JPH0642648A - Metal plate for gasket - Google Patents

Abstract

PURPOSE:To provide a metal plate for a gasket excellent in workability, sealing property, corrosion resistance and chemical resisting property. CONSTITUTION:A polyethylene resin film reformed by introducing 2wt.%-40wt.% of poly butadien, polyisoprene and ethylene-propylene-diene terpolymer as soft segment is laminated on one or both surfaces of a metal plate through adhesives or heat adhesion to provide a metal plate for a gasket.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gasket metal plate having excellent workability, sealability, corrosion resistance and chemical resistance.

[0002]

2. Description of the Related Art A method of forming a gasket from a metal material has been well known since ancient times, and gold, silver, copper,
Metals such as steel, aluminum and indium have been used. Although these metal plates are widely used at present, because of their high hardness, a strong winding force is required to obtain a sufficient seal.

In order to solve this problem, a method of applying a rubber compound emulsified with a water-based or organic solvent to a portion of a metal plate such as a steel plate where a seal is desired to be obtained and drying it has been considered. This made it possible to obtain a sufficient seal with a small tightening force, but in order to dry the applied rubber compound,
Even if an oven is used, a drying time of several minutes to several hours is required, which is disadvantageous in terms of economy and workability in addition to a bad odor during drying. Further, as a proposal of the same kind, there is a method of melting a thermoplastic resin such as an ethylene-vinyl acetate copolymer resin or a polyethylene resin, and injecting and applying it to a seal portion from a nozzle (Japanese Patent Laid-Open No. 62-152574). This is economical because it does not require drying, but it requires the resin to be applied individually, resulting in poor workability.

Further, a method has been proposed in which polypropylene is preliminarily laminated on a metal plate and sealed to produce a container body (Table 56-501720). However, polypropylene is vulnerable to impact during processing, etc. The seal may not be sustainable.

[0005]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a metal plate for a gasket which solves the above-mentioned drawbacks, that is, is excellent in workability and is excellent in sealing property, corrosion resistance and chemical resistance.

[0006]

According to the present invention, a modified polyethylene resin film is laminated on a metal plate for a gasket for the purpose of imparting sealing property, corrosion resistance and chemical resistance.

That is, the polyethylene resin film is modified by introducing a soft segment in an amount of not less than 2% by weight and not more than 45% by weight, and the film is bonded to one side or both sides of the metal plate with an adhesive or It is a gasket metal plate laminated by heat fusion.

The present invention will be described in detail below.

The polyethylene resin used in the present invention is based on general-purpose low-density polyethylene or medium-density polyethylene and has a content of 40% by weight of 2 or more.
It was modified with an amount of the material not exceeding the weight percent. Here, the substance is a substance that can form a soft segment in the resin, and corresponds to a compound containing one or more of polybutadiene, polyisoprene, and ethylene propylene diene terpolymer (EPDM) as a main component. By modifying with these substances, soft segments are introduced into various parts of the homopolyethylene resin composed of only so-called hard segments, and elasticity suitable for sealing can be obtained.

The amount of the substance added for the modification depends on the intended use, but if it is less than 2 weight percent, the effect of the modification cannot be sufficiently obtained, and although temporary sealing can be performed, stress cracking is caused in the long term. You will have problems such as. On the other hand, the upper limit of the amount of modifying substance varies depending on the atmosphere in which the gasket metal plate is used. Especially when the gasket metal plate is applied in an organic solvent atmosphere,
If it exceeds the weight percent, the elution of the modifying substance into the solvent is unfavorable. When not applied to an organic solvent atmosphere, modification up to 45 weight percent is possible, but when the modification substance exceeds 45 weight percent, the effect is saturated and it is not economical.

The modified polyethylene resin is provided in the form of a film. The thickness of the film is a factor that influences the sealing performance of the obtained metal plate for gaskets, but a film having a thickness of 30 to 200 μm is preferable. If it is less than 30 μm, it is not possible to sufficiently guarantee sealing, and if it exceeds 200 μm, performance is satisfactory but it is not economical.

This film is laminated on one side or both sides of a metal plate. The type of metal plate can be selected according to the application, but generally a copper plate, an aluminum plate, a steel plate, or a stainless plate is suitable. On the other hand, the thickness of the metal plate can be freely selected according to the purpose of application, but if the gasket to be manufactured requires molding such as drawing, by making the thickness of the metal plate thicker than the film. The occurrence of wrinkles can be effectively suppressed.

When a steel plate is used as the metal plate, from the viewpoint of corrosion resistance, the surface to be laminated has tin, zinc,
Various platings such as chromium and nickel can be applied in advance. So-called tinplate and tin-free steel (TFS) may be used. For example, when tinplate is used, the manufacturing method is not particularly limited, but the method by electroplating has advantages such as easy control of the weight of tin and smooth plating. There is. The weight per unit area of tin on the laminate surface is not particularly limited except for the corrosion resistance factor and the economical factor. In the outermost layer, a hydrated chromium oxide can be formed by chromic acid treatment or the like for the purpose of improving the adhesion to the film during lamination.

The films are laminated by a heat fusion method or an adhesive method. For example, in the case of manufacturing by a heat fusion method, it is efficient to laminate a film on a metal plate which has been heated in advance. The temperature of the metal plate is
It is preferable to set the temperature to 160 to 220 ° C. during lamination. If it is lower than 160 ° C, sufficient bonding cannot be obtained between the film and the metal plate, and if it exceeds 220 ° C, it is not economical, and in addition, a low melting point metal such as tin is melted.
On the other hand, in the case of laminating using an adhesive, the adhesive is not particularly limited as long as sufficient adhesive strength can be obtained for gasket application.

The surface which is not laminated can be coated with an organic or inorganic film before or after lamination for the purpose of improving corrosion resistance. For example, it is possible to apply a paint or to apply zinc or the like.

[0016]

Example A modified polyethylene was laminated on a metal plate. Table 1 shows conditions for sample preparation, and Table 2 shows the evaluation results. In addition, the evaluation was performed on the following items, and excellent was indicated by three grades of "○", inferiority "△", and unsuitable "X". Sealing property: A container having a roll-tightening seal is prepared, leaks after filling with gas at 2 atm are measured, and sealing performance as a gasket is evaluated. Impact resistance: DuPont impact test (1/2 inch φ, 500
Evaluation of gasket surface by g, 50 cm,) Corrosion resistance: Salt spray test of flat plate part and processed part (JIS Z2
371) Evaluate the corrosion state after 500 hours Stress crack resistance: Evaluate the occurrence of stress cracks after 4T bending test pieces are immersed in nonionic surfactant with time (50 ° C, 200 hours) Acid resistance / alkali resistance: DuPont After the impact test, the sample was dipped in 10% hydrochloric acid and 10% sodium hydroxide (35
Acid resistance and alkali resistance of the film are evaluated. Solvent resistance: After the DuPont impact test, the sample is immersed in acetone (35 ° C, 30 days) to evaluate the film condition.

As shown in Table 2, according to the present invention, since polyethylene is modified, all of the sealing property, impact resistance, corrosion resistance, stress crack resistance, acid / alkali resistance and solvent resistance are obtained. The items showed good properties. On the other hand, when homopolyethylene that was not modified as in Comparative Example was used, stress cracks easily occurred and the sealing performance was hindered. Further, when homopolypropylene was used, the film was whitened and a fine crack was generated by the impact. Therefore, it was inferior in terms of corrosion resistance and chemical resistance.

[0018]

The gasket metal plate of the present invention has excellent sealing properties, corrosion resistance, and chemical resistance, and can be used as a gasket material.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Akio Miyaji 1 of 775 Sachimachi, Kudamatsu City, Yamaguchi Prefecture

Claims (2)

[Claims] 1. A polyethylene resin film modified by introducing a material as a soft segment in an amount of not less than 2% by weight and not more than 45% by weight, on one side or both sides of a metal plate by an adhesive or heat fusion. Laminated metal plate for gasket. 2. The metal plate for a gasket according to claim 1, wherein the metal plate is a plated steel plate.