JP7053412B2 - How to inspect the coating condition on the surface of aluminum articles - Google Patents

Description

The present invention relates to a method for inspecting the coating state of the surface of an aluminum article having a transparent coat layer formed on the surface thereof.

For example, in the case of sheet-shaped packaging materials such as battery packaging materials, retort food packaging materials, and lid materials for containers for filling and packaging foods such as dairy products, the contents are protected from gas, moisture, and the like. Therefore, those having a barrier layer that does not allow gas, moisture, etc. to permeate are widely used. Aluminum foil is generally used as the barrier layer.
However, since the aluminum foil lacks corrosion resistance to acids and alkalis, discoloration, pinholes, etc. may occur on the surface of the aluminum foil depending on the contents, which may impair the appearance or the barrier property. There is.
Therefore, in order to protect the surface of the aluminum foil, a laminated body in which a resin film is laminated on one side or both sides of the aluminum foil via an adhesive layer is often used as a packaging material. At this time, the surface of the aluminum foil is coated with a coating agent made of, for example, a phosphate such as chromium phosphate or a rare earth oxide to form a base layer (coat layer) in advance, and then bonded from above. By applying an agent and adhering a resin film, peeling such as delamination is prevented. Further, the base layer itself also has an effect of preventing corrosion of the aluminum foil (see, for example, Patent Document 1 below).

Japanese Unexamined Patent Publication No. 2018-11090

However, since the above-mentioned base layer is colorless and transparent and thin, it is difficult to visually confirm whether or not the base layer is formed on the surface of the aluminum foil.
Therefore, when the adhesive is applied and the resin film is adhered to the surface of the aluminum foil in a state where the base layer is not formed, delamination or the like may be peeled off from the laminated body.
Further, even if it can be recognized that the base layer is formed, the state of the base layer cannot be confirmed. Therefore, when the coating agent is incompletely applied, for example, when it is applied in a mottled manner. In addition, a part of the base layer may be removed, which may cause delamination or the like in the laminated body.

The present invention has been made in view of the above problems, and it is possible to easily confirm the coating state of the surface of an aluminum article such as an aluminum foil having a transparent coat layer formed on the surface. The purpose is to provide a possible inspection method.

The present invention comprises the following aspects in order to achieve the above object.

1) A method for inspecting the coating state of the surface by the coat layer for an aluminum article in which a transparent coat layer is formed on the whole or a part of the surface.
The article is immersed in test water having a _H2O component ratio of 99.9% by mass or more at 25 ° C. and containing SiO ₂ : 2 to 40% by mass and Ca: 3 to 80% by mass to 90. It includes a first step of boiling at a temperature of ° C. or higher and a second step of visually observing the surface of the boiled article to confirm the presence or absence of an uncoated portion by the presence or absence of a color change. , A method for inspecting the coating condition of the surface of aluminum articles.

2) The method for inspecting the coating state of the surface of an aluminum article according to 1) above, wherein in the first step, water having an electric conductivity of 10 to 1000 μS / cm is used as the inspection water.

3) The method for inspecting the coating state of the surface of an aluminum article according to 1) or 2) above, wherein in the first step, the inspection water is used in an amount of 1 cc or more per 1 cm ² of the surface area of the article.

4) A method for inspecting the coating state of the surface of an aluminum article according to any one of 1) to 3) above, wherein in the first step, the time for boiling the article with the inspection water is 15 minutes or more.

5) A method for inspecting the coating state of the surface of an aluminum article according to any one of 1) to 4) above, wherein the article is an aluminum foil having a transparent coat layer formed on at least one of both sides.

6) The method for inspecting the coating state of the surface of an aluminum article according to 5) above, wherein the aluminum foil is formed by laminating a resin film on at least one surface of the coating layer from above.

In the inspection method of 1) above, when the aluminum article to be inspected is immersed in the inspection water and boiled, if there is an exposed portion on the surface of the article without a coat layer, the same portion is used. Aluminum reacts with SiO ₂ and Ca contained in the test water to cause discoloration. Therefore, by visually observing the surface of the article after boiling, it can be confirmed that there is an uncoated portion if there is a color change and that there is no uncoated portion if there is no color change.
Therefore, according to the inspection method of 1) above, it is possible to easily and surely inspect the coating state of the aluminum surface with the transparent coat layer.

According to the inspection method of 2) above, since the inspection water having an electric conductivity of 10 to 1000 μS / cm is used, only the aluminum surface portion where the appropriate ions are not sufficiently coated with the coat layer is covered. As a target, it reacts to the same part and discolors.

According to the inspection method of 3) above, since the inspection water uses 1 cc or more per 1 cm ² of the surface area of the aluminum article, the components of SiO ₂ and Ca that can sufficiently react with the aluminum of the exposed surface portion without the coat layer. The amount is secured and stable test results can be obtained.

According to the inspection method of 4) above, the time for boiling the aluminum article with the inspection water is 15 minutes or more, so that the aluminum on the exposed surface portion without the coat layer and the SiO ₂ and Ca contained in the inspection water are used. The reaction is sufficiently carried out and stable test results can be obtained.

According to the inspection method of 5) above, it is possible to easily confirm whether or not a transparent coat layer is surely formed on both sides or one side of the aluminum foil, and the coat layer enhances the corrosion resistance. It is possible to surely obtain the obtained aluminum foil.

According to the inspection method of 6) above, a packaging material that does not cause delamination or the like between the aluminum foil and the resin film laminated on both sides or one side thereof can be surely obtained.

It shows the inspection object of the inspection method by embodiment of this invention, and is the partially enlarged sectional view of the aluminum foil which has a base layer. The first step of the inspection method is shown, (a) is a perspective view which shows the inspection sample, (b) is a front view which shows the boiling process of an inspection sample and the like. It shows the 2nd step of the inspection method, and is the top view which shows the state of the inspection sample after boiling.

Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 to 3.
In the following embodiment, the method for inspecting the coating state of the surface of an aluminum article according to the present invention is applied to an aluminum foil used as a material for a packaging material such as a battery packaging material.

As shown in FIG. 1, the aluminum foil (1) has a base layer (2) formed on both sides thereof.
As the aluminum foil (1), for example, one made of A8079HO, A8021HO, or A1N30HO specified in JIS H4160 (2006) is used. The thickness of the aluminum foil (1) is not particularly limited, but is, for example, about 6 to 150 μm.
The base layer (2) is, for example, on the surface of the degreased aluminum foil, phosphoric acid, at least one resin selected from the group consisting of acrylic resin, chitosan derivative resin and phenolic resin, and chromic acid. An aqueous solution of a mixture containing at least one compound selected from the group consisting of a chromium (III) salt and at least one compound selected from the group consisting of a metal salt of fluoride and a non-metal salt of fluoride. It can be obtained by coating and then drying.
In the base layer (2), the amount of chromium adhered (per one side) is preferably 0.1 mg / m ² to 50 mg / m ² , and particularly preferably 2 mg / m ² to 20 mg / m ² .

Although detailed illustration is omitted, in the aluminum foil (1), an adhesive made of, for example, a urethane resin-based adhesive or an olefin resin-based adhesive is applied on the base layers (2) on both sides thereof. For example, polyolefin resins such as polyethylene resin (PE) and polypropylene resin (PP), polyamide resins (PA) such as 6 nylon resin and 6,6 nylon resin, and polyesters such as polyethylene terephthalate resin (PET) and polybutylene terephthalate resin (PBT). A packaging material is formed by laminating a stretched or unstretched resin film made of a resin or the like.

In the method for inspecting the surface coating state according to the present invention, the aluminum foil to be inspected has a _H2O component ratio of 99.9% by mass or more at 25 ° C. and SiO ₂ : 2 to 40% by mass ppm. And Ca: The first step of immersing in test water (H) containing 3 to 80 mass ppm and boiling at a temperature of 90 ° C. or higher, and visually observing the surface of the boiled aluminum foil (1). This is a second step of confirming the presence or absence of the uncoated portion (10) depending on the presence or absence of a color change.

In the first step, as shown in FIG. 2, the aluminum foil (1) cut into a size of, for example, the total width of the coil x several tens of mm, which is the coating range from the coil body, is used as the inspection sample (11). do.
Further, more preferably, in order to confirm that the inspection is performed without any trouble, an aluminum foil (plain foil) having no base layer formed on both sides is cut to the same size as the inspection sample (11). Is prepared as a reference (12) and is inspected together with the inspection sample (11). When the base layer (coat layer) is formed on only one side of the aluminum foil, or when the base layer (coat layer) is formed only on a specific part of both sides of the aluminum foil. , You don't have to prepare a reference.
The test water (H) may be clean water (tap water), drinking water such as mineral water, or the like as long as it satisfies the above-mentioned composition conditions, and these are diluted with distilled water, pure water, or ion-exchanged water. It is also possible to use it. Further, a mixture of these waters containing an appropriate amount of a SiO ₂ component (for example, sodium silicate (Na ₂ SiO ₃ )) and a Ca component (for example, calcium chloride (CaCl ₂ )) is mixed and dissolved, and the mixture is used. Is also good.
Further, it is preferable to use the test water (H) having an electric conductivity of 10 to 1000 μS / cm (1 to 100 mS / m).
The test water (H) is placed in a container (C) or the like and is boiled to 90 ° or more by a heating means such as a heater (not shown).
Here, the amount of test water (H) is preferably 1 cc or more per 1 cm ² of the total surface area of the test sample (11) and the reference (12). Specifically, for example, the upper limit of each surface area of the inspection sample (11) and the reference (12) may be set to 500 cm ² / liter, and as a guide, 6 sheets / 3 liter with a width of 500 mm × 50 mm. 695 mm width x 50 mm is 4 sheets / 3 liters, 820 mm width x 50 mm is 3 sheets / 3 liters. The boiling of the test sample (11) and the reference (12) with the test water (H) is preferably carried out for 15 minutes or more. The timing of charging the test sample (11) and the reference (12) into the test water (H) may be before or after the test water (H) boils to 90 ° or more. As a result, the aluminum on the surface of the inspection sample (11) exposed without the base layer (2) and the SiO ₂ and Ca components contained in the inspection water (H) sufficiently react and discolor. It becomes easy to distinguish the above, and stable inspection results can be obtained.
Since the used test solution (H) cannot be reused, it should be discarded after the test is completed.

In the second step, the inspection sample (11) and the reference (12) after boiling are taken out from the inspection water (H), and their surfaces are visually observed.
First, since the reference (12) is a plain foil whose both sides are not covered with the base layer, the aluminum exposed on both sides reacts with the SiO ₂ component and the Ca component in the test water (H) to be brown. Or it should have turned black. By confirming the state of this discoloration, it is possible to verify that the inspection is properly performed.
Next, visually observe the surface of the inspection sample (11) to see if there is a discolored part as in the reference (12). Then, if there is a discolored portion (10), it is found that the portion is uncoated, the base layer (2) does not exist, and the aluminum foil (1) is exposed as it is.

According to the inspection method of the above embodiment, it is easy and surely confirmed whether or not the transparent base layer (coat layer) (2) is well formed on both sides (or one side) of the aluminum foil (1). can do.
Further, according to the above method, it is possible to reliably obtain the aluminum foil (1) whose corrosion resistance is enhanced by the base layer (coat layer) (2).

The method for inspecting the surface coating state according to the present invention is an aluminum article other than aluminum foil, for example, an aluminum sheet, plate, block, etc., in which a coat layer such as a base layer is formed on the surface. If so, it can be applied in the same manner as in the above embodiment.
Further, it is considered that the method for inspecting the surface coating state according to the present invention can be applied to articles made of metals other than aluminum, for example, iron, copper, zinc, nickel and the like.

[Preparation of inspection samples and references]
Coating consisting of phosphoric acid, polyacrylic acid (acrylic resin), chromium (III) salt compound, water, and alcohol on both sides of a 40 μm-thick aluminum foil made of A8079HO specified in JIS H4160 (2006). A coil body of a coated foil having a width of 500 mm was prepared, which formed a base layer made of a chemical conversion film by applying the liquid and then drying at 180 ° C. The amount of chromium adhered to this chemical conversion film was 10 mg / m ² per side. Then, this coil body was cut into a size of the total width of the coil (500 mm) × 50 mm to prepare an inspection sample.
Further, a coil body of plain foil having the same aluminum composition and thickness as described above and having no base layer formed on both sides was prepared, and this coil body was cut to the same size as the inspection sample to prepare a reference. ..

[Preparation of test water]
24.5 mg of sodium silicate (Na ₂ SiO ₃ ) and 57.5 mg of calcium chloride (CaCl ₂ ) were dissolved in 1 liter of ion-exchanged water to prepare test water.
The electric conductivity of the test water was measured by a compact electric conductivity (conductivity EC) meter "LAQUAtwin" manufactured by HORIBA, Ltd. and found to be 180 μS / cm.

[Boil process]
3 liters of test water was poured into a container and heated by a heater, and when the temperature of the test water reached 90 ° C., the test sample and the reference were added. The heating by the heater was continued as it was, and the test sample and the reference were boiled so that the test water was kept at 90 ° C. or higher.

[Confirmation process]
After 15 minutes from the loading, the test sample and the reference were taken out from the test water, and the surface of the reference was first visually observed. As a result, it was confirmed that the color had changed to brown or black.
Then, when the surface of the inspection sample was visually observed, no discoloration was observed. As a result, it was confirmed that the base layer was well formed on the entire surface of the aluminum foil.

INDUSTRIAL APPLICABILITY The present invention can be suitably used as a method for inspecting the coating state of the surface of an aluminum article such as an aluminum foil having a transparent coat layer formed on the surface thereof.

(1): Aluminum foil
(2): Base layer (coat layer)
(10): Uncoated part
(11): Inspection sample
(12): Reference
(H): Test water
(C): Container

Claims (6)

It is a method for inspecting the coating state of the surface by the coat layer for an aluminum article in which a transparent coat layer is formed on the whole or a part of the surface.
The article is immersed in test water having a _H2O component ratio of 99.9% by mass or more at 25 ° C. and containing SiO ₂ : 2 to 40% by mass and Ca: 3 to 80% by mass to 90. It includes a first step of boiling at a temperature of ° C. or higher and a second step of visually observing the surface of the boiled article to confirm the presence or absence of an uncoated portion by the presence or absence of a color change. , A method for inspecting the coating condition of the surface of aluminum articles. The method for inspecting the coating state of the surface of an aluminum article according to claim 1, wherein in the first step, water having an electric conductivity of 10 to 1000 μS / cm is used as the inspection water. The method for inspecting the coating state of the surface of an aluminum article according to claim 1 or 2, wherein in the first step, the inspection water is used in an amount of 1 cc or more per 1 cm ² of the surface area of the article. The method for inspecting the coating state of the surface of an aluminum article according to any one of claims 1 to 3, wherein in the first step, the time for boiling the article with the inspection water is 15 minutes or more. The method for inspecting the coating state of the surface of an aluminum article according to any one of claims 1 to 4, wherein the article is an aluminum foil having a transparent coat layer formed on at least one of both surfaces. The method for inspecting the coating state of the surface of an aluminum article according to claim 5, wherein the aluminum foil is formed by laminating a resin film on at least one surface of the coat layer from above.

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