JPH0571033B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to an anti-corrosion protective layer on a metal material and a method for forming an anti-corrosion protective layer on a metal material.

[Prior Art] Water pipes, gas pipes, oil pipelines, chemical plant pipelines, etc. are usually made of metal, and are particularly susceptible to corrosion when made of steel.

In order to prevent corrosion of metal materials, there is a method of applying a liquid resin composition that hardens at room temperature to steel structures and then applying an antifouling paint (Special Publication No. 1984-7584), and a method of applying petrolatum applied to steel materials to be protected against corrosion. An anticorrosion layer protective coating (Utility Model Publication No. 63-4875) is formed by coating a polyester fiber that has been subjected to coupling treatment on an anticorrosion layer made of anticorrosion tape, and then coating silicone rubber or silicone on top of the anticorrosion layer and drying it. Proposed.

[Problems to be Solved by the Invention] However, the method according to Japanese Patent Publication No. 63-7584 has problems because the cured product of the room-temperature curable liquid resin is hard.
It has the disadvantage that it cannot follow the expansion and contraction of the metal material due to temperature changes and is prone to cracks. Also, Mikoaki
The anti-corrosion protective coating according to No. 63-4875 uses a petrolatum-based anti-corrosion tape, which is sticky and difficult to apply, and has the disadvantage that petrolatum oozes out of the silicone rubber layer or the outside of the silicone layer at high temperatures. Another disadvantage is that the silicone rubber layer has low strength and is easily damaged.

The present invention aims to eliminate the drawbacks of such prior art. In other words, we created an anti-corrosion protective layer for the metal material that does not crack due to the expansion and contraction of the metal material due to temperature changes, does not cause petrolatum to seep into the outer layer, and has a strong outer layer that is less susceptible to external damage. The object of the present invention is to provide a method for forming such an anti-corrosion protective layer.

[Means for solving the problem and their effects] The purpose is to (1) cover a metal material with a silicone rubber layer in an adhesive state, and cover the silicone rubber layer with a resin varnish-impregnated glass cloth layer in a non-adhesive state; (2) A primer is applied to the metal material, and then a room-temperature-curing silicone rubber is applied and cured, or a room-temperature-curing self-adhesive silicone rubber is applied to the metal material. This is accomplished by curing the silicone rubber layer, then winding the glass cloth tape over the silicone rubber layer while shifting it so that it partially overlaps, and then applying a cold-curing resin varnish onto the glass cloth tape and curing it. Ru.

The metal material in the present invention may have any shape or size as long as it is a metal material. Specific examples include metal tubes, metal rods, metal plates, and metal ropes. Moreover, the type of metal does not matter. Iron as a metal,
Examples include steel, galvanized iron, aluminum, duralumin, copper, and lead, but iron and steel that corrode easily are effective. Water, steam, gas,
Oil, chemicals, etc. may be flowing.

The anti-corrosion protective layer for metal materials in the present invention is formed by coating the metal materials with a silicone rubber layer in an adhesive state.
forming layers. The silicone rubber may be either room-temperature curable or thermosetting, but room-temperature curable is preferred from the viewpoint of workability. Usually used as a typical example of silicone rubber that cures at room temperature.
There is a condensation reaction curable type called RTV and an addition reaction curable type usually called LTV. Generally, there are sag type and non-sag type, but the non-sag type is preferable from the viewpoint of workability.

The thickness of the silicone rubber layer does not matter, but if it is too thin, the anticorrosive effect will be poor, so it is preferably 0.3 mm or more, and if it is too thick, it is uneconomical, so it is preferably 1.5 mm or less.

The silicone rubber layer must be bonded to the metal material. If the silicone rubber is self-adhesive, it may be directly adhered without using a primer layer, but if it is not self-adhesive, it is adhered through a primer layer.

In the anti-corrosion protective layer for a metal material in the present invention, a silicone rubber layer as a first layer is covered with a glass cloth layer impregnated with resin varnish in a non-adhesive state to form a second layer. Since the resin varnish-impregnated glass cloth layer is not bonded to the silicone rubber layer, even if shear stress is applied between the interface between the two due to the difference in thermal expansion coefficient of the metal material and that of the resin varnish-impregnated glass cloth layer, the resin will not adhere to the silicone rubber layer. The varnish-impregnated glass cloth layer will not be destroyed.

The resin varnish-impregnated glass cloth layer itself is strong in terms of strength, and since the silicone rubber layer is present as the first layer, it is difficult to be destroyed by external force due to its impact absorption effect.

The resin varnish-impregnated glass cloth layer is obtained by impregnating a glass cloth layer with a resin varnish and curing it. Glass cloth layer is glass fiber woven cloth,
It can be either glass fiber woven fabric or glass fiber non-woven fabric, and its thickness does not matter, but if it is too thin, the protective effect against external forces will be small, so it is preferably 0.1 mm or more, and if it is too thick, it is uneconomical, so it is 2.0 mm.
It is preferably less than mm.

In addition, the resin varnish to be impregnated into the glass cloth layer may be either room temperature curable or thermosetting.
From the viewpoint of workability, it is preferable to use one that is curable at room temperature, and it may be either one made by dissolving the resin in a solvent or a liquid resin that does not contain a solvent, that is, a solvent-free varnish. Examples of resins forming the resin varnish include unsaturated polyester resins, epoxy resins, silicone resins, polyimide resins, alkyd resins, and polyurethane resins.

The glass fiber layer may cover the silicone rubber layer on the metal material seamlessly or may cover the silicone rubber layer seamlessly. Alternatively, the glass cloth tape may be wound while being shifted so as to partially overlap, but in this case, it is preferable that the overlapping portions be adhered to each other by hardened resin varnish. A colored resin varnish layer may cover the resin varnish-impregnated glass cloth layer. The presence of this layer makes it stronger against external forces and gives it an aesthetically pleasing appearance. The resin forming the colored resin varnish layer is the same type of resin as the resin forming the resin varnish-impregnated glass cloth layer, and the colored resin varnish layer is preferably adhered to the resin varnish-impregnated glass fiber layer.

For example, the following method can be used to form an anticorrosive protective layer on a metal material.

That is, a primer is applied to a metal material, then a room-temperature-curing silicone rubber is applied and cured, a glass cloth tape is then wound on the silicone rubber layer with a shift so that it partially overlaps, and then a A room temperature curing resin varnish is applied onto the glass cloth tape and cured.

The primer may be appropriately selected from silicone-based primers that are commercially available for adhering room-temperature curable silicone rubber to metal.
After applying the primer, it is preferable to leave it for several to 30 minutes to dry, and then apply the room temperature curable silicone rubber. If the metal material is dirty or rusted, it is preferable to wipe it with a piece of cloth soaked in water or an organic solvent to remove the dirt or remove the rust before applying the primer. Note that when the room temperature curable silicone rubber is self-adhesive, it is not necessarily necessary to apply a primer.

The room temperature curable silicone rubber is as described above, but if the fluidity is insufficient, it may be diluted with xylene, toluene or trichloroethylene before coating. Brushing is convenient for application, but spraying may also be used. After applying room temperature curable silicone rubber, leave it to harden. The degree of curing varies depending on the type of room-temperature curable silicone rubber, the thickness of the silicone rubber layer, the temperature, etc., so it is not possible to determine the leaving time.
It is preferable to harden not only the surface of the silicone rubber layer but also the portion in contact with the metal material.

The glass cloth tape is wound on the thus cured silicone rubber layer while being shifted so that it partially overlaps, and a room temperature curing resin varnish is applied onto the glass cloth tape and cured, but the varnish does not penetrate into the glass cloth tape. By fixing the glass cloth tape so that it does not loosen until it penetrates and hardens, the overlapping parts of the glass cloth tape will adhere to each other and form a strong anti-corrosion protective layer. In addition,
The room-temperature curable resin varnish is as described above, but it is preferable to select one that has a viscosity and fluidity that allows it to penetrate into the inside of the glass cloth tape appropriately when it is applied to the glass cloth tape. Application of the room temperature curable resin varnish is simple and convenient by brush application, but spray application may also be used. After the room temperature curable resin varnish applied on the glass cloth tape permeates the glass cloth tape and hardens, a colored room temperature curable resin varnish may be applied thereon and cured.

Although the above method is a public method for forming an anti-corrosion protection layer on an installed metal material, a method suitable for forming an anti-corrosion protection layer on a metal material within a factory may be used. For example, a metal material that has been coated with a primer and dried is coated with thermosetting silicone rubber by extrusion, cured by heating, then pushed into a cylindrical glass cross tube, and then a thermosetting resin varnish is applied to the glass cross tube. This method involves applying the adhesive and heat-curing it while it permeates into the glass cloth tube.

Examples Examples of the present invention will be described. In the examples, the viscosity is
The value is at 25℃, and the hardness is based on JIS K6301.

Example 1 The surface of a steel water pipe was wiped with a cloth soaked in xylene, and after the xylene had evaporated, Primer D (room-temperature curing silicone primer, solid content 5% by weight, viscosity 1 centpoise) manufactured by Toray Silicone Co., Ltd. ) was applied thinly with a brush. After air drying for 30 minutes,
SE5070 coating material manufactured by Toray Silicone Co., Ltd. (1st grade room temperature curable silicone rubber solution, solid content 65% by weight, viscosity 3000 centipoise, hardness after curing 22) was applied with a brush and air-dried overnight (after curing) The film thickness was 0.7mm). Next, wrap a glass cloth tape 15 cm wide and 0.27 mm thick on the silicone rubber layer so that it overlaps each other by 20 mm, fix both ends, and then wrap the tape made by Taitai Kako Co., Ltd. on the silicone rubber layer.・Keltop (2-component type unsaturated polyester resin, solid content 100% by weight, viscosity
10,000 centipoise, hardness after curing: 40) was applied with a brush and pressed with a roller to infiltrate the unsaturated polyester resin into the glass cloth tape. When air-dried for 1 hour, as shown in FIG. 1, the silicone rubber layer 3 covered the pipe wall 1 of the steel water pipe in an adhesive state through the primer layer 2, and the silicone rubber layer 3 was coated with unsaturated material. An anti-corrosion protective layer was obtained in which the polyester resin varnish-impregnated glass cloth tape layers 4 were adhered to each other but were coated on the silicone rubber layer 3 in a non-adhesive state.

Even if the steel water pipe having the anti-corrosion protection layer thus obtained was left outdoors for one year, the surface of the pipe wall 1 did not rust, and the glass cloth tape layer 4 impregnated with unsaturated polyester resin varnish did not develop any cracks. Not yet,
There was no damage. There was no damage caused by falling stones or contact with tools.

Example 2 A commercially available blue inorganic pigment was added to and mixed with the unsaturated polyester resin varnish used in Example 1 on the unsaturated polyester resin varnish-impregnated glass cloth tape layer 4, which was the outermost layer of the anticorrosion protection layer of Example 1. When the varnish made of polyester resin was applied with a brush, smoothed with a roller, and air-dried for 1 hour, a blue-colored unsaturated polyester resin varnish was applied on the unsaturated polyester resin varnish-impregnated glass cloth tape layer 4, as shown in Figure 2. An anti-corrosion protective layer coated with a polyester resin varnish layer 5 (thickness 0.25 mm) in an adhesive state was obtained. Note that the texture of the glass cloth tape was not visible to the naked eye.

Even when the steel water pipe having the anti-corrosion protective layer thus obtained was left outdoors for one year, it remained the same as in Example 1.

Example 3 The surface of a long soft iron plate was wiped with a cloth soaked in xylene, and after the xylene had evaporated, it was coated with SE5060 coating material manufactured by Toray Silicone Co., Ltd. (one-component room temperature curing, self-adhesive silicone rubber solution, A film with a solid content of 65%, a viscosity of 3000 centipoise, and a hardness after curing of 30) was applied with a brush and air-dried overnight (the film thickness after curing was 0.54 mm). Next, on the silicone rubber layer, wrap a glass cloth tape with a width of 15 cm and a thickness of 0.54 mm so that 20 mm overlaps each other, fix both ends, and place a glass cloth tape manufactured by Taitai Kako Co., Ltd. on the silicone rubber layer. Compact Keltop (2-component type unsaturated polyester resin, solid content 100% by weight, viscosity
10,000 centipoise, hardness after curing: 40) was applied with a brush and pressed with a roller to infiltrate the unsaturated polyester resin into the glass cloth tape. After air drying for 1 hour, as shown in FIG. 4, the silicone rubber layer 3 adhered to the long soft iron plate 6, and the silicone rubber layer 3 was covered with a glass cloth tape impregnated with unsaturated polyester resin varnish. layer 4
An anti-corrosion protective layer was obtained in which the silicone rubber layer 3 was coated with the silicone rubber layer 3 in a non-adhesive state, although they were adhered to each other.

Long plate 6 having the anti-corrosion protective layer thus obtained
Even after being left outdoors for 6 months, the surface of the long board 6 did not rust, and the glass cloth tape layer 4 impregnated with unsaturated polyester resin varnish had no cracks or damage.

[Effects of the Invention] The anti-corrosion protective layer for metal materials in the present invention consists of a silicone rubber layer covering the metal material in an adhesive state, and a resin varnish-impregnated glass cloth layer covering the silicone rubber layer in a non-adhesive state. The glass cloth layer impregnated with resin varnish does not crack even when the metal material expands and contracts due to temperature changes, and is difficult to break even when subjected to external forces.

[Brief explanation of the drawing]

Fig. 1 is an enlarged longitudinal cross-sectional view of the main part of a steel water pipe having an anti-corrosion protection layer of Example 1, and Fig. 2 is an enlarged longitudinal cross-sectional view of the main part of a steel water pipe having an anti-corrosion protection layer of Example 2. FIG. 3 is a sectional view of a steel water pipe having an anti-corrosion protection layer of Example 2, and FIG. 4 is a sectional view of a soft iron plate having an anti-corrosion protection layer of Example 3. DESCRIPTION OF SYMBOLS 1... Pipe wall, 2... Primer layer, 3... Silicone rubber layer, 4... Unsaturated polyester resin varnish impregnated glass cloth tape layer, 5... Unsaturated polyester resin varnish layer colored blue, 6...
Long board.

Claims (1)

[Scope of Claims] 1. A metal material, characterized in that a silicone rubber layer covers the metal material in an adhesive state, and a resin varnish-impregnated glass cloth layer covers the silicone rubber layer in a non-adhesive state. anti-corrosion protective layer. 2. The anti-corrosion protective layer according to claim 1, wherein the metal material is an iron material and the resin varnish is an unsaturated polyester resin varnish. 3. The anti-corrosion protective layer according to claim 1, wherein the resin varnish-impregnated glass cloth layer is coated with a colored resin varnish layer in an adhesive state. 4 Apply a primer and then a room-temperature curing silicone rubber to the metal material and cure it, then wind the glass cloth tape on the silicone rubber layer while shifting it so that it partially overlaps, and then cure it at room temperature on the glass cloth tape. A method for forming an anti-corrosion protective layer on a metal material, which method comprises applying and curing a resin varnish. 5 Apply room temperature curable, self-adhesive silicone rubber to a metal material and cure it, then wind a glass cloth tape on the silicone rubber layer with partial shifts, and then apply a room temperature curable resin on the glass cloth tape. A method for forming an anti-corrosion protective layer on metal materials, characterized by applying and curing varnish. 6. A method for forming an anti-corrosion protective layer according to claim 4 or 5, wherein after the room temperature curable resin varnish is cured, a colored room temperature curable resin varnish is overcoated and cured.