KR101804792B1 - Reforming composition and reforming method using the same - Google Patents

Abstract

The present invention relates to a repair material and a repair method using the same. The present invention can: prevent corrosion by forming a coating layer on a concrete structure, a metal structure, and a rubber sheet; repair to form a repair layer at a damaged part; prevent the dropping of the repair material when being coated on a vertical surface and an uneven horizontal surface; form a coating layer having an even thickness; and form a coating layer and a repair layer quickly and easily. For the above, the repair material and the repair method using the same enable a coating with a roller or a brush by being mixed at 10:0.5 to 3 (volume ratio) of liquid urethane and silica powder whose particles are dispersed in a size of 13-265 m and apparent specific gravity is 0.03-0.1 and is formed with a urethane-silica powder mixture capable of being coated with a trowel by being mixed at the ratio of 10:5 to 15 (volume ratio) of liquid urethane and silica powder whose particles are dispersed in a size of 13-265 m and apparent specific gravity is 0.03-0.1.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a maintenance material,

The present invention relates to a repair material and a repair method using the same. More particularly, the present invention relates to a slope repair material that can prevent falling down on a vertical surface, a slope surface, and a rubber sheet repair surface of a concrete structure or an iron plate, and a repair method using the same.

Generally, concrete structure can be divided into building and civil engineering. In building, building wall is the main concrete structure, and for civil engineering, bridge and road concrete structure are representative.

Concrete structures, whether for construction or civil engineering, are subjected to freezing and thawing processes while meeting with water, and due to the chemical components used for maintenance, the concrete is neutralized and its intrinsic strength is lowered over time, , It is a reality that the reconstruction is carried out after a safety diagnosis about 30 ~ 40 years ago. In the case of bridges, once the bridges are re-installed, the bypass roads should be installed exactly as they were at the time of new construction, and after removing existing bridges or roads, re-installing the bridges and roads, It takes a lot.

Therefore, although it is necessary to repair the concrete structure, there is a problem that when the repair material is applied to the vertical surface or the sloped surface such as the soundproof wall, the railing, and the median separator,

Also, even in the case of a metal plate such as an iron plate roof, corrosion occurs due to long-term use. Therefore, a repair material is applied to repair the metal plate, but this also causes the problem that the repair material flows down from the slope.

In addition, the roofs of large factories have many finishes of waterproofing materials such as rubber sheets exposed on flat roofs, which cause defects in the joints and the base, resulting in leakage. Since the bottom is a rubber sheet, it is not flat and a new rubber sheet is to be applied again when maintenance is performed. In this case, a rubber sheet is required to be purchased, which causes not only an excessive maintenance cost but also a load.

Since the viscosity of the repair material is lowered when the repair material is applied to the rugged surface of the rubber sheet including the vertical or inclined surface of the concrete structure or the metal plate structure, it is required to be applied repeatedly 5 to 7 times in order to increase the thickness of the coating. There is a problem that workability is poor.

Korean Patent No. 10-0354135 Korean Patent No. 10-1105490 Korean Patent No. 10-0366339

In order to solve the problems of the prior art, a coating layer is formed on a concrete structure, a metal structure, or a rubber sheet to prevent corrosion and to repair the damaged layer by forming a repair layer. In particular, The present invention provides a repairing material and a repairing method using the same, which can prevent the maintenance material from flowing down on a sloping or non-flat horizontal surface, and can quickly and easily form a coating layer and a repair layer.

In order to attain the above object, the first repair material of the present invention is a first repair material comprising a liquid urethane, ultra-low specific gravity silica powder having an apparent specific gravity of 0.03 to 0.1 and a particle size of 13 to 265 탆 dispersed therein in a ratio of 10: 0.5 to 3 Silica powder mixture blended in a ratio of 1: 1 to 1: 1 and capable of being applied by a roller or a brush.

The second repair material of the present invention is prepared by mixing liquid urethane, ultra-low specific gravity silica powder having an apparent specific gravity of 0.03 to 0.1 at a ratio of 10: 5 to 15 (volume ratio), dispersing particles having a particle diameter of 13 to 265 탆, And is made of a urethane-silica powder mixture which can be applied.

At this time, the liquid urethane of the first and second maintenance materials may contain a thickening agent, and the liquid urethane and the thickening agent are mixed at 50 to 100: 1 (volume ratio).

A method of repairing a concrete structure of the present invention includes a first step of applying an epoxy primer to a repair surface, a first step of applying the first repair material on the epoxy primer coating layer to form a first urethane-silica powder mixture coating layer A second step of applying a second urethane-silica powder mixture coating layer onto the first urethane-silica powder mixture coating layer by a second coating process; and a second step of forming a second urethane- And a fourth step of forming a third urethane-silica powder mixture coating layer by applying the first maintenance material on the powder mixture coating layer in a third step.

The present invention also provides a method for repairing a metal plate and a rubber sheet, the method comprising: a first step of applying an epoxy primer to the entire surface of the metal plate; a first step of applying the first repair material on the epoxy primer coating layer first A second step of forming a urethane-silica powder mixture coating layer on the first urethane-silica powder mixture coating layer and a second urethane-silica powder mixture coating layer A third step of forming a third urethane-silica powder mixture coating layer on the first urethane-silica powder mixture coating layer and the second urethane-silica powder mixture coating layer by a third coating of the first maintenance material, And a control unit.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to prevent the maintenance material from flowing down on a vertical surface, an inclined surface or a non-flat horizontal surface, thereby greatly improving workability and quickly and easily forming a coating layer and a repair layer.

In addition, it has general versatility that can be applied to concrete structures, metal structures or rubber sheets, as well as enhances durability by forming a coating layer in advance of corrosion. When a repair layer is formed on a damaged, It is possible to greatly increase the service life of the apparatus according to the present invention.

1 is a graph showing a dispersion particle size distribution of ultra low specific gravity silica powder contained in a repair material according to the present invention.
2 is a block diagram illustrating a repair process using a repair material according to an embodiment of the present invention.
3 is a cross-sectional view illustrating a coating layer formed on a sloped maintenance surface using a repair material according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a coating layer formed on a steel sheet for roof using a repair material according to an embodiment of the present invention.
5 is a cross-sectional view showing a coating layer formed on a rubber sheet for roof using a repair material according to an embodiment of the present invention.

While the present invention has been described in connection with the preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. It should be understood, however, that there is no intention to limit the invention to the form just described, and the spirit and scope of the present invention encompasses the ordinary variations, equivalents, and alternatives of the illustrated forms.

The repairing material according to the present invention can be applied to a concrete structure, a metal structure or a rubber sheet, and in particular, it can prevent falling down when applied to a vertical surface or an inclined surface from a steel structure roof refracted in a concrete structure or zigzag form.

The first repair material for this purpose is a liquid mixture of liquid urethane and ultra low specific gravity silica powder and the second repair material is a putty type mixture of liquid urethane and ultra low specific gravity silica powder, It depends on the content of silica powder.

The ultra low specific gravity silica powder preferably has a particle diameter of 13 to 265 μm dispersed therein as shown in FIG. 1, and the apparent specific gravity of the ultra low specific gravity silica powder having such ultra low specific gravity dispersed therein is as shown in the following table 0.0 > 1 < / RTI > (the results of FIG. 1 and Table 1 are the test results of KTR).

Test Items unit sample Results Test Methods Apparent specific gravity - Very low specific gravity
Silica powder 0.04 KS M 0602: 2010

When the ultra low silica powder having an apparent specific gravity lower than that of water is mixed with the liquid urethane, the solid powder is dispersed in emulsion form, The mixture does not flow down because it acts.

According to this principle, it is preferred that the apparent specific gravity of the silica powder be maintained at a level significantly lower than the specific gravity 1 of water, and the apparent apparent specific gravity is 0.03 to 0.1. A silica powder having an apparent specific gravity of less than 0.03 is not preferable because it is difficult to manufacture. Conversely, a silica powder having a specific gravity of less than 0.03 is not preferable because it has a relatively large specific gravity.

The liquid urethane and silica powder, which are the first materials for maintenance, can be mixed at a ratio of 10: 0.5-3 (volume ratio). Since the urethane-silica powder mixture thus mixed can be applied with a roller or a brush It can be used as a repair material for application. When the silica powder is mixed with less than 0.5, it becomes a pure liquid form rather than an emulsion form, and it tends to flow down. When mixed more than 3, it becomes a putty type and is not suitable to be used as a repair material for initial application.

A further thickener may be added to the liquid urethane to make the liquid urethane-silica powder mixture as the first stock material have viscosity, the preferred range being that the liquid urethane and the thickener can be mixed at 50-100: 1 (volume ratio) In such a range, the mixture does not flow down, especially when it is blended or roller quality on the vertical surface. That is, when the urethane is mixed with less than 50, the viscosity becomes high and the roller or brushing is not easy. When the urethane is mixed with more than 100, the viscosity is low and the problem of flowing down on the vertical surface occurs.

The second component, liquid urethane, and silica powder can be mixed in a ratio of 10: 5 to 15 (volume ratio), and the urethane-silica powder mixture thus mixed can be applied with a trowel rather than a roller or a brush Therefore, it can be used for filling second coating agent or gap or joint part. When the silica powder is mixed with less than 5 parts, it does not act as a putty material because it keeps the liquid phase. Conversely, when it is mixed more than 15 parts, it is difficult to work with trowel.

A further thickener may be added to the liquid urethane to make the urethane-silica powder mixture of the putty-type second restorative material have a viscosity, the preferred range being that the liquid urethane and the thickener are mixed at 50-100: 1 (volume ratio) . When the urethane is mixed with less than 50, the viscosity becomes high and the roller or brushing is not easy. When the urethane is mixed with more than 100, the viscosity is low and the problem of flowing down on the vertical surface occurs.

Hereinafter, the repairing process of the concrete structure, the steel plate roof and the rubber sheet roof will be described with reference to FIGS. 2 to 5 using the first and second repair materials.

1. Maintenance of Concrete Structures

FIG. 2 is a block diagram illustrating a repair process using a slope maintenance material according to an exemplary embodiment of the present invention. FIG. 3 is a cross-sectional view of a slope repair material according to an exemplary embodiment of the present invention, FIG.

Referring to FIGS. 2 and 3, an epoxy primer coating layer 10 is formed on the concrete repair surface 1 through an epoxy primer coating step S10 in order to serve as an adhesive.

Thereafter, a liquid urethane-silica powder mixture, which is the first repair material, is firstly applied onto the epoxy primer coating layer 10 through a liquid phase urethane-silica powder mixture primer application step (S20) using a roller or a brush, -Silica powder mixture application layer 20 is formed.

Thereafter, the putty -type urethane-silica powder mixture mixture is applied on the first urethane-silica powder mixture coating layer 20 through the putty -type urethane-silica powder mixture applying step (S30) To form a urethane-silica powder mixture coating layer (30).

Thereafter, a liquid urethane-silica powder mixture, which is the first repair material, is applied to the second urethane-silica powder mixture coating layer 30 through a liquid-phase urethane-silica powder mixture mixture application step (S40) The silica powder mixture coating layer 40 is formed and cured.

Since the maintenance material is prevented from flowing down from the vertical surface or the inclined surface, the repair surface 1 of the concrete structure can be quickly and easily repaired through the above three coating processes.

2. Repair of jointed steel roof

4 is a cross-sectional view illustrating a coating layer formed on a steel sheet for roof using a repair material according to an embodiment of the present invention.

3 and 4, an epoxy primer coating layer 10 is formed by applying an epoxy primer to the entire surface of the steel roof 2 through an epoxy primer application step (S10) for an adhesive function.

Thereafter, a liquid urethane-silica powder mixture, which is the first repair material, is firstly applied onto the epoxy primer coating layer 10 through a liquid phase urethane-silica powder mixture primer application step (S20) using a roller or a brush, -Silica powder mixture application layer 20 is formed.

Thereafter, the putty -type urethane-silica powder mixture mixture is applied to the joint portion of the steel plate roof 2 through the putty -type urethane-silica powder mixture application step (S30), and the second urethane- Layer 30 is formed.

Thereafter, on the entire surface of the first urethane-silica powder mixture application layer 20 and the second urethane-silica powder mixture application layer 30 through the liquid urethane-silica powder mixture mixture application step (S40) The liquid urethane-silica powder mixture, which is a repair material, is applied chronologically to form a third urethane-silica powder mixture coating layer 40, followed by curing.

Since the maintenance material is prevented from flowing down from the inclined surface of the steel roof 2, the surface and the joint portion of the steel roof 2 can be quickly and easily repaired through the above three coating processes.

4 shows a process of repairing the surface of the iron plate roof, the repairing material of the present invention can be applied not only to the iron plate roof 2, but also to all kinds of metal structures and other waterproof materials, When the composite material is applied to a metallic material structure and a rubber sheet structure to be described later, the putty -type urethane-silica powder mixture mixture, which is the second repair material, is buried with a trowel or the like through a putty -type urethane-silica powder mixture application process (S30) And the like.

3. Repair of jointed rubber sheet roof

5 is a cross-sectional view illustrating a coating layer formed on a rubber sheet for a roof using a repair material according to an embodiment of the present invention.

As shown in Fig. 5, an epoxy primer coating layer 10 is formed by applying an epoxy primer to the entire surface of the rubber sheet 3 through an epoxy primer application step S10 in order to serve as an adhesive.

Thereafter, a liquid urethane-silica powder mixture, which is the first repair material, is firstly applied onto the epoxy primer coating layer 10 through a liquid phase urethane-silica powder mixture primer application step (S20) using a roller or a brush, -Silica powder mixture application layer 20 is formed.

Thereafter, the putty -type urethane-silica powder mixture, which is the second repairing material, is put into the seam part where the rubber sheet 3 and the rubber sheet 3 are overlapped through the putty -type urethane-silica powder mixture applying step (S30) A second urethane-silica powder mixture coating layer 30 is formed.

Thereafter, on the entire surface of the first urethane-silica powder mixture application layer 20 and the second urethane-silica powder mixture application layer 30 through the liquid urethane-silica powder mixture mixture application step (S40) The liquid urethane-silica powder mixture, which is a repair material, is applied chronologically to form a third urethane-silica powder mixture coating layer 40, followed by curing.

Since the maintenance material is prevented from flowing down from the surface of the rubber sheet 3 whose surface is not flat and consequently forms a uniform film thickness, it is possible to quickly and easily repair the surface and the joint parts through the above three coating processes have.

5, the step of repairing the surface of the rubber sheet 3 is taken as an example. However, the repairing material of the present invention is not limited to the rubber sheet 3 but may be applied to all kinds of metal structures, rubber structures, In particular, when the present invention is applied to a metallic structure or a rubber sheet structure having a joint, the putty -type urethane-silica powder mixture mixture, which is the second repair material, is applied to the joint portion through a putty- It can be repaired by filling with equipment such as.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims. It will not.

1 ... Concrete repair surface
2 ... Iron plate roof
3 ... rubber sheet roof
10 ... epoxy primer coating layer
20 ... primary urethane-silica powder mixture application layer
30 ... Second urethane-silica powder mixture coating layer
40 ... 3rd urethane-silica powder mixture coating layer
S10 ... Epoxy primer coating process
S20 ... Liquid-phase urethane-silica powder mixture coarse application process
S30 ... Putty -type urethane-silica powder mixture application process
S40 ... Liquid-phase urethane-silica powder mixture

Claims (7)

Liquid urethane and particles of 13 to 265 탆 in particle diameter are dispersed and silica powder having an apparent specific gravity of 0.03 to 0.06 is mixed at a ratio of 10: 0.5 to 1.9 (volume ratio), which can be coated with a roller or brush and prevented from flowing down A liquid urethane-silica powder mixture;
≪ / RTI > delete delete delete As a repair method of a concrete structure,
A first step of applying an epoxy primer to the repair surface to form an epoxy primer coating layer,
A second step of priming the liquid urethane-silica powder mixture according to claim 1 onto the epoxy primer coating layer to form a first urethane-silica powder mixture coating layer;
The liquid urethane and particles having a particle size of 13 to 265 탆 are dispersed on the first urethane-silica powder mixture coating layer and the silica powder having an apparent specific gravity of 0.03 to 0.06 is mixed in a ratio of 10: 5 to 9 (volume ratio) A third step of forming a second urethane-silica powder mixture coating layer by applying a putty-type urethane-silica powder mixture which is capable of being applied by a second method,
Silica powder mixture mixture according to claim 1 on the second urethane-silica powder mixture coating layer to form a third urethane-silica powder mixture coating layer, characterized by comprising a fourth step of forming a third urethane- Repair method. A method for repairing a jointed metal plate,
A first step of applying an epoxy primer to the entire surface of the metal plate to form an epoxy primer coating layer,
A second step of applying the liquid urethane-silica powder mixture according to claim 1 first on the epoxy primer coating layer to form a first urethane-silica powder mixture coating layer,
The liquid urethane and particles of 13 to 265 탆 in particle size are dispersed in the joint portion of the metal plate on the first urethane-silica powder mixture coating layer and silica powder having an apparent specific gravity of 0.03 to 0.06 is dispersed in a ratio of 10: 5 to 9 (volume ratio) A third step of filling a putty-type urethane-silica powder mixture which is mixed and made to be trowelable to form a second urethane-silica powder mixture coating layer,
A third urethane-silica powder mixture coating layer is applied to the first urethane-silica powder mixture coating layer and the second urethane-silica powder mixture coating layer to form a third urethane-silica powder mixture coating layer The method of any one of claims 1 to 5, A method for repairing a jointed rubber sheet,
A first step of applying an epoxy primer to the entire surface of the rubber sheet to form an epoxy primer coating layer,
A second step of applying the liquid urethane-silica powder mixture according to claim 1 first on the epoxy primer coating layer to form a first urethane-silica powder mixture coating layer,
A liquid urethane and particles of a particle diameter of 13 to 265 탆 are dispersed in a rubber sheet joint portion on the first urethane-silica powder mixture coating layer and a ratio of silica powder having an apparent specific gravity of 0.03 to 0.06 is 10: 5 to 9 (volume ratio) A third step of forming a second urethane-silica powder mixture coating layer by filling a putty-like urethane-silica powder mixture which is mixed with a trowel,
A third urethane-silica powder mixture coating layer is applied to the first urethane-silica powder mixture coating layer and the second urethane-silica powder mixture coating layer to form a third urethane-silica powder mixture coating layer Wherein the rubber sheet includes a rubber sheet and a rubber sheet.

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