JPH0326540A - Base material partially having insulating metal membrane and method for partially applying insulating metal membrane - Google Patents

Abstract

PURPOSE:To enhance adhesion and to prevent the generation of a flaw by partially applying water-soluble paint to the surface of a base material and forming an insulating metal membrane to the entire surface of the base material and further applying water-insoluble paint thereto in a specific thickness to perform washing. CONSTITUTION:Water-soluble paint is partially applied to the surface of a base material by printing and an insulating metal membrane is formed on the entire surface of the base material and water-insoluble paint is applied to the insulating metal membrane in a thickness of 0.05-1.0mum and, further, washing is applied to dissolve and remove the water-soluble paint. By this method, the insulating metal membrane on the water-soluble paint is removed and the insulating metal membrane can be partially applied to the part where no water-soluble paint is present. Therefore, the adhesion of the base material becomes strong and no flaw is generated and beautiful metal gloss is held.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention relates to a substrate on which an insulating metal thin film is partially applied and a method for partially applying an insulating metal thin film. The present invention relates to cut materials in which the existing metal thin film tends to have a metallic luster and 71 insulation properties, and a method for partially applying such a metal thin film. (Prior art) As a base material having a gold R thin film partially on its surface, a water-soluble paint is partially applied by printing etc. on a plastic film, a metal thin film is formed on the entire surface, and then A plastic film obtained by washing with water and partially having a metal thin film is known (see Japanese Patent Publication No. 43-2600 and Japanese Patent Publication No. 5638611). This is obtained by partially applying a metal thin film using a water washing method, and partially has a metallic luster. Also known is an insulating metal 'Ffl film which has a metal thin film arranged in an island-like structure and has metallic luster and insulating properties (see JP-A-62-174189). By combining these two techniques, the inventor was able to obtain a plastic film partially covered with an insulating metal thin film. (Problem to be Solved by the Invention) However, although the plastic film partially having an insulating metal thin film described above has a metallic luster, the insulating metal thin film is removed during the washing and drying process. Scratches occurred on the surface and the insulating gold R thin film was destroyed, and as a result, a beautiful metallic luster could not be obtained in terms of appearance. The reason for this is, on the one hand, that the insulating metal thin film is horizontally structured in the form of islands, and the island-like metal atomic clusters are not bonded to each other and are separated from each other. It is thought that the adhesion force is extremely weak compared to the case where a continuous metal film is formed, and the adhesion state of the island-like metal atomic clusters is easily destroyed by external force. This is thought to be because in the process, puffing is performed to increase washing efficiency and wiping is performed to increase drying efficiency. After careful consideration, the inventor has decided to eliminate the two drawbacks. (Means for Solving the Problems) This invention involves partially applying a water-soluble paint to the surface of a base material by printing or the like, and forming an insulating metal thin film over the entire surface. Upper JI 0.05-1.0
The insulating metal thin film on the water-soluble paint is removed by applying μho's water-insoluble paint and washing the resulting product with water to dissolve and remove the water-soluble paint. This is a base material partially having an insulating metal thin film, which is obtained by leaving an insulating metal thin film in areas where it does not exist. In addition, this invention partially applies a water-soluble paint to the surface of the base material by printing or the like, and then applies an insulating metal g! The film is formed on the entire surface, and the thickness of the top layer of the insulating metal thin film is 0.05 to 1.
-0μ water-insoluble paint is applied, and the thus obtained product is washed with water to dissolve and remove the water-soluble paint, thereby achieving an insulating metal gtJl on the water-soluble paint! This is a method for partially applying an insulating gold film, which is characterized by removing the water-soluble paint and leaving an insulating metal thin film in areas where no water-soluble paint is present. The base material includes all types of plastic films that can form an insulating metal thin film and that can be washed with water. In this case, various plastic films, etc.
Desired patterns, designs, characters, etc. may be printed in advance, and such items are also included in the base +4 of this series. In addition, the eight materials may not be single bodies, but may be composites coated with appropriate resins or laminated together for appropriate purposes, and such materials are also included in the base material of the present invention. The water-soluble paint uses an appropriate resin and is partially applied to the surface of the group H by printing or the like. The insulating metal thin film is Sn. Pb. Using Zn, various other metals, various alloys, etc., it is coated with a water-soluble paint and then formed on the entire surface by various thin film formation methods such as vacuum evaporation, sputtering, and ion plating. In this case, the metal thin film has an island-like structure and is an insulating metal thin film. The water-insoluble paint is coated entirely or partially over the insulating gold m R IBt using a suitable resin by reverse coating, gravure coating, etc. When partially applying a water-insoluble paint, apply it at least to the area where no water-soluble paint is present. Even if there is no water-soluble paint, if only a portion of the area requires an insulating metal thin film, the water-insoluble paint may be applied only to the necessary areas. When partially applying a water-insoluble paint, the water-insoluble paint may be in contact with or separated from the water-soluble paint;
In other words, the water-insoluble paint and the water-soluble paint do not need to overlap, or they may partially overlap. In this specification, the thickness of the water-insoluble paint means the dry film thickness. Water-insoluble paints are applied extremely thinly, with a thickness of 105 to 1.0 μm. Within this range, a range of 0.1 to 0.3 μm is particularly preferable. If the thickness of the water-insoluble paint exceeds 1-0 μm, it cannot be washed smoothly. Moreover, if it is thinner than 0.05, scratches will occur in the insulating metal thin film. The base material partially having the insulating metal thin film of this invention can be used as it is, or by providing an appropriate resin layer or plastic film on the insulating metal thin film for protection, for various purposes such as packaging. can. They can also be used as composites by laminating them with appropriate paper or other plastic films. To give yet another example of use, a base material is one in which a release layer and a storage layer are sequentially laminated on one side of a plastic film, and an insulating metal thin film is coated on the protective layer of the cut material by the method of the present invention. By applying an adhesive layer to the entire surface of the insulating metal thin film, it is possible to obtain a transfer material in which an insulating metal thin film with a beautiful metallic luster is partially formed. This transfer material on which an insulating metal thin film is partially formed has insulation properties and microwave permeability because the insulating metal thin film has an island-like horizontal structure, and it can be used for electrical products, electrical equipment, etc. It is beneficial to use it for microwave oven containers and packaging, and it can be used not only for general embossing and rubber stamping, but also for
It can also be used as a transfer material for in-mold molding and for transfer during injection molding. (Example) A water-soluble paint consisting of polyvinyl alcohol and extender pigments was partially applied by gravure printing to one side of a wide and long polyester film with a thickness of 12 μm. Next, Sn was vacuum-deposited from above to form an insulating Sn-deposited layer having a thickness of 30OA and having an island-like structure. This insulating Sn vapor deposited layer had a beautiful metallic luster. Next, a water-insoluble paint consisting of a polyvinyl chloride-vinyl acetate copolymer resin and a mixed solvent containing toluene, ethyl acetate, and methyl isobutyl to dissolve it was applied onto the insulating Sn vapor-deposited layer using a reverse roll coater. The film was coated on the entire surface with various film thicknesses and dried. Thereafter, the material obtained in this manner is washed and puffed by immersing it in a water tank while running, and the water-soluble paint consisting of polyvinyl alcohol and extender pigment is dissolved to form an insulating Sn vapor deposited layer on the water-soluble paint. The water-insoluble paint was removed, and the insulating Sn vapor deposited layer was left in the areas where no water-soluble paint was present, and then the water was wiped off and dried.
In this case, the dissolution start time of the water-soluble paint after immersion was measured, and the appearance of the insulating Sn vapor deposited layer after washing and drying was observed for the presence or absence of scratches. The results are shown in the table below. - From the table listed in item 11, the thickness of the water-insoluble paint is 0.05 to 1.
．． If it is in the 0 range, the insulating Sn vapor deposited layer will not be damaged even if it is puffed during the washing process or wiped off during the drying process, and the insulating Sn vapor deposited layer will not be destroyed and will remain a beautiful metal. It can be seen that not only can the gloss be maintained, but it can also be washed with water smoothly. In addition, if there is no water-insoluble paint, the insulating Sn vapor deposited layer will be severely scratched, and if the water-insoluble paint is too thin (0.03 mm), the water-insoluble paint will be destroyed and the insulating Sn deposited layer will be damaged.
Numerous scratches occurred on the n-deposited layer, and the beautiful metallic luster could not be maintained. In addition, the thickness of the water-insoluble paint is 1.2~
If the thickness is too thick (1.5), a good metallic luster can be maintained, but even if the film running speed is considerably lowered (11.0 to 4.0), the water insoluble paint will prevent water from penetrating tζ1.
First, the dissolution start time (seconds) of the water-soluble paint after immersion is 8.
It takes more than 5 to 20 seconds, and the water washing process cannot be performed smoothly. In this case, although not shown in the table, undissolved water-insoluble paint floated in the water tank, hindering subsequent washing. (Effects of the Invention) This invention partially applies insulating metal gtI1M using a water washing method, but in that case, a water-insoluble paint with a thickness of 0.05 to 1.0 μm is applied over the insulating metal thin film. Apply,
Since it is then washed with water, the partially applied insulating metal thin film does not get scratched and retains its beautiful metallic luster.

Claims (4)

[Claims] (1) A water-soluble paint is partially applied to the surface of the base material by printing, etc., and an insulating metal thin film is formed on the entire surface,
A water-insoluble paint with a thickness of 0.05 to 1.0 μm is applied over the insulating metal thin film, and the resulting product is washed with water to dissolve and remove the water-soluble paint. 1. A base material partially having an insulating metal thin film, which is obtained by removing the insulating metal thin film and leaving the insulating metal thin film in areas where no water-soluble paint is present. (2) The base material partially having an insulating metal thin film according to claim 1, wherein a water-insoluble paint is applied over the entire surface of the insulating metal thin film. (3) The substrate partially having an insulating metal thin film according to claim 1, wherein a water-insoluble paint is coated on at least a portion where no water-soluble paint is present on the insulating metal thin film. (4) Partially apply a water-soluble paint to the surface of the base material by printing etc., and form an insulating metal thin film over the entire surface,
A water-insoluble paint with a thickness of 0.05 to 1.0 μm is applied over the insulating metal thin film, and the resulting product is washed with water to dissolve and remove the water-soluble paint. A method for partially applying an insulating metal thin film, the method comprising removing the insulating metal thin film and leaving the insulating metal thin film in areas where no water-soluble paint is present.