned problems, and as a result of conducting extensive research, the present inventors have conducted aluminum vapor deposition on one surface of a biaxially stretched polyamide film and aluminum vapor deposition on the other surface.
Aluminum oxide deposition, silica deposition, PVDC coating, PVA
By applying a high barrier coat selected from coats, it is possible to obtain a biaxially stretched polyamide film for lamination having a barrier property and a light-shielding property that can be opposed to an aluminum foil conventionally used as a barrier layer. It has been confirmed that a biaxially stretched polyamide film for use as a barrier material in forming a laminate of a retort pouch has been completed, and the present invention has been completed. FIG. 1 is a cross-sectional view illustrating a configuration of a biaxially stretched polyamide film for lamination of the present invention. FIG. 2 is a cross-sectional view illustrating a configuration example of a biaxially stretched polyamide film for lamination of the present invention.

In the biaxially stretched polyamide film for lamination of the present invention, as shown in FIG. 1, an aluminum vapor deposition layer 3 is formed on one surface of a biaxially stretched polyamide film 2 and a high barrier coat layer 4 is formed on the other surface. It is provided. By forming the aluminum vapor deposition layer 3, the light-shielding property is given to the biaxially stretched polyamide film 2 which is a transparent film as well as the barrier property. The biaxially stretched polyamide film 2 has strength as a film, and when laminated as a constituent film of a pouch laminate, exhibits excellent effects such as pouch drop strength and bending strength. The stretched polyamide film is a film exhibiting good gas barrier properties in a dry state, but is known to have hygroscopicity as a film and to have a reduced barrier property in a moisture-absorbed state. Therefore, it is preferable to use the biaxially stretched polyamide film under the condition that there is no fear of moisture absorption.

As a result of research on a method for further improving the barrier properties of the biaxially stretched polyamide film, the present inventors have found that, as described above, aluminum is vapor-deposited on one side and a high barrier coat layer is provided on the other side. By this, it was found that infiltration (moisture absorption) of water into the biaxially stretched polyamide film could be prevented, and the barrier property was stabilized.

[0008] As a high barrier coat of the present invention, a study was made on a material capable of improving the barrier properties of a biaxially stretched polyamide film to the level of an aluminum foil together with the aluminum vapor-deposited layer. In addition, a film having gas barrier properties close to zero could be obtained. Specifically, the layer is selected from one or more high barrier coat layers selected from an aluminum vapor-deposited layer, a silica vapor-deposited layer, a PVDC coat layer, and a PVA barrier coat layer.

[0009] The biaxially stretched polyamide film for lamination thus obtained can be widely used as a barrier layer of a laminate in packaging materials for many foods, pharmaceuticals and the like that require barrier properties and light shielding properties. It shows a great effect in a pouch for use. Hereinafter, a packaging material obtained by laminating the above-described biaxially stretched polyamide film for lamination and a retort pouch using the same will be described.

When the biaxially stretched polyamide film for lamination of the present invention is applied to a pouch for retort, a laminate for forming the pouch for retort includes, as shown in FIG. An adhesive layer 9 composed of a stretched polyamide film (barrier layer) 1 and a sealant layer 8, and the base layer 6 and the barrier layer 1, and the barrier layer 1 and the sealant layer 8 each bonded by a dry lamination method, is formed and laminated. Is done.

As the base layer 6, a film having mechanical strength and excellent in dimensional stability, heat resistance, water resistance and the like is used. Specifically, a biaxially oriented polyester film, a biaxially oriented polyamide A film, a biaxially stretched polypropylene film, or the like can be used. In addition, the sealant layer is selected from materials having stable heat sealing properties and heat resistance to heating in retort treatment, but specific examples of the resin used as the sealant layer include medium, high-density polyethylene and cast polypropylene. And so on.

The adhesive used for the dry lamination is preferably a urethane-based adhesive. As the urethane-based adhesive, any type can be used as long as it is used for retort.
For example, a two-component reactive polyurethane-based adhesive comprising a polyol component having a hydroxyl group such as a polyester polyol and a polyisocyanate component having an isocyanate group such as a diisocyanate, and forming a urethane bond by a reaction between the hydroxyl group and the isocyanate group to be cured. Etc. can be used. The coating amount of the urethane-based adhesive is suitably about 0.5 to 5.0 g / m ² as a dry weight.

When the retort treatment is performed by filling the contents of the laminated and bagged retort pouch as described above, sealing the biaxially stretched polyamide, the biaxially stretched polyamide used as the barrier layer absorbs the moisture of nylon by the retort. There is no swelling, no drying, no deterioration in barrier performance and light-shielding properties, and no adhesion failure (deterioration in appearance and reduction in adhesive strength) that occurs when a barrier film is laminated over two layers. In addition, since the deterioration and delamination of the barrier layer due to retort are caused by permeation of water, oil, and the like from the base material side, the present specification has found that delamination and decrease in barrier properties after retort can be prevented. .

One side of the biaxially stretched polyamide film is subjected to aluminum deposition, and the other side is subjected to aluminum deposition, aluminum oxide deposition, silica deposition, PVDC coating, PVD coating.
By applying the high barrier coat selected from the A barrier coat, there is no moisture absorption and drying of the nylon by the retort, the barrier performance, the deterioration of the light-shielding property, etc. are not impaired, and the adhesion failure caused when the barrier film is stacked in two layers (appearance of appearance) Degradation and decrease in adhesive strength) do not occur. In addition, when a biaxially stretched polyamide film on one side of which aluminum is deposited is used as a barrier layer, deterioration and delamination due to retort are caused by permeation of water, oil, etc. from the non-deposited side of the substrate. Therefore, in the retort pouch according to the present invention, in which the biaxially stretched polyamide film for lamination is used as a barrier layer in the laminate specification, since the high barrier coat layer is present, delamination after retort and deterioration of barrier properties are prevented. it can.

The biaxially stretched polyamide film for lamination of the present invention has a moisture-proof property as a film because it has an aluminum vapor-deposited layer on one side and the high barrier coat on the other side, and has a low moisture absorption during storage. Even if the packaging and storage conditions for film winding are relaxed, the quality of the film for lamination does not deteriorate.

The retort pouch using the biaxially stretched polyamide film for lamination of the present invention as a barrier layer can withstand ordinary retort sterilization conditions. The retort processing is performed as follows. Food-filled and sealed pouches are aligned and placed on a spacer plate and inserted into a pressurized superheat sterilization tank.As sterilization conditions, hot water or superheated steam is introduced into the tank, and according to predetermined heat sterilization conditions. Perform sterilization. The predetermined heat sterilization conditions vary depending on conditions such as the type, the content, the range of distribution, and the temperature of the contents. After maintaining the above temperature and sterilizing the inside of the pouch, the temperature of the contents is lowered to 100 ° C. or lower in the tank, and the pouch is taken out of the tank. The biaxially stretched polyamide film for lamination of the present invention has no barrier property as a pouch due to temperature rise or cooling during retort treatment even when it is used as a barrier material in a retort pouch, and as an aluminum foil substitute. It is a practical barrier material.

[0017]

EXAMPLES Next, the biaxially stretched polyamide film for lamination of the present invention and the pouch for retort using the same will be described more specifically with reference to examples. The abbreviations are as follows. [PET, ON and CPP are AD: urethane-based adhesive, VM: evaporated aluminum film] Creating Example 1 laminate to form a 50nm aluminum deposited layer under a vacuum of 1 × 10- ⁴ mmHg on both surfaces of the biaxially oriented nylon film of 15 [mu] m. Using this nylon, PET12 ・ Print / AD / VM ・ ON15 ・ VM / AD
/ CPP70 PET: E5102 (trade name, manufactured by Toyobo Co., Ltd.) AD: urethane-based adhesive DIC LX703 / KR9
0 (trade name, manufactured by Dainippon Ink and Chemicals, Incorporated), coating amount 3.5 g / m ² . CPP: ZK93K (trade name, manufactured by Toray Industries, Inc.) Aging condition: A laminate having a specification of 40 ° C. × 3 days was obtained. Example 2 to form a 50nm aluminum deposited layer under a vacuum of 1 × 10- ⁴ mmHg to one side of the biaxially stretched nylon film of 15μm, 1 × 10- ⁴ mmHg on the other side
An aluminum oxide vapor deposition layer having a thickness of 40 nm was formed under the vacuum described above. Using this nylon, PET12 ・ Print / AD / VM ・ ON15 ・ VM / AD
/ CPP70 PET: E5102 (trade name, manufactured by Toyobo Co., Ltd.) AD: Urethane-based adhesive DIC LX703A / KR
Nippon Ink Chemical Industry Co., Ltd. 90, trade name: 3.5 g / m ² . CPP: ZK93K (trade name, manufactured by Toray Industries, Inc.) Aging condition: A laminate having a specification of 40 ° C. × 3 days was obtained. [Comparative Example 1] 1 × 10
An aluminum deposited layer of 50 nm was formed under a vacuum of ⁴ mmHg. Using this material, PET12 ・ Print / AD / VM ・ ON15 / AD / CP
P70 PET: E5102 (trade name, manufactured by Toyobo Co., Ltd.) AD: Urethane adhesive DIC LX703A / KR
Nippon Ink Chemical Industry Co., Ltd. 90, trade name: 3.5 g / m ² . CPP: ZK93K (trade name, manufactured by Toray Industries, Inc.) Aging condition: A laminate having a specification of 40 ° C. × 3 days was obtained. Comparative Example 2 1 × 10
- ⁴ mmHg to form an aluminum deposition layer of 50nm in vacuum of, on one surface of PET12μm, 1 × 10- ⁴ mm
An aluminum oxide deposited layer of 40 nm was formed under a vacuum of Hg. Using this material, PET12 (aluminum oxide vapor deposition surface product name), printing / A
D / VM · ON15 / AD / CPP70 PET: E5102 (trade name, manufactured by Toyobo Co., Ltd.) AD: Urethane-based adhesive DIC LX703A / KR
Nippon Ink Chemical Industry Co., Ltd. 90, trade name: 3.5 g / m ² . CPP: ZK93K (trade name, manufactured by Toray Industries, Inc.) Aging condition: A laminate having a specification of 40 ° C. × 3 days was obtained. 2. Bag-making, filling, and retort sterilization treatment Each of the laminates having the specifications described in Examples 1 and 2 and Comparative Examples 1 and 2 was converted into a pouch of 120 mm width × 180 mm length of a four-sided seal type, and the content was distilled water. 200 ml was filled and sealed. The dimensions of the pouch were external dimensions (the seal width was 10 mm in each case). The filled and sealed pouch is placed on a hot water type retort kettle, and the temperature of the center of the pouch is 121.
Sterilization was performed at a heating temperature of 3 ° C. for 3 minutes. <Evaluation method>

(1) Appearance inspection The surface of the laminate before and after the retort treatment was visually observed. (2) Gas Barrier Property The oxygen permeability of the laminate before and after the retort was measured. Oxygen permeability measurement method: JIS K7126 B method Measurement device: MODERN CONTROL, INC. OX-TRAN 2/20 <Result>

The results are as shown in Tables 1 and 2.

[Table 1]

[Table 2] When the biaxially stretched polyamide film for lamination of the present invention is used, the gas barrier property before and after retort has an oxygen permeability of 1.0 cc / m ² · day or less, and has a function as a packaging material for retort foods. The appearance before and after the retort was also good. In Comparative Examples 1 and 2, a biaxially stretched polyamide film on which aluminum was vapor-deposited on one surface was used as a barrier layer, and a biaxially stretched polyester film on which aluminum oxide was vapor-deposited was used as a base material of Comparative Example 2. The property is 1.0cc as oxygen permeability
/ M ² · day or more, and particularly in Comparative Example 1, the oxygen permeability increased due to the retort treatment, and the barrier property was clearly reduced.

[0020]

By making use of the strength of the biaxially stretched polyamide film, aluminum is deposited on one side and a high barrier coat layer is provided on the other side to form a film having a barrier property and a light-shielding property that can be substituted for aluminum foil. Was completed. In addition, a retort pouch made of a packaging material for a retort in which this film is laminated as a barrier layer does not need to separate aluminum in a conventional laminate, and is easily disposed of.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view illustrating a configuration of a biaxially stretched polyamide film for lamination of the present invention.

FIG. 2 is a cross-sectional view illustrating a configuration example of a biaxially stretched polyamide film for lamination of the present invention.

FIG. 3 is a cross-sectional view illustrating a configuration example of a conventional retort pouch.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Biaxially stretched polyamide film for lamination 2 Biaxially stretched polyamide film 3 Aluminum vapor deposition layer 4 High barrier coat layer 5 Laminated body 6 Base layer 7 Barrier layer 8 Heat seal layer 9 Adhesive layer 10 Biaxially stretched polyester film 11 Aluminum foil 12 Polyolefin System sealant 13 printing layer

Continued on the front page F-term (reference) 3E067 AA11 AB01 AB81 BA12A BB12A BB14A BB18A BB25A CA05 CA06 CA12 CA24 EE48 GC01 3E086 AD01 BA04 BA13 BA15 BA33 BB02 BB05 BB21 BB51 CA01 CA27 CA28 4F100 AA10B ATCAB AK13 BA10B BA10C BA10E BA13 CC00C EH46C EH66B EH66C EJ38A GB17 GB23 JD02C JL12E JM02B JM02C

Claims (2)

[Claims] 1. A biaxially stretched polyamide film provided with an aluminum vapor-deposited layer on one side and a high barrier coat layer selected from aluminum vapor-deposited, aluminum oxide-deposited, silica-deposited, PVDC-coated and PVA-coated on the other side. A biaxially stretched polyamide film for lamination, characterized in that: 2. A laminate comprising at least a laminate comprising a base material layer, a barrier layer and a heat seal layer, wherein the barrier layer comprises the biaxially stretched polyamide film for lamination according to claim 1. Retort pouch to do.