SU595017A1 - Method of metalisation of polymer films - Google Patents

Description

I

The invention relates to the field of production of metallized polymer polymers in an ice pack.

From: the method of metallization of a polymer film using a stencil, which consists in stencil drawing on the surface of a water-soluble paint, and then the film is metallized in vacuum and treated with water to remove paint 1.

However, in this method, the operation of treating a film with a series and subsequent fragments makes the process unproductive and degrades the quality of the film due to mechanical damage to the metal coating. In addition, insufficient drying of the rolls after their treatment with water causes adhesion of the film and a violation of the metal coating and the substrate itself.

In order to intensify the process, a method is proposed for the metallization of polymer ilens, in KOTODOM on a polymer film "a heat-sensitive and pigmented paint is applied. .

Heat treatment is carried out in vacuum at 60-300 ° C, and vibration at a oscillation frequency of 1 min is 2800.

The proposed method allows to simplify the technology, increase the intensity of the method, and prevent damage to the metal layer when removing the protective coating.

10 The method is carried out

in the following way .

A thermal paint is applied to the polymer film, the critical temperature of which (physical transformation temperature) is lower than the temperature range of the physicomechanical properties of the film, so that the thermal paint protects areas that are not subject to coating. Then, in vacuum, metals, such as aluminum, are then applied to the film, and then. heat treated at temperatures above the critical TeMnepaTyjiy heat-dyeing, but below the physical and mechanical properties of the film. This temperature, depending on the brand of thermal paint and on the properties of a particular film, varies in the range of 6 ° C to 300 ° C.

The table shows

Marks and properties 30 thermocoloures.

 In the composition of all tsrmokrasok as a solvent take ethyl alcohol.

As a result of heat transfer, the thermal paint undergoes physical transformations and peels off the film under the influence of stresses arising at the metal – polymer interface, the paint is removed under the influence of vibration forces at an oscillation frequency of 1 nd 2800.

Example 1. A layer of TI-40 thermograms (critical temperature 40 ° C) is applied to the polypropylene strip areas that are not subject to metal coating. Then, aluminum is sprayed onto a vacuum unit, such as the UVN-2M-2. The metallized n-polypropylene film is heated to 60 ° C and then exposed to B: Ibranionic forces in a mechanical vibrator to remove paint at an oscillation frequency of 1 min. 2800.

Example 2. A polyethylene terephthalate film is coated with a thermal paint TI-40. The metallized polyethylene terephthalate spit is heated to 100 ° C, after which the thermow | split is removed as in example 1.

Example 3. Thermal paint brand TI-210 (critical temperature 210 ° C) is applied to the polyamide film. Marked

The iimide film is heated to EPA, after which the thermal paint is removed, as in Examples 1 and 2.

Example 4. A thermal brand 4B (critical temperature) is applied to the fluoroplastic film. The metallised fluoroplastic plaster is heated to, after which the thermal paint is removed as in Example 1, 2, 3.

Thus, the proposed method makes it possible to increase the productivity of the labor by 75 times; reduce costs pa wages more than 86 times; reduce energy costs by 32 times; reduce the need for production plosh.ad x 112 times.

In the end, the annual economy from the production of metallized film by this method is 3 million 946 thousand rubles.

Claims (1)

1. Japan patent No. 43-2609, cl. 25 N 13, published. 1967.