KR19990035806U - Method of forming anticorrosive structure of steel structure - Google Patents

Abstract

The present invention is a steel sheet pile that is used as a pre-shrinkage for earthquakes or underground wall construction, or a steel pipe pile used as a support when installing facilities such as sea or river. Or it relates to a method of forming a corrosion-resistant structure for the corrosion protection of steel structures such as steel pipes used as a protective pipe of underground buried, it is proposed for the purpose of lowering the price and improving workability compared to the conventional.

The present invention forms the anticorrosive layer 2 by applying a rustproof composition mainly composed of petrolatum to the outer circumferential surface of the structure to prevent corrosion of the steel structure, and is injected into the fiber-reinforced thermoplastic resin for the protection thereof. The protective cover (3) produced by the molding or extrusion molding to the anticorrosive layer (2) characterized in that the anticorrosive structure forming method of the steel structure, when forming the anticorrosive structure in this way to improve the corrosion resistance In addition, it is possible to obtain useful effects in terms of manufacturing cost reduction and workability.

Description

Method of forming anticorrosive structure of steel structure

The present invention relates to an anticorrosive structure formed to prevent corrosion of steel structures such as steel sheet pile, steel pipe pile, or steel pipe.

Generally, steel pipe boards or underground burial used as supporting plates when installing facilities in the sea or river, etc. in case of installing underground construction of a building (protective walls), protecting the underwater part of pier, protecting rock walls of the coast, etc. Steel structures, such as steel pipes used as protective pipes or fluid transport pipes, are easily corroded by oxygen present in air or seawater. Therefore, anti-corrosive compositions having mineral-proof effects such as mineral oil on the outer circumferential surface of steel structures for the purpose of preventing them. Techniques for forming an anticorrosive layer by using a method such as coating is proposed, and also solves the problem that the anticorrosive layer thus formed is washed by seawater or rainwater, pinholes, etc. cause corrosion of the steel sheet or steel pipe. As a reinforcing material to thermosetting resins representative of unsaturated polyester resins A method of installing a protective cover made of glass fiber reinforced plastic (FRP) made of glass fiber outside the anticorrosive layer is used.

However, since FRP is virtually impossible to secondary processing, and its rigidity is high, it is difficult to wind or deform it, so it is necessary to perform a separate molding suitable for the shape of steel structures such as various steel sheets so that the manufacturing cost is high and the cutting is performed. However, there is a problem that is difficult to repair in the field because the drilling work is difficult. In addition, the FRP protective cover has a shape in a curved state, and since the specific gravity is heavy, it is difficult to transport or store, and there is a problem of poor workability.

The present invention was devised to solve the problems of the conventional steel structure anticorrosive structure as described above, as the anticorrosive structure is formed by using an anticorrosive composition with excellent anticorrosive effect, and as a protective cover, fiber reinforced thermoplastic resin instead of FRP The purpose of the present invention is to provide a method structure that facilitates secondary processing, facilitates transportation, storage and work in the field, and exhibits advantageous characteristics in terms of other physical properties and manufacturing price.

1 is a cross-sectional view showing an example of the anticorrosive structure of a steel sheet according to the present invention.

Figure 2 is a perspective view showing an example of the anticorrosive structure of the steel tube according to the present invention.

Explanation of symbols for main parts of the drawings

1: Steel plate 1 ': Steel tube board

2: anticorrosive layer 3: protective cover

4: bolt 5: nut

6: angle material 7: coupling part

The present invention is to form an anticorrosive layer (2) by using an anticorrosive composition mainly composed of petrolatam on the outer circumferential surface of the steel structure, such as steel sheet (1) and steel tube (1 '), for the protection of the fiber such as glass fiber Is used as a reinforcing material, and a protective cover 3 made of a fiber-reinforced thermoplastic resin made of a thermoplastic resin such as vinyl chloride resin as a binder resin is bonded to the anticorrosive layer 2.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the anticorrosive composition of the anticorrosive layer (2) is mainly composed of waserine-based petrolatum, which is composed of 16 to 32 carbon-based paraffinic or olefinic hydrocarbons and has a melting point of approximately It is around 40 ℃ and has the property of not evaporating or hardening semi-permanently. Especially, when applied to metal surface, it has semi-permanent effect because it blocks the outside of air such as viscous at all times. In addition, various additives are used in the anti-corrosive composition to improve anti-corrosion or adhesion. For example, tannin or inert silica having an effect of preventing the progress of rust by forming a solid film when contacted with iron may be used. It is preferable to use the usage-amount in the range which does not exceed 10 weight% of a total amount of a composition.

As a method of forming an anticorrosive layer, the above antirust composition is directly applied to the outer circumferential surface of the steel structure or impregnated with a nonwoven fabric to form a sheet, tape, or solidified into a putty. Can be used.

In addition, the present invention uses a protective cover 2 for protecting the anticorrosive layer in order to prevent the anticorrosive layer formed by using the anti-corrosive composition as described above to be washed or damaged by external conditions such as seawater and rainwater. Fiber reinforced thermoplastic resin is used as the material.

Fiber-reinforced thermoplastic resins have almost the same level of strength as conventional FRPs, but are light and flexible, and have excellent secondary processability, and are manufactured by special methods such as SMC, BMC, and matched die. Unlike the simple manufacturing by injection molding or extrusion molding, it is possible to obtain an advantage of low manufacturing price.

Among thermoplastic resins, fiber-reinforced thermoplastics (FRV) using polyvinyl chloride or fiber-reinforced thermoplastics (FR-PP) using polypropylene are particularly suitable for the present invention. In addition to the above advantages, these materials are suitable for chemical resistance, water resistance, It has excellent salt water resistance.

Table 1 shows a comparison of properties of these FRV and FRP.

TABLE 1

FRV FRP Glass fiber content rate (%) 18-23 20-30 importance 1.48-1.50 1.50-1.60 Tensile Strength (kg / ㎡) 7-8 6 to 14 Tensile Modulus (kg / ㎡) 420-470 500-1270 Bending strength (kg / ㎡) 13-14 14-28 Flexural modulus (kg / ㎡) 420-470 500-1300 Compressive strength (kg / ㎠) 10 to 12 11-18 Cutting strength (kg / ㎠) 7-8 10.5 to 11 Impact strength (kg-cm / ㎠) 40-50 40-50

On the other hand, Figure 1 shows a cross-sectional view showing an example of a steel plate or anticorrosive structure according to the present invention, that is, of the steel plate (1) bent in a concave convex shape used as a baffle board for the earthwork during the underground construction of the building As the anticorrosive structure, the anticorrosive composition was impregnated into a nonwoven fabric and the anticorrosive layer (2) obtained by laminating what was produced in the form of a sheet and the protective cover (3) made of FRV or FR-PP to protect it were bolted to the perforated portion of the cover. The anticorrosive structure formed by fastening with (4) and the nut (5) is shown.

In addition, Figure 2 is a perspective view showing an example of the anticorrosive structure of the steel tube according to the present invention, the anticorrosive layer (2) obtained by laminating in the same manner as in Figure 1 on the outer peripheral surface of the steel pipe (1 ') The structure shown is laminated with a cylindrical protective cover 3 to which an angle member 6 having a nut coupling portion 7 is attached. In this case, an L-shaped angle member attached to fasten the cylindrical protective cover 3 is attached. (6) is made of the same material as the protective cover (3), the method of attachment is carried out by fusion by heat generation using an adhesive or a heat tape having a heating wire at the bonding site. The latter method is particularly useful because the latter does not require much auxiliary equipment for bonding or heating.

Thus, the anticorrosive structure of the steel structure formed according to the present invention is very excellent in the anti-corrosion effect of the anticorrosive layer (2) and at the same time the material of the protective cover (3) used to improve the durability of the anticorrosive layer (2) fiber-reinforced thermoplastic By using the resin, it is lighter and more flexible than the existing one, and it has excellent processability in the secondary processing, and it has the usefulness such as reduction of manufacturing cost due to the advantages of easy transportation and storage and easy production of molded products.

Claims (2)

In the anticorrosive structure formed by laminating the anticorrosive layer 2 and the protective cover 3 on the outer circumferential surface of the steel structure to prevent corrosion of the steel structure, the anticorrosive composition mainly composed of petrolatum is applied to the anticorrosive layer 2 to form the anticorrosive composition. Or by impregnating it into a non-woven fabric or the like to form a sheet or a tape or solidified into a putty, and forming a fiber-reinforced thermoplastic according to the shape of the steel plate or steel tube to protect the anticorrosive layer (2). A method of forming an anticorrosive structure of a steel structure, characterized in that the protective cover (3) produced by injection molding or extrusion molding with a resin is bonded to the anticorrosive layer (2). The method of claim 1, wherein the fiber-reinforced thermoplastic resin is fiber-reinforced vinyl chloride resin or fiber-reinforced polypropylene.