KR101013031B1 - Method for preventing a salt damage and carbonation of concrete structure - Google Patents

Abstract

PURPOSE: A method for efficiently preventing salt damage and carbonation of a concrete structure is provided to uniformly form a film with excellent properties on the surface of a reinforced concrete structure and to perform carbonation prevention and durability improvement. CONSTITUTION: A method for efficiently preventing salt damage and carbonation of a concrete structure comprises the steps of: plane-treating foreign materials of a structure film or deteriorated site of the surface of the concrete structure using grinding and water blast; uniformly applying a leveling and patching agent to the surface of plane-treated reinforced concrete structure in a uniform thickness of 100-300μm under 1-2bar pressure; and coating an acryl urethane-based water-soluble modified composite resin to the surface applied with the leveling and patching agent in a 80-100μm thickness two times.

Description

Method for preventing a salt damage and carbonation of concrete structure

The present invention relates to a method of preventing salting and carbonation of aging reinforced concrete structures such as bridges or culverts or reinforced concrete structures, and more specifically, adhesion strength to the surface of reinforced concrete structures. Uniformity is achieved by allowing the entire process to be achieved through mechanization of the coating film with excellent physical properties such as impact resistance, abrasion resistance, elongation, and bendability, thereby effectively preventing carbonation of reinforced concrete structures and increasing durability, and a leveling patching agent. By filling the pores of the reinforced concrete structure through the silica sand of fine particles contained in the particles, the voids are formed very small after forming the leveling patching film, it is excellent in breathability to prevent deterioration of the reinforced concrete structure and coating film, acrylic Urethane Modified Water Soluble Composite The functional sieving pigment contained in the paper forms a dense coating structure during coating, which improves the efficiency of the coating film, effectively preventing deterioration of reinforced concrete structures, as well as some components of the leveling patching agent and the acrylic urethane-based water-soluble composite resin. By forming similarly, the acrylic urethane-based modified water-soluble composite resin is easily coated on the leveling patching agent to facilitate the formation of a coating film. In particular, since the leveling patching agent performs a function similar to the coating agent even when the coating part is peeled off. In addition, the present invention relates to a method of preventing salting and carbonation of reinforced concrete structures, which act to prevent premature degradation of reinforced concrete structures.

In general, reinforced concrete structures are cracked and fallen due to problems such as erosion by freezing and thawing, neutralization by carbon dioxide, and corrosion of reinforcing bars due to chlorides, thereby significantly reducing durability.

Therefore, a method of coating the surface is used to prevent this.

For example, a method of forming a film using a paint such as epoxy, vinyl ester, fluororesin, acrylic rubber, rubber chloride, urethane, or the like on the surface of a reinforced concrete structure has been developed.

However, since the paint used in the conventional film forming method is organic based, the initial performance is excellent, but the deformation characteristics such as the coefficient of thermal expansion and elongation are different from those of the reinforced concrete structure. There is a problem that can not be removed from the concrete structure to protect the reinforced concrete structure.

In addition, a chipping machine should be used to remove the deteriorated surface of the reinforced concrete structure. At this time, the chipping machine causes high vibration to cause fine cracks on the concrete surface, thereby degrading the performance of the reinforced concrete structure. Has been pointed out.

In particular, since the paint used in the conventional film forming method uses organic solvents having high volatility and toxicity, it is a cause of environmental pollution as well as safety of workers due to the generation of harmful gases and odors. Have

In addition, there is a problem in that the putty agent, which is generally used to fill the voids on the surface of the reinforced concrete structure and smooth the coating film, is dissolved by an organic solvent and the coating surface is dropped, thereby preventing the structure from being protected.

In particular, the epoxy paints are easily discolored by ultraviolet rays, and thus are difficult to be applied to outdoor structures that are exposed to light, and the chlorinated rubber paints have poor durability due to cracking caused by the elasticity of the rubber component. There is a problem.

In order to solve the problems described above, salt and carbonation prevention methods of the reinforced concrete structures of the present invention are used to grind foreign materials on the old film or deteriorated surface of an aged reinforced concrete structure or a newly reinforced reinforced concrete structure surface by using surface blasting and water blasting. If not, the processing step; 35 to 55% by weight of any one selected from acrylic emulsion resins, urethane resins and silicone resins or a mixture of two or more of these components on the surface of the reinforced concrete structure treated with the base surface, 40 to 60% by weight of silica sand in the form of nanoparticles %, Admixture 1-5 wt%, Leveling patching agent with voids of 0.02 ~ 0.1㎛ and glass transition temperature below 1 ℃ is uniformly applied to the thickness of 100 ~ 300㎛ at 1 ~ 2bar pressure using spray machine A leveling patching agent applying step for filling a gap of the reinforced concrete structure and forming a constant coating thickness; 50 to 60% by weight of any one selected from acrylic emulsion resins, urethane resins, silicone resins or a mixture of two or more of these components on a surface coated with the leveling patching agent, a coloring pigment 1 to 5 weights %, Functional extender pigment 30-40% by weight, admixture 1-5% by weight, with a uniform thickness of 80-100 μm in an acrylic urethane-based modified water-soluble composite resin having pores of 0.02 to 0.1 μm and glass transition temperature of 1 ° C. or less. It is characterized in that consisting of; a coating step of coating twice;

Functional sieving pigments in the acrylic urethane-based modified water-soluble composite resin of the salt and carbonation prevention method of the reinforced concrete structure of the present invention is any one component selected from aluminum oxide, zirconia, alumina, zircon, calcium silicate or mixed two or more of these components Characterized in that formed.

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The blending agent in the acrylic urethane-modified water-soluble composite resin of the salt and reinforcement of the reinforced concrete structure of the present invention is an antifoaming agent, a dispersant, a thickener, a rust preventive agent, an emulsifier, an inorganic antibacterial agent, a thickener, a sunscreen agent, an adhesion promoter. Or a mixture of two or more of these components.

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Salt and carbonation prevention method of the reinforced concrete structure of the present invention is uniform to the surface of the reinforced concrete structure to make the coating film excellent properties such as adhesion strength, impact resistance, wear resistance, elongation, flexibility, etc. By performing the process, it is possible to effectively prevent carbonation and increase durability of the reinforced concrete structure.

In addition, while filling the pores of the reinforced concrete structure efficiently through the silica sand of the fine particles contained in the leveling patching agent, the voids are formed very small after forming the coating film of the leveling patching agent is excellent air permeability to prevent degradation of the reinforced concrete structure and coating film can do.

In addition, the functional sieving pigment contained in the acrylic urethane-based modified water-soluble composite resin can form a dense coating structure during coating to improve the efficiency of the coating film, thereby effectively preventing deterioration of the reinforced concrete structure.

In addition, some components of the leveling patching agent and the acrylic urethane-based modified water-soluble composite resin are similarly formed, and thus the acrylic urethane-based modified water-soluble composite resin is easily coated on the leveling patching agent to facilitate the formation of a coating film. Since the leveling patching agent performs a function similar to the coating even if it is peeled off, it is a useful invention that works so that the reinforced concrete structure does not deteriorate prematurely.

Hereinafter, look at the construction method of the present invention in more detail.

First, the present invention is a method for preventing deterioration is already in progress or deterioration by applying to the surface of the existing concrete structure or the new concrete structure as described above.

Looking at this in detail, first, surface treatment is performed by grinding and water blasting the debris of the old film or deterioration of the old reinforced concrete structure or the surface of the newly constructed reinforced concrete structure.

At this time, the water blasting operation is to spray the water at a pressure of 500 ~ 2000bar to perform the surface treatment of the surface of the aging reinforced concrete structure or the surface of the new reinforced concrete structure.

As described above, the leveling patching agent is uniformly formed on the surface of the reinforced concrete structure, which is 100-300 μm thick, at a pressure of 1 to 2 bar through a spray machine.

At this time, the leveling patching agent consists of 35 to 55% by weight resin, 40 to 60% by weight of silica sand in the form of nanoparticles, 1 to 5% by weight admixture.

The resin of the leveling patching agent is to use any one selected from the components consisting of an acrylic emulsion, a urethane resin, a silicone resin, or a mixture of two or more of these components, preferably all of the above components are mixed and used.

The resin of the leveling patching agent is advantageous in that the film formation is advantageous, and in particular, the elongation and the degree of ordering function can be improved, thereby effectively filling the microcracks of the reinforced concrete structure and preventing the progress of the new crack. By improving the role and chemical resistance, it will act to protect the reinforced concrete structure from carbon dioxide, chlorine, sulphate and various harmful substances that may cause deterioration by inhibiting the durability of the reinforced concrete structure.

In particular, the methyl group inorganic material contained in the silicone resin acts to slow down the hydrolysis rate to improve adhesiveness, thereby preventing the coating film from falling off, thereby improving durability of the reinforced concrete structure and the leveling patching agent.

In addition, the silica particles in the form of nanoparticles effectively fills the fine pores formed in the deteriorated reinforced concrete structure or the new reinforced concrete structure.

Here, it is preferable that the particle size of the said silica sand is 0.02-0.1 micrometer.

This is to form fine pores in the leveling patching agent while filling the voids formed in the reinforced concrete structure through the silica sand of the fine particles. The leveling patching agent is uniformly sprayed at a pressure of 1 to 2 bar through a spray machine to reinforce the reinforcing bars. It is important to allow the silica sand contained in the leveling patching agent to penetrate into the pores of the concrete structure surface smoothly.

Such a silica having a particle size does not fill all of the pores formed in the reinforced concrete structure due to the variety of sizes, but fills the large portion of the pores while acting to improve the smoothness by the silica of the fine particles.

In addition, the leveling patching agent including silica sand having a particle size as described above forms micropores of 0.02 to 0.1 μm when the coating film is formed on the reinforced concrete structure due to the size of the silica sand, so that condensed water generated inside the reinforced concrete structure By discharging to the outside in the form of water vapor and acting not to penetrate the external water, it is possible to prevent degradation of the reinforced concrete structure.

In particular, due to the configuration that can discharge the condensed water inside the reinforced concrete structure to the outside as described above it is possible to prevent the phenomenon that the adhesive strength of the reinforced concrete structure and the coating film formed on the surface is reduced, and the heat resistance, weather resistance and flame resistance In addition to the function to block ultraviolet rays while maintaining the durability of the coating film will be able to prevent the contamination of the coating film.

In addition, the leveling patching agent in the present invention further comprises a admixture.

These admixtures are composed of any one selected from thickeners, emulsifiers, adhesion promoters, rust inhibitors, or mixed forms of two or more of these components to improve the performance of the leveling patching agent, in particular, the adhesion enhancer is a glass transition By using a temperature of less than 1 ℃ there is almost no change in physical properties due to the temperature change to respond to long-term environmental changes after the coating film is formed.

Next, when the application of the leveling patching agent is completed as described above, the curing is performed after finishing so that no load is applied before the leveling patching agent is completely cured.

Next, when curing of the leveling patching agent is completed, the acrylic urethane-based modified water-soluble composite resin is coated twice using a coating machine on the surface of the leveling patching agent to make a uniform thickness of 80 to 100 μm.

The acrylic urethane-based modified water-soluble composite resin used in the coating step is composed of 50 to 60% by weight of resin, 1 to 5% by weight of colored pigment, 30 to 40% by weight of functional extender pigment, and 1 to 5% of admixture.

Herein, the resin may be used by mixing any one selected from the same acrylic emulsion resin, urethane resin, silicone resin, or two or more of these components as the resin in the leveling patching agent, and preferably mixing all of these components. To use.

Since the component of this resin consists of the same component as a leveling patching agent, the adhesive force with a leveling patching agent can obtain the outstanding effect.

In addition, as a pigment, titanium, manganese oxide, chromium oxide, iron oxide, and cobalt oxide can be used to protect the coating through water resistance and UV protection, thereby inhibiting the durability of carbon dioxide, chlorine, sulfate and various reinforced concrete structures. It acts to prevent the penetration of the element.

Next, the functional extender pigment may be constituted by mixing any one selected from aluminum oxide, zirconia, alumina, zircon, calcium silicate or two or more of these components as fine particles, and the particle size of the functional extender pigment is 0.02 to It is preferable to use 0.1 micrometer.

Such a functional extender pigment forms a dense coating to act to improve impact resistance and wear resistance even in harsh environments.

Here, it is natural that fine pores are formed in the acrylic urethane-based modified water-soluble composite resin through the functional extender pigment of the fine particles, thereby improving air permeability.

In addition, the admixture may be used by mixing any one selected from among antifoaming agents, dispersants, thickeners, rust inhibitors, emulsifiers, inorganic antibacterial agents, defoamers, sunscreens, adhesion promoters or two or more of these components, in particular, the adhesion promoter is glass By using a transition temperature of 1 ℃ or less, there is almost no change in physical properties due to temperature change, and thus it is possible to cope with long-term environmental changes after the coating film is formed.

Particularly, since the leveling patching agent and the acrylic urethane-based modified water-soluble composite resin have the same resin component, the leveling patching agent plays a similar role even if the coating of the acrylic urethane-based modified water-soluble composite resin is partially peeled off, thereby providing the reinforced concrete structure. Deterioration can be prevented.

Such a method through the salt and carbonation prevention method of the reinforced concrete structure of the present invention and the conventional construction method using an organic paint in general can be compared as shown in the following table.

Comparison of amount of money between the construction method of the present invention and the conventional construction method Item Conventional Invention material cost 32,100 ~ 40,400 won / ㎡ 24,900 won / ㎡ Labor cost (㎡) Painter: 18,851 won / ㎡
Surface Treatment Polishing: 8,342 won / ㎡
Regular worker: 5,309 won / ㎡
Total: 31,892 won / ㎡ Painter: 990 won / ㎡
Special Worker: 10,618 won / ㎡
Total: 11,608won / ㎡ Expense (㎡) Machine cost: 957 won / ㎡ Airless: 219 won / ㎡
Spray: 1,350 won / ㎡ Total (㎡) 64,949-68,938 KRW / ㎡ 38,077 KRW / ㎡

As in the amount comparison table of [Table 1], the present invention can be seen that the operation cost is low due to the small number of personnel input due to the process through the mechanization.

Property and durability test results of construction section Item Conventional Method Method of the Invention compare Adhesion strength
(MPa) Dry state 2.0 to 3.2 3.5 Great After alkali resistance test 1.4 to 2.8 3.2 Great After flame resistance test 1.2 to 2.7 3.2 Great Wet state 1.6 to 3.1 3.0 Great Salinity penetration depth (mm) 0.88-6.9 0.86 Great Salinity Penetration Resistance (Coulombs) 619.2-1399.1 413.6 Great Resistance to neutralization (mm) 0.1 to 1.5 0 Great Resistance to freeze-thawing (durability index) 82-98 99 Great

As shown in the above [Table 2], the present invention is superior in quality, such as carbonization, salt penetration resistance, adhesion strength, and resistance to freezing and deterioration of the construction surface compared to the conventional construction method.

Claims (12)

A ground surface treatment step of performing surface treatment using a water blast, grinding foreign matter on the old film or deteriorated surface of an aged reinforced concrete structure or a newly constructed reinforced concrete structure surface;
35 to 55% by weight of any one selected from acrylic emulsion resins, urethane resins and silicone resins or a mixture of two or more of these components on the surface of the reinforced concrete structure treated with the base surface, 40 to 60% by weight of silica sand in the form of nanoparticles %, Admixture 1-5 wt%, Leveling patching agent with voids of 0.02 ~ 0.1㎛ and glass transition temperature below 1 ℃ is uniformly applied to the thickness of 100 ~ 300㎛ at 1 ~ 2bar pressure using spray machine A leveling patching agent applying step for forming a uniform coating thickness and a work to fill the air gap of the reinforced concrete structure;
50 to 60% by weight of any one selected from acrylic emulsion resins, urethane resins, silicone resins or a mixture of two or more of these components on a surface coated with the leveling patching agent, a coloring pigment 1 to 5 weights %, Functional extender pigment 30-40% by weight, admixture 1-5% by weight, with a uniform thickness of 80-100 μm in an acrylic urethane-based modified water-soluble composite resin having pores of 0.02 to 0.1 μm and glass transition temperature of 1 ° C. or less. Coating step of coating twice as possible; Salt and carbonation prevention method of the reinforced concrete structure characterized in that consisting of.
delete delete delete delete delete delete delete delete The method of claim 1, wherein the functional extender pigment in the acrylic urethane-based modified water-soluble composite resin is characterized in that the reinforcing bar is formed by any one selected from aluminum oxide, zirconia, alumina, zircon, calcium silicate or by mixing two or more of these components Prevention of salt and carbonation of concrete structures.
The method of claim 1, wherein the admixture in the acrylic urethane-based modified water-soluble composite resin is a defoamer, a dispersant, a thickener, a rust preventive agent, an emulsifier, an inorganic antibacterial agent, a thickener, a sunscreen agent, any one component selected from the adhesion promoter or two or more of these components. Method for preventing salt and carbonation of reinforced concrete structures characterized by being formed by mixing. delete