KR200207080Y1 - Composite Skin for Prevention of Deterioration and Defects of Concrete Structures - Google Patents

Abstract

The present invention protects the surface of concrete structures exposed to the environment where the surface of concrete may be damaged by corrosion, erosion or scour, such as concrete cover structures, concrete port structures, concrete water treatment structures, concrete decks and piers, etc. The present invention relates to a composite cladding plate that can be installed at the time of constructing a structure.

In the present invention, a composite laminate is provided, which consists of a fiber-reinforced composite laminate and is permanently attached to the surface of the concrete structure to protect the surface of the concrete structure, thereby increasing the durability of the structure.

According to the present invention, it is possible to protect the surface of the concrete structure from corrosion, erosion and scour environment, improve the durability of the structure, and form a beautiful appearance.

Description

Composite Skin for Prevention of Deterioration and Defects of Concrete Structures}

The present invention relates to a composite cladding plate for concrete structures, and specifically, the surface of concrete such as concrete covering structure, concrete port structure, concrete water treatment structure, concrete deck and piling foundation may be damaged by corrosion, erosion or scour. The present invention relates to a composite cladding plate that can be installed at the time of new construction to protect the surface of a concrete structure exposed to environmental conditions.

Concrete cover structures or concrete water treatment structures are used to promote neutralization and deterioration of concrete due to hazardous wastewater, resulting in lower strength and durability. The lower part of the bottom plate of the bridge, which is damaged, and is in contact with seawater or harmful corrosive environment, the concrete is neutralized and the corrosion of the reinforcing steel causes degradation of strength and durability, and the foundation of concrete piers causes damage to the structure due to scour. Specifically, looking at the case of the concrete harbor structure, as shown in Figure 4a, the gravity-type concrete harbor structure 100, the surface is directly exposed to the seawater is heavily salted by the seawater on the concrete surface of the droplet zone (A) In particular, over time, due to the wave action of the sea water and friction of the sea floating matters, severe wear, corrosion and erosion of the concrete surface will occur. Residual concrete harbor structure 200 as shown in Figure 4b is also affected by the salt water under the bridge bridge is also caused by the salt and concrete cracking and peeling due to concrete neutralization, reinforcing corrosion. Zone (B) in Figure 4b represents the site where damage mainly by salt damage occurs.

In addition, in the case of the concrete covering structure 300 as shown in Figure 5a, the concrete surface is in contact with the sewage, such that the surface is deteriorated, cracking and peeling occurs due to corrosion of the reinforcing bar. Even in the case of the water treatment concrete structure 400 of the wastewater treatment plant as shown in Figure 5b, the surface of the concrete structure is continuously exposed to the waste water, a phenomenon that the concrete surface is severely degraded, the concrete is due to the corrosion of the steel Cracking and peeling occurs. The lower part of the bottom plate of the bridge in contact with seawater or harmful corrosive environment causes deterioration of strength and durability due to concrete deterioration and reinforcement corrosion due to concrete neutralization.In concrete pier foundation structure, not only deterioration and reinforcement corrosion, Scour at the foundation of the piers occurs. In FIG. 5A and FIG. 5B, the portions indicated by C, D, and E represent regions where damage occurs in the concrete covering structure and the concrete water treatment structure.

As such, when the surface of the concrete structure is continuously exposed to the corrosive environment, erosion or scour, the concrete surface is neutralized, the reinforcing steel is corroded and cracks and delamination damages the concrete structure, ultimately increasing the strength of the concrete structure. Serious structural problems such as lowering and reducing the durability of the structure.

Therefore, in a concrete structure in which the concrete surface is continuously exposed to a corrosive environment, erosion or scour, there is an urgent need for measures to protect the concrete surface from such an environment.

The present invention is a protective measure of the concrete structure as described above, made of fiber-reinforced composite laminates are attached to the concrete surface to provide a composite material cover plate that can be installed when the new structure to protect the concrete surface from corrosion or erosion or scour For the purpose of

Figure 1 shows a schematic shape before the composite cladding plate according to the present invention is attached to the surface of the concrete structure.

Figure 2 is a partial cross-sectional view showing a state in which the composite cladding plate according to the present invention is integrated on the new concrete surface.

3 is a partial cross-sectional view showing a concrete structure in which the composite cladding plate of the present invention is in an underwater position in contact with an environment such as corrosion, erosion or scour.

Figure 4a is a schematic diagram showing the inner wall section of the gravity-type concrete harbor structure directly exposed to sea water.

4b is a schematic representation of a pier type concrete harbor structure exposed to seawater.

5A is a schematic diagram showing a cross section of a box-type concrete covered structure that is directly exposed to sewage and hazardous environments.

Figure 5b is a schematic diagram showing a cross section of the concrete water treatment structure directly exposed to the waste water.

<Brief description of the main parts of the drawing>

1 Composite cladding 2 Concrete fixing anchor

In order to achieve the above object, the present invention is made of a fiber-reinforced composite laminate and provides a composite cladding plate which is permanently attached to the surface of the concrete structure.

The composite cladding plate according to the present invention may be produced by impregnating a reinforcing fiber such as carbon fiber, glass fiber, aramid fiber, or the like with a resin such as polyester, vinyl ester, epoxy, phenol, or the like.

Reinforcing fibers used in the composite cladding plate according to the present invention is composed of a woven woven fabric, a stitched fabric, a fiber mat or a roving yarn. The composite cladding plate may be composed of a transparent composite material to visually check the quality of the concrete. In the case of manufacturing a transparent composite cladding plate using a stitched woven fabric, it is preferable to use glass fiber yarn in direct irradiation to improve transparency. The composite cladding plate may be fireproof using a flame retardant resin or a flame retardant, or may be colored to have a predetermined color if necessary.

Since the composite cladding plate according to the present invention should be integrally attached to the concrete surface, it is preferable that a predetermined concrete internal fixing anchor is provided on the rear surface of the composite cladding plate for good adhesion with concrete. On the other hand, it is also desirable to make the back surface of the composite cladding plate adhered to concrete into a rough surface.

On the other hand, in the present invention, after installing the composite cladding plate made of fiber-reinforced composite laminate on the inner surface of the concrete casting formwork, the concrete is poured, after the concrete curing, the formwork is dismantled and the composite cladding plate is cured concrete surface There is provided a composite cladding plate which is permanently left in the.

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

1 schematically shows the shape before the composite cover plate 1 according to the present invention is attached to the concrete surface. The composite cladding plate 1 is composed of a reinforcing fiber and a resin such as glass fiber, carbon fiber, aramid fiber, and the like, specifically, the reinforcing fiber is prepared by arranging the reinforcing fiber in a laminated structure and then impregnating the resin.

Reinforcing fibers used in the composite cladding plate 1 according to the present invention is manufactured using a woven fabric, a stitched fabric, a chopped strand mat, a roving yarn, and the like. . The composite cladding plate 1 is composed of vacuum assisted resin transfer molding, hand lay-up, compression molding, resin transfer molding, pultrusion, and the like. It can be produced by the composite manufacturing method.

On the back surface of the composite cladding plate 1 of the present invention, it is preferable that a concrete internal fixing anchor 2 is provided for good adhesion with the concrete surface. In FIG. 1, the bent anchor 2 is used, but the anchor 2 used in the composite cover plate 1 of the present invention is not limited thereto and may be configured in various shapes.

For good adhesion with the concrete surface, it is also preferable to form the rough surface of the back surface of the composite cladding plate 1 together with or instead of the anchor 2. For example, the rough surface may be easily formed by applying polymer concrete, epoxy mortar, resin, or the like to the back surface of the composite coating plate, and then spraying particulate matter such as silica sand. In addition, it is preferable to form a composite material after using a peel ply on the back surface when manufacturing the composite coating plate, and to remove the peel ply after the composite material is cured, thereby making the top surface of the composite coating plate rough. .

Looking at the construction method of the composite cladding plate 1 according to the present invention, first, the composite cladding plate 1 is placed on the formwork inner surface of the concrete structure to be constructed. At this time, the back surface of the concrete interior fixing anchor (2) and the composite cladding plate (1) having a rough surface is to be a concrete pouring surface.

After installing the composite cover plate (1) in the formwork, the concrete is poured. When the poured concrete is cured, the formwork is dismantled. FIG. 2 is a partial cross-sectional view showing a state in which the composite cladding plate 1 is mounted on the concrete surface. After dismantling the formwork, the composite cladding plate 1 is integrally attached to the concrete 3 and is permanently present. . 3 is a partial cross-sectional view showing the shape of the composite cladding plate of the present invention in the water position where the concrete structure is in contact with the environment such as corrosion, erosion, scour.

In the above described the case where the composite cladding plate of the present invention is installed in the concrete port structure as an example, the composite cladding plate of the present invention is installed anywhere if the surface of the concrete structure is exposed to corrosive environment, erosion or scour Can be. For example, concrete cover structures continuously exposed to sewage and wastewater, concrete structures in wastewater treatment plants, bottom plates of bridges facing seawater or hazardous corrosive environments, bottom plates of bridged harbor structures, concrete of gravity port structures Composite cladding plates of the present invention can be used for quay walls, concrete piers or piers foundations.

As described above, the composite cladding plate of the present invention composed of a reinforcing fiber and a resin has high strength, corrosion resistance, abrasion resistance, and water resistance. Therefore, when the composite cladding plate of the present invention is permanently attached to the surface of the concrete structure, the surface of the concrete structure does not come into direct contact with the concrete corrosion environment such as seawater or wastewater, thereby preventing the surface corrosion. Will be. In addition, to protect the surface of the concrete structure from erosion, wear, scour, impact.

By the protective action exhibited by the composite cladding plate of the present invention, it is possible to significantly improve the durability of the concrete structure and thereby to extend the durability of the structure.

In general, in order to improve the durability of concrete, an admixture for increasing strength is added to concrete. When the composite cladding plate of the present invention is installed on the surface of the concrete structure, the admixture for increasing strength in concrete is enhanced by increasing durability due to protection of the concrete surface. Not only do not need to use, but also can reduce the use of expensive cement, and can also reduce the thickness of the concrete cover it is possible to reduce the cross-section of the concrete structure, thereby reducing the construction cost.

In particular, the composite cladding plate of the present invention has a smooth outer surface, and can be colored on the cladding plate, thereby making it possible to construct a structure having a beautiful appearance. The outer surface of the composite cladding plate according to the present invention can be coated for luminous, when the composite cladding plate according to the present invention with luminous coating is installed on the inner wall of the port structure clearly distinguish the inner wall surface at night Thus, the convenience of berthing of the ship is increased, and the beautiful night view by the illumination of the ship can be landscaped. Military port facilities can be very helpful during night operations.

The composite cladding plate of the present invention can be easily repaired by using an adhesive or the like even if a part is damaged.

In the above described the configuration and features of the present invention based on the embodiment according to the present invention, the present invention is not limited to this, it is possible to be freely modified according to the technical idea of the present invention.

Claims (5)

Composed of fiber-reinforced composite laminates, the composite cladding plate is permanently attached to the surface when a concrete structure is newly constructed to protect the surface of the concrete structure from corrosion, erosion or scour. The composite cladding plate according to claim 1, wherein the composite cladding plate is made by impregnating a resin with a reinforcing fiber. The composite fiber coating according to claim 2, wherein the reinforcing fibers used for the laminate are glass fibers, carbon fibers or aramid fibers, and the resin used for the laminate is polyester, vinyl ester, phenol or epoxy. plate. The composite cladding plate according to any one of claims 1 to 3, wherein the rear surface of the composite cladding plate is provided with a concrete internal fixing anchor for attachment to concrete. The composite composite cladding plate according to any one of claims 1 to 3, wherein After the concrete is installed on the inner surface of the formwork, after the concrete is poured and the concrete is cured, the formwork is dismantled and the composite cladding remains permanently on the cured concrete surface to protect the surface of the concrete structure from corrosive environment, erosion or scour. Composite material coating plate, characterized in that.