KR101170353B1 - Waterproofing and anticorrosion method of concrete structure - Google Patents

Abstract

PURPOSE: A waterproofing and anti-corrosion method of a concrete structure using a water-soluble resin waterproofing agent is provided to prevent a concrete structure from becoming physically and chemically deteriorated. CONSTITUTION: A waterproofing and anti-corrosion method of a concrete structure using a water-soluble resin waterproofing agent is as follows. The surface of a concrete structure is cleaned using a high-pressure cleaner. Primer, composed of 30-33 wt% of epoxy resin adhesive, 35-40 wt% of filler, 23-28 wt% of water, 3-5 wt% of carbon nano fiber, 1-2.2 wt% of anti-foaming agent, 0.1-0.3 wt% of thickener, and 0.5-1 wt% of paint, is spread on the surface of the concrete structure. A water-soluble resin waterproofing agent, composed of 35-38 wt% of water-soluble silicone acryl resin, 35-40 wt% of filler, 23-28 wt% of water, 1-2.2 wt% of anti-foaming agent, 0.1-0.3 wt% of thickener, and 0.5-1 wt% of paint, is spread on the top of the primer.

Description

Water-proofing and anticorrosion method of concrete structure using water-soluble resin-based waterproofing agent

The present invention relates to a water-proof method of a concrete structure using a water-soluble resin-based waterproofing agent to prevent deterioration of the concrete structure by improving the waterproofing and anti-corrosion ability of the concrete structure, and more specifically, water-soluble contained in the water-soluble resin-based waterproofing agent Silicon acrylic resin not only secures basic waterproofness, but also prevents physical and chemical deterioration of concrete structures due to improved adhesion to primers, weather resistance, and adhesion to foreign substances, and nanometer-sized carbon contained in primers. The present invention relates to a waterproofing method for concrete structures that can prevent deterioration of concrete structures by filling micropores of concrete structures with nanofibers and improving mechanical strength and dissipating heat.

Buildings and constructions are always exposed to physical and chemical external environments, and the degree of exposure is varied due to the purpose of purpose, such as the location environment of the building and constructions, and the purpose of use. do.

Therefore, the prior art is generally intended to prevent the discoloration and damage of concrete structures such as concrete roofs and floors of buildings and constructions, concrete structures for water storage, underground concrete structures, water purification plants, wastewater treatment plants, river banks, etc. by sunlight, chemicals or weathering. Background adjustment process to smooth the concrete structure surface; Undercoat process using epoxy resin or polyurethane primer; Intermediate process using polyurethane or polyurea; Waterproof and anticorrosive construction is carried out through a construction process consisting of a top coat process using polyurethane.

In other words, in order to clean up the surface of concrete structure for the purpose of waterproofing and anticorrosive construction, and to attach the polyurethane or polyurea of the intermediate process which is the main waterproofing and anticorrosive function to the surface of concrete structure, apply adhesive using epoxy resin or polyurethane primer. After the above process, the main waterproofing and anticorrosive polyurethane or polyurea is applied, and is a construction process of coating with polyurethane to protect the waterproofing and anticorrosive. In this case, the waterproof and anticorrosive treatment part of the constructed concrete structure effectively performs its function, prevents the entire waterproof and anticorrosive from falling off the surface of the concrete structure, and prevents discoloration and damage by sunlight, chemicals or weathering. The role of the adhesive of the undercoating process and the coating of the topcoat process, in which the polyurethane or polyurea coating layer, which is an anticorrosive agent, closely adheres to the surface of the concrete structure, is important, and thus, technical development is required. The detailed configuration is slightly different, but the related art in the above.

Korean Patent No. 10-0473730 discloses a waterproofing method of a concrete structure comprising: a first step of smoothing the surface of the concrete structure; A second step of coating a primer having an adhesive property on the surface of the concrete structure; Attaching a waterproof sheet coated with a molecular resin on the primer layer; Including the fourth step of coating a urea polymer resin on the waterproof sheet, the hardness measured by the hardness tester is the waterproof sheet is 40 to 60, the urea polymer resin layer is proposed a technology of 90.

In addition, Korean Patent No. 10-0347169 has cement as a main material on the upper surface of concrete, and contains 0.05 to 0.2 parts by weight of surfactant, 3 to 5 parts by weight of water glass and 10 to 15 parts by weight of special acrylic emulsion based on 100 parts by weight of cement. Forming a thin-film penetration enhancing layer; 5 to 10 parts by weight of nonionic surfactant, 40 to 60 parts by weight of calcium stearate, 80 to 200 parts by weight of ethylene vinyl acetate resin and calcium sulfur aluminate, portland cement and alumina The present invention relates to a construction method of concrete having a composite waterproof structure in which a coating waterproofing liquid containing a special powder material selected from cement is formed into a primary coating waterproofing layer and a second coating waterproofing layer.

The Korean Patent No. 10-0473730 is to form a lower coating and the upper coating film by introducing a material of hardness suitable for each layer to function to absorb the external force transmitted from the upper and lower parts of the concrete structure to the upper surface of the concrete or waterproof coating Although it is effective to prevent the transmission to the furnace, the main point of the technology is to emphasize the aspect of protecting the waterproof sheet coated with molecular resin, which is the main waterproofing and anticorrosive treatment agent, from the impact of physical external force. It keeps effective and prevents damage from external physical and chemical damage factors.

In addition, the Korean Patent No. 10-0347169 discloses that the concrete having a composite waterproof structure has a thick film-type waterproof layer having excellent affinity, adhesion, breathability, and elasticity in the penetration reinforcement layer and the wet surface, thereby increasing the pore volume of the concrete. As it rapidly decreases, the watertightness of the concrete surface layer is strengthened, and strong adhesion and elasticity are excellent even in a wet environment, and in particular, the crack tracking property which is unavoidable in the concrete structure is excellent, so that the peeling, lifting, breaking, and waterproofing of the waterproof layer have good effects. Since cement is the main waterproofing and anticorrosive layer, it is insufficient to effectively protect large concrete structures from moisture, and to prevent discoloration and damage caused by sunlight, chemicals or weathering on the surface exposed to the outside. Damage from physical and chemical damage due to lack of composition The effect is inadequate.

Therefore, the conventional method for waterproofing and anticorrosive construction of concrete structures has a weak adhesive force of the coating agent that closely adheres to the surface of the concrete structure, which is the main waterproofing and anticorrosive function among the waterproofing and anticorrosive treatment parts of the concrete structure. Research and development are needed to solve the problem that the separated part easily falls from the concrete structure, and that the coating agent that performs the main waterproofing / corrosion function is discolored and damaged by sunlight, chemicals or weathering.

Waterproofing method of a concrete structure using a water-soluble resin-based waterproofing agent of the present invention for solving the above problems and the surface treatment step of removing the foreign matter on the surface of the concrete structure using a high pressure washing machine and adjusting the ground surface; Epoxy resin adhesive 30 to 33% by weight, fillers 35 to 40% by weight, water 23 to 28% by weight, carbon nanofibers 3 to 5% by weight of 10-100 nanometers, antifoam 1 A primer applying step of applying a primer consisting of-2.2 wt%, a thickener 0.1-0.3 wt%, and a pigment 0.5-1 wt%; Water-soluble silicone produced by mixing a silicone acrylate monomer composed of any one of a silicone acrylate monomer, methyl methacrylate, and hydroxyl ethyl methacrylate, a solvent, and an organic solvent with an emulsifier and water on the upper side of the primer. A water-soluble resin-based waterproofing agent composed of 35 to 38% by weight of acrylic resin, 35 to 40% by weight of filler, 23 to 28% by weight of water, antifoaming agent 1 to 2.2% by weight, thickener 0.1 to 0.3% by weight, and pigment 0.5 to 1% by weight Characterized in that consisting of; water-soluble resin-based waterproofing agent coating step.

When there is a damaged part on the surface of the concrete structure in the surface treatment step of the present invention, after washing the surface of the concrete structure using a high pressure washer and characterized in that the base material after adjusting the filling operation using the filling material.

The pigments contained in the primer and the water-soluble resin-based waterproofing agent in the primer coating step and the water-soluble resin-based waterproofing agent of the present invention are characterized in that the pigments are mixed with titanium oxide and zinc oxide.

The present invention not only secures basic waterproofness through the water-soluble silicone acrylic resin included in the water-soluble resin-based waterproofing agent, but also prevents physical and chemical deterioration of the concrete structure due to improved adhesion with a primer, weather resistance, and adhesion to foreign substances. have

In addition, the nanometer-sized carbon nanofibers included in the primer is a useful invention that can prevent the deterioration of the concrete structure by filling the micropores of the concrete structure and at the same time improving the mechanical strength and heat release.

Hereinafter, the present invention will be described in more detail.

A surface treatment step of removing foreign substances on the surface of the concrete structure using a high pressure cleaner and adjusting a ground surface; Epoxy resin adhesive 30 to 33% by weight, fillers 35 to 40% by weight, water 23 to 28% by weight, carbon nanofibers having a particle size of 10 to 100 nanometers, antifoaming agent 1 to 2.2% by weight on the surface-treated concrete structure surface, A primer coating step of applying a primer comprising a thickener of 0.1 to 0.3% by weight and a pigment of 0.5 to 1% by weight; Water-soluble silicone produced by mixing a silicone acrylic resin made of a silicone acrylate monomer, any one of methyl methacrylate and hydrosyl ethyl methacrylate, a solvent and an organic solvent on the upper side of the primer with an emulsifier and water A water-soluble resin-based waterproofing agent composed of 35 to 38% by weight of acrylic resin, 35 to 40% by weight of filler, 23 to 28% by weight of water, antifoaming agent 1 to 2.2% by weight, thickener 0.1 to 0.3% by weight, and pigment 0.5 to 1% by weight It consists of; water-soluble resin-based waterproofing agent coating step.

First, the surface treatment step removes the foreign matter and the film attached to the surface of the concrete structure using a high pressure cleaner or a wet sanding machine.

In particular, when the concrete structure in the present invention is newly established, the work is completed through the above-described operation, but when repairing the aging concrete structure, the pinhole of the concrete structure is filled with ordinary filling materials. In case of oxidizing part due to exposure of reinforcing bar, clean the rusty part, apply rebar rust preventive 2 ~ 3 times, and then smooth the surface of concrete structure (base surface).

Then, a primer is applied to the surface of the concrete structure.

The primer is 30 to 33% by weight epoxy resin adhesive, 35 to 40% by weight filler, 23 to 28% by weight water, carbon nanofibers having a particle size of 10 to 100 nanometers, antifoaming agent 1 to 2.2% by weight, thickener 0.1 to 0.3% by weight %, Pigment 0.5-1 weight%.

Here, the epoxy resin adhesive is to act to improve the adhesion of the primer.

Such an epoxy resin adhesive has a strong adhesive strength and is widely used for crack repair of concrete or metal chopping.

In particular, the epoxy resin adhesive is excellent in chemical resistance, heat resistance, and water resistance to form a thin protective film after coating on a concrete structure to act to prevent chemical deterioration generated during repair of water purification plant or sewage treatment plant.

Next, the carbon nanotube is contained in the primer in this invention.

The carbon nanotube is a carbon allotrope and is a material in which one carbon is combined with another carbon atom in a hexagonal honeycomb pattern to form a tube, and the tube is in an extremely small region with a nanometer (tube diameter of 10 to 30 nm). Mechanical properties are stronger than steel.

In addition, the carbon nanotubes do not react with other compounds and are very stable chemically.

Therefore, the use of carbon nanotubes penetrates and fills numerous voids formed on the surface of the concrete structure, thereby protecting the concrete structure from chemical deterioration factors and improving mechanical strength such as fracture toughness, elastic modulus of elasticity and fatigue resistance. This improves adhesion to concrete structures while protecting them from physical deterioration factors.

When the carbon nanofibers are mixed below the threshold, the carbon nanofibers hardly exhibit their functions. When the carbon nanofibers are mixed above the threshold, the viscosity increases, resulting in poor workability.

Next, the filler is mixed to improve mechanical strength and durability.

Defoamers are included to suppress foaming, and thickeners are mixed to adjust viscosity.

Next, the pigment is to mix the color in the primer, in the present invention is mixed to give the sunscreen effect and bacterial resistance by using a mixture of titanium and zinc oxide.

On the other hand, in the present invention, a water-soluble resin-based waterproofing agent is applied above the primer.

The water-soluble resin-based waterproofing agent is formed to form a basic waterproofing ability through the acrylic resin, but is configured to improve adhesion to the primer and improve weather resistance.

That is, the water-soluble silicone acrylic resin is a modified acrylic resin emulsifier and silicone acrylic resin obtained by polymerizing any one acrylate monomer selected from silicon acrylate monomer and methyl methacrylate, hydroxyl acrylate in an organic solvent consisting of acetate; Prepared by dropping water.

Thus, the silicone acrylate monomer of the water-soluble silicone acrylic resin thus prepared is excellent in adhesion to the primer, and has a acrylate in the silicone terminal group, which is a component capable of resin synthesis.

In addition, the acrylate monomer is a component necessary for dropping of the silicone acrylate monomer and the initiator to improve the adhesion between the components, and shorten the construction time by applying a water-soluble resin-based waterproofing agent, quick drying, sunlight, wind, moisture, It has excellent performance (weather resistance) to withstand the action of the natural environment such as gas in the air, and acts to prevent deterioration of concrete structures from physical deterioration factors.

In particular, the water-soluble resin-based waterproofing agent in the present invention serves to prevent the adhesion of factors causing chemical deterioration, such as foreign matter, calcium chloride, sodium silicate, made of a smooth surface after application and drying.

When the water-soluble acrylic resin contained in the water-soluble resin-based waterproofing agent is mixed below the threshold, the adhesive strength, dryness, and weather resistance with the primer are lowered, and when it is mixed above the threshold, the viscosity becomes low, making construction difficult. do.

On the other hand, the water-soluble resin-based waterproofing agent includes a pigment composed of a filler for improving strength and durability, water, an antifoaming agent for suppressing bubble generation, a thickener for viscosity adjustment, and zinc oxide for imparting UV protection effect and bacterial resistance. do.

The primer and the water-soluble resin-based waterproofing agent having the above-mentioned structure prevent deterioration by rainwater and sunlight, which cause deterioration, and deteriorate the adhesion of calcium chloride or sodium silicate, which cause oxidation, thereby causing deterioration into the concrete structure. In addition to blocking the factor, the primer acts to prevent the penetration of the deterioration factor by secondary filling the pores of the concrete structure through the application of carbon nanofibers with improved adhesion.

In particular, the carbon nanofiber of the primer is excellent in mechanical strength to reinforce the concrete structure, while the deformation does not occur through the chemical properties, so that the mechanical strength can be maintained even during the penetration of calcium chloride.

Although the above-described embodiments are described in the preferred embodiments of the present invention, the present invention is not limited thereto and may be modified and modified in various forms without departing from the technical spirit of the present invention. This is obvious for the engineers.

Claims (3)

Surface treatment step of removing the foreign matter on the surface of the concrete structure using a high pressure washer and adjusting the ground surface;
Epoxy resin adhesive 30 to 33% by weight, fillers 35 to 40% by weight, water 23 to 28% by weight, carbon nanofibers 3 to 5% by weight of 10-100 nanometers, antifoam 1 A primer coating step of applying a primer consisting of-2.2 wt%, a thickener 0.1-0.3 wt%, and a pigment 0.5-1 wt%;
Water-soluble silicone produced by mixing a silicone acrylate monomer composed of any one of a silicone acrylate monomer, methyl methacrylate, and hydroxyl ethyl methacrylate, a solvent, and an organic solvent with an emulsifier and water on the upper side of the primer. A water-soluble resin-based waterproofing agent composed of 35 to 38% by weight of acrylic resin, 35 to 40% by weight of filler, 23 to 28% by weight of water, antifoaming agent 1 to 2.2% by weight, thickener 0.1 to 0.3% by weight, and pigment 0.5 to 1% by weight Water-soluble resin-based waterproofing agent coating step of; waterproofing method of the concrete structure using a water-soluble resin-based waterproofing agent characterized in that consisting of.
The method of claim 1, wherein in the surface treatment step, when there is a damaged part on the surface of the concrete structure, after cleaning the surface of the concrete structure using a high pressure washer, and after filling with a filling material, the base surface is adjusted. Waterproofing method of concrete structure using water-soluble resin-based waterproofing agent.
The water-soluble resin-based waterproofing agent according to claim 1, wherein the pigments included in the primer and the water-soluble resin-based waterproofing agent in the primer applying step and the water-soluble resin-based waterproofing agent applying step are mixed pigments of titanium oxide and zinc oxide. Waterproofing method of concrete structure.