KR100994380B1 - Flexible polymer cementitious repair mortar and repairing and reinforcing method of concrete structure by using flexible flexible polymer cementitious repair mortar - Google Patents

Abstract

PURPOSE: A polymer cement repairing material and a repairing and reinforcing method of a concrete structure using thereof are provided to secure long-term crack resistance and freeze resistance. CONSTITUTION: A polymer cement repairing material having flexibility is formed with a one-component polymer cement composition containing 26~54wt% of aluminate cement, 30~58.5wt% of silica sand, 0.3~0.6wt% of plasticizer, 7~12wt% of powder modified polymer, 0.02~0.07wt% of powder antifoaming agent, and 6~14.7wt% of water. A repairing material additionally contains a high-quality water-reducing agent, a microfiber, and a nanoparticulate.

Description

Flexible Polymer Cementitious Repair Mortar and Repairing and Reinforcing method of Concrete Structure by Using Flexible Flexible Polymer Cementitious Repair Mortar}

The present invention relates to a polymer cement repair material having flexibility for improving chemical resistance and crack prevention, waterproofing and protection performance of concrete structures, and repairing and reinforcing methods of concrete structures using the same, and more particularly, resistant to acidic environments. Aluminate cements with low porosity and low permeability and modified polymers with low glass transition temperature are used for excellent long-term crack resistance and freeze-melt resistance due to excellent chemical resistance and flexibility. It does not occur peeling phenomenon due to water latent in the concrete structure that is the base surface and water that flows in from the earth and sand behind the concrete structure, and it maintains waterproof for a long time after construction, thus reducing the cost of maintenance and high performance. Reduce the amount of water used through the water reducer It can improve the waterproofing effect by lowering the porosity and permeability of concrete structures, and by making silica or silica fume into nano fine particles, the specific surface area is increased, so that the hydration reaction takes place actively, thus reducing water permeability and improving chemical resistance and strength. In addition, the present invention relates to a polymer cement repair material having a flexibility to promote user convenience due to its low shrinkage after construction due to low water consumption, and easy mixing and construction, and a repair and reinforcement method for concrete structures using the same. .

Generally, the typical life expectancy of sewage box structures used in concrete structures, especially sewage systems, is 80 to 100 years, but deterioration occurs due to various requirements.

In other words, sulfuric acid produced by microbiological action or water leaking from the soils behind the concrete structure, and water flowing into the sewage box structure always achieve 100% humidity, resulting in deterioration of the concrete structure resulting in deterioration of durability. There was a problem.

Looking at the deterioration process, in the case of sulfuric acid, hydrogen sulfide gas is biochemically generated by organic substances and bacteria together with sulfates contained in waste water, and hydrogen sulfide gas is generated, and these hydrogen sulfide gases are converted to sulfuric acid through biological conversion to increase acidity. And deterioration occurs.

In particular, the biochemically converted sulfuric acid as described above peels the coating agent coated on the concrete surface to act to further spread the deterioration.

In addition, the inside of the sewage box structure is always filled with moisture due to the movement of sewage, in particular, because the water vapor is condensed on the concrete surface by the water leaking from the outside will always exist in a condition that the deterioration requirements.

Due to such deterioration, durability of the sewage box structure is lowered, and various methods for repairing it have been proposed.

First, the method using portland cement.

Existing Portland cement concrete is still the main material used for the repair of sewage box structures.

These portland cements are widely used materials at low prices.

Another method is to coat the polymer.

This method shows that epoxy and polymer coatings and polymer mortars have excellent resistance to acid environments.

However, the above repair method has the following problems.

First of all, the method of using portland cement can be cheaper but has very poor resistance to sulfuric acid.

That is, the portland cement exposed to the hydrogen sulfide environment has a problem of poor workability due to lack of adhesive strength, small crack bridging ability, and construction needs to be very thick with a thickness of 5 to 7 cm.

In addition, the polymer coating has a problem in that the resistance to acid environment is good but the adhesion for a long time is lowered.

In other words, the constructed sewage box structure has water that penetrates through microcracks or microcracks, and there is no countermeasure against peeling phenomenon due to such water.

Another problem is that in the sewage box structure, it is very difficult to construct a polymer coating on the surface of the wet structure because the relative humidity is always high because the moisture is always present on the surface of the structure.

That is, since the polymer coating material epoxy, polyurethane and polyurea coating material is very sensitive to the humidity, the peeling phenomenon occurs in a relatively fast time, in particular, there was a problem that the construction is very difficult.

Polymer cement repair material having the flexibility of the present invention for solving the above problems are 26 to 54% by weight of aluminate cement, 30 to 58.5% by weight of silica sand, 0.3 to 0.6% by weight plasticizer, 7 to 12% by weight of powder modified polymer It is characterized by consisting of a one-component polymer cement mixture composed of 0.02 to 0.07% by weight of a powder defoamer and 6 to 14.7% by weight of water.

The plasticizer of the one-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that the sodium salt of melamine formaldehyde condensate.

The powder-modified polymer of the one-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that the glass transition temperature is any one selected from vinyl acetate and vinyl acetate.

The one-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that it further comprises 0.03 to 0.08% by weight of nanoparticles made of precipitated silica or silica fume.

The one-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that it further comprises 1.5 to 3.0% by weight of microfiber made of wollastonite.

The one-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that it further comprises 0.2 to 0.6% by weight of microfiber made of cellulose.

The one-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that the high performance water reducing agent 0.1 to 0.4% by weight is further included.

Repair method of the concrete structure of the present invention after the deterioration occurs to remove the weakened concrete, and after cleaning the ground by sand blasting, shot blasting, high-pressure cleaning of contaminants, grease, dust, latencies, weathered places A background trimming step of performing a flat surface work with a coating and a patching mortar with the rust inhibitor twice in a state in which rust generated in the rebar is removed; Any one selected from 26 to 54% by weight of aluminate cement, 30 to 58.5% by weight of silica sand, plasticizer 0.3 to 0.6% by weight of sodium salt of melamine formaldehyde condensate, vinyl acetate having a glass transition temperature of 7 ° C, and vinyl acetate. Powder modified polymer 7-12 wt%, 0.02-0.07 wt% powder defoamer, 6-14.7 wt% water, 0.03-0.08 wt% nano fine particles composed of precipitated silica or silica fume, microfiber 1.5-3.0 wt% A blending step of mixing a one-component polymer cement mixture composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 0.1 to 0.4% by weight of a high performance water reducing agent using a stirrer such as a mixer; Characterized in that the completion of the coating step of the two-component polymer cement mixture is completed on the base surface of the concrete structure is completed, the base composition is completed.

Powder composition consisting of 25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer and liquid modified polymer 10-22% by weight, liquid defoaming agent 0.2 It is characterized by consisting of a two-component polymer cement mixture consisting of a liquid agent consisting of ~ 0.4% by weight.

The plasticizer contained in the powder of the two-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that the sodium salt of the melamine formaldehyde condensate.

The liquid-modified polymer contained in the liquid agent of the two-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that the glass transition temperature is -22 ° C with styrene acryl latex.

The powder of the two-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that it further comprises 0.03-0.08% by weight of nano fine particles made of precipitated silica or silica fume.

The powder of the two-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that it further comprises 1.5 to 3.0% by weight of microfiber made of wollastonite.

The powder of the two-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that it further comprises 0.2 to 0.6% by weight of microfiber made of cellulose.

The powder of the two-component polymer cement mixture of the flexible polymer cement repair material of the present invention is characterized in that it further comprises 2 to 4.4% by weight of water.

Repair method of the concrete structure of the present invention after the deterioration occurs to remove the weakened concrete, and after cleaning the ground by sand blasting, shot blasting, high-pressure cleaning of contaminants, grease, dust, latencies, weathered places A background trimming step of performing a flat surface work with a coating and a patching mortar with the rust inhibitor twice in a state in which rust generated in the rebar is removed; 25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing the two-component polymer cement mixture composed of 0.4 wt% and powder of 2 to 4.4 wt% of water using a stirrer such as a mixer; Characterized in that the construction was completed by coating the two-component polymer cement mixture is completed on the base surface of the concrete structure is completed in two times.

The construction of the polymer cement mixture of the repair method of the concrete structure of the present invention is characterized by using an air spray nozzle capable of using a plastering hand, a brush by hand, a spray operation using a hopper gun, or a volumetric pump and a plaster spray.

Reinforcement method of the concrete structure of the present invention is to remove the concrete is weakened due to the deterioration, and after cleaning the ground by sand blasting, shot blasting, high-pressure cleaning of contaminants, grease, dust, latencies, weathered places A background trimming step of performing a flat surface work with a coating and a patching mortar with the rust inhibitor twice in a state in which rust generated in the rebar is removed; 25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing the two-component polymer cement mixture composed of 0.4 wt% and powder of 2 to 4.4 wt% of water using a stirrer such as a mixer; Coating the two-component polymer cement mixture is completed two times on the base surface of the finished concrete structure, if the crack of more than 2mm on the surface of the concrete structure, filling the polymer cement mixture into the crack, 15 ~ 25cm width on the cracked area, length is the length of the cracked polymer cement mixture is applied to impregnate the reinforcing fabric only in the cracked area, and then the construction completion step of applying the polymer cement mixture on the impregnated reinforcing fabric secondary It characterized by consisting of;

Reinforcement method of the concrete structure of the present invention is to remove the concrete is weakened due to the deterioration, and after cleaning the ground by sand blasting, shot blasting, high-pressure cleaning of contaminants, grease, dust, latencies, weathered places A background trimming step of performing a flat surface work with a coating and a patching mortar with the rust inhibitor twice in a state in which rust generated in the rebar is removed; 25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing the two-component polymer cement mixture composed of 0.4 wt% and powder of 2 to 4.4 wt% of water using a stirrer such as a mixer; The two-component polymer cement mixture is coated on the base surface of the finished concrete structure twice, but when the micro-cracks are partially formed on the surface of the concrete structure, the width of the cracks on the cracked portion 15-25 cm, the length is applied to the polymer cement mixture by the length of the crack to impregnate the reinforcing fabric only in the cracked area, and then completed the second step of applying the polymer cement mixture on the impregnated reinforcing fabric; It features.

Reinforcement method of the concrete structure of the present invention is to remove the concrete is weakened due to the deterioration, and after cleaning the ground by sand blasting, shot blasting, high-pressure cleaning of contaminants, grease, dust, latencies, weathered places A background clean-up step in which the surface is flattened with a coating and patching mortar of the anti-rust agent twice in a state in which rust generated in the rebar is removed;

25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing the two-component polymer cement mixture composed of 0.4 wt% and powder of 2 to 4.4 wt% of water using a stirrer such as a mixer; Coating the two-component polymer cement mixture of the blended two times on the base surface of the concrete structure is completed, but if the crack occurs on the surface of the concrete structure is completed, the polymer on the entire surface of the concrete structure After the cement mixture is applied to impregnate the reinforcing fabric on the entire surface of the concrete structure, the polymer cement mixture is applied on the impregnated reinforcing fabrics.

Reinforcing fabric in the reinforcement method of the concrete structure of the present invention is characterized in that the weight 88g / m ² , mesh 4.8mm × 4.1mm, tensile elongation 30%.

Reinforcement method of the concrete structure of the present invention is to remove the concrete is weakened due to the deterioration, and after cleaning the ground by sand blasting, shot blasting, high-pressure cleaning of contaminants, grease, dust, latencies, weathered places A background trimming step of performing a flat surface work with a coating and a patching mortar with the rust inhibitor twice in a state in which rust generated in the rebar is removed; 25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing the two-component polymer cement mixture composed of 0.4 wt% and powder of 2 to 4.4 wt% of water using a stirrer such as a mixer; When the two-component polymer cement mixture is mixed on the base surface of the finished concrete structure twice, but a moving crack occurs on the surface of the finished concrete structure, the moving crack 15 to 25cm in width, length is the length of the moving crack coating the polymer cement mixture to impregnate the reinforcing nonwoven fabric only in the cracked area, and then the second step of applying the polymer cement mixture on the impregnated reinforcing nonwoven fabric Characterized in that consisting of.

The nonwoven fabric for reinforcement of the reinforcement method of the concrete structure of the present invention uses a longitudinal breaking load of 69N / 15cm, a longitudinal breaking elongation of 140%, a transverse breaking load of 45N / 15cm, a transverse breaking elongation of 480%, and a thickness of 0.42mm. It is characterized by.

The present invention is excellent in long-term cracking resistance and freeze-soluble by excellent chemical resistance and flexibility using aluminate cement having a strong resistance to acidic environment, low porosity and low permeability and modified polymer having a low glass transition temperature, In particular, even when the construction is performed in a humid place, it does not occur peeling phenomenon due to water that is latent in the concrete structure, which is the ground surface, and water flowing into the soil behind the concrete structure, and thus maintains waterproof for a long time after construction. You can save money.

In addition, by reducing the amount of water used through a high performance water reducing agent can improve the waterproofing effect by lowering the porosity and permeability of the concrete structure.

In addition, by making the silica or silica fume into nanoparticles, the specific surface area is increased, so that the hydration reaction is actively performed, thereby reducing permeability and improving chemical resistance and strength.

In addition, the amount of moisture used is very small, the shrinkage rate after construction is very useful invention that can facilitate the user's convenience by easy mixing and construction.

Hereinafter, the configuration of the present invention in detail.

In the present specification, a one-component polymer cement mixture composed only of a powder and a two-component polymer cement mixture composed of a powder and a liquid will be described.

1. One-component polymer cement mixture

First of all, the present invention comprises 26 to 54% by weight of aluminate cement, 30 to 58.5% by weight of silica sand, 0.3 to 0.6% by weight of plasticizer, 7 to 12% by weight of powder modified polymer, 0.02 to 0.07% by weight of antifoaming agent, and 6 to 14.7 of water. It is composed of weight percent.

Since the aluminate cement is chemically similar to that of portland cement composed of calcium silica, many comparisons are made.

When the portland cement and the aluminate cement are compared, the porous water and the permeability are low due to the low moisture content of the aluminate cement, and thus the protection and waterproofing performance of the concrete structure is excellent.

Due to the high chemical resistance and low porosity and low water permeability, it gives a long-term chemical resistance and water resistance to concrete structures exposed to hydrogen sulfide.

Such aluminate cement is used by mixing with silica sand in a ratio of about 1: 1 or 1: 2.

Here, when the silica sand is used too much, the strength is lowered and the permeability is increased. On the contrary, when the use of the aluminate cement is large, the construction cost increases with the problem of shrinkage cracking and workability. Preference is given to mixing in proportions.

On the other hand, the present invention uses a powder-modified polymer in powder form to modify the aluminate cement.

The powder-modified polymer can be flexibly coped with changes in the concrete structure by forming a rubber-like flexibility by changing the state by the heat generated using a glass transition temperature of 7 ℃.

This flexibility prevents the phenomenon of water resistance deterioration and water permeability increase due to cracks generated in the concrete structure.

Here, the glass transition temperature generally refers to a state transition occurring in a polymer material. In the case of a low molecular weight in a general solid state, a state transition is performed from a solid to a liquid when heat is applied. The phenomenon of softening of the material such as rubber due to the phenomenon of falling off.

That is, in the present invention, by using the above-described powder-modified polymer having a relatively low glass transition temperature, it is possible to flexibly cope with changes such as cracks in the concrete structure as described above.

In particular, in the present invention, it is used as any one material selected from vinyl acetate and vinyl acetate.

This is obtained through many experiments with compatibility with aluminate cement, and when the compatibility is poor, the modification of the aluminate cement cannot be performed.

On the other hand, the plasticizer is an organic substance which is added to a thermoplastic plastic such as vinyl chloride and vinyl acetate to increase thermoplasticity, thereby facilitating molding at high temperatures. In addition to mixing and plasticity, plasticizers also improve heat resistance, cold resistance, flame resistance, and electrical properties. In the present invention, the sodium salt of melamine formaldehyde condensate is used.

The powder defoamer is used to reduce the amount of air generated when the one-component polymer cement mixture is blended, and the one-component polymer cement mixture is completed by mixing water together with the above components.

Here, in this invention, 0.03-0.08 weight% of nanoparticles can be mixed further.

The nano fine particles are an important filler of the fine porosity of the aluminate cement, and because they form a large surface area, it forms a very dense tissue due to hydration to reduce water permeability, help chemical resistance and convenient workability, thixotropy and ceiling In order to prevent sagging during construction on the wall, such nanoparticles are preferably used as colloidal silica or silica fume.

In particular, when mixing below the threshold in the component composition of the nano-particles can not play any role, when used above the threshold, thixotropy is lowered, and a large amount of water is required, the strength is low As the water permeability is improved, a phenomenon of decreasing chemical resistance occurs.

In addition, in the present invention, 1.5 to 3.0% by weight of microfiber made of wollastonite and 0.2 to 0.6% by weight of microfiber made of cellulose can be further included.

The microfibers may be included in the present invention to improve toughness and tensile strength, and such microfibers may be used when a crack of a concrete structure occurs by using a modified polymer or a powder modified polymer having a high glass transition temperature. You will improve your ability to do so.

As described above, the microfiber has a high modulus of elasticity in order to improve the recovery ability of the concrete structure, and the like, and the microfiber has a shape ratio (length / diameter) of about 50 to 100 and excellent adhesion to alumina cement. Use it as wollastonite or cellulose.

Further, in order to reduce the amount of water constituting the one-component polymer cement mixture, 0.1 to 0.4% by weight of a high performance water reducing agent may be further mixed.

In general, the content of cement and water is very important. The lower the water content, the lower the permeability and the improved chemical resistance. The use of the above-mentioned high performance water reducing agent reduces the amount of water used by 10 to 20%, thereby improving the chemical resistance. And low water permeability.

Looking at the repair method of the concrete structure using a polymer cement repair material having a one-component flexibility of the present invention made as described above are as follows.

Remove deteriorated concrete due to deterioration and clean the ground by sand blasting, shot blasting, and high-pressure cleaning of contaminants, grease, dust, latencies, and weathered areas. Flatten the base surface with two coating and patching mortars.

Then, 26 to 54% by weight of aluminate cement, 30 to 58.5% by weight of silica sand, plasticizer 0.3 to 0.6% by weight of sodium salt of melamine formaldehyde condensate, vinyl acetate and glass acetate having a glass transition temperature of 7 ° C. 7-12 wt% of the powder modified polymer selected from any one, 0.02-0.07 wt% of the powder defoamer, 6-14.7 wt% of the water, 0.03-0.08 wt% of the nano fine particles consisting of precipitated silica or silica fume, microfiber 1.5- The one-component polymer cement mixture consisting of 3.0% by weight, 0.2-0.6% by weight of microfibers made of cellulose, and 0.1-0.4% by weight of a high-performance water reducing agent is mixed by mixing using a stirrer such as a mixer, and then the one-component polymer that has been blended is completed. When the cement mixture is coated on the ground surface of the concrete structure that has been ground-cleaned twice Construction can be completed through the completion phase.

That is, in the case of the one-component polymer cement mixture, it may be usefully used when the crack of the concrete structure is generated in addition to improving chemical resistance and water resistance.

2. Two-component polymer cement mixture

First, the two-component polymer cement mixture in the present invention is divided into a powder and a liquid agent, unlike the one-component polymer cement mixture.

That is, a liquid agent composed of 25 to 50% by weight of aluminate cement, 28 to 60% by weight of silica sand, 0.3 to 0.6% by weight of plasticizer, 10 to 22% by weight of liquid modified polymer, and 0.2 to 0.4% by weight of liquid defoaming agent. Consists of.

Since the aluminate cement is chemically similar to that of portland cement composed of calcium silica, many comparisons are made.

Compared with the portland cement and the aluminate cement, it is more excellent in waterproof performance due to low porosity and water permeability due to the low moisture content of the aluminate cement.

Due to the high chemical resistance and low porosity and low water permeability, it gives a long-term chemical resistance and water resistance to concrete structures exposed to hydrogen sulfide.

Such aluminate cement is used by mixing with silica sand in a ratio of about 1: 1 or 1: 2.

Here, when the silica sand is used too much, the strength is lowered and the permeability is increased. On the contrary, when the use of the aluminate cement is large, the construction cost increases with the problem of shrinkage cracking and workability. Preference is given to mixing in proportions.

On the other hand, the present invention uses a powder-modified polymer in a liquid form to modify the aluminate cement.

The liquid-modified polymer can be flexibly responded to changes in the concrete structure by forming a high flexibility, such as rubber by changing the state by the heat generated by using a glass transition temperature of -22 ℃ which is a very low temperature.

This flexibility prevents the waterproofing performance and the permeability increase due to the cracks generated in the concrete structure, such a liquid modified polymer uses a styrene latex latex.

In particular, the liquid-modified polymer having a low glass transition temperature as described above imposes more flexibility, which provides a bridging bridging role, especially when cracking of concrete structures occurs.

On the other hand, the plasticizer is an organic substance which is added to a thermoplastic plastic such as vinyl chloride and vinyl acetate to increase thermoplasticity, thereby facilitating molding at high temperatures. In addition to mixing and plasticity, plasticizers also improve heat resistance, cold resistance, flame resistance, and electrical properties. In the present invention, the sodium salt of melamine formaldehyde condensate is used.

In addition, the liquid defoamer is used to reduce the amount of air generated when the two-component polymer cement mixture is mixed, and the two-component polymer cement mixture is completed by mixing water together with the above components.

Here, in this invention, 0.03-0.08 weight% of nanoparticles can be mixed further.

The nano fine particles are an important filler of the fine porosity of the aluminate cement, and because they form a large surface area, it forms a very dense tissue due to hydration to reduce water permeability, help chemical resistance and convenient workability, thixotropy and ceiling In order to prevent sagging during construction on the wall, such nanoparticles are preferably used as colloidal silica or silica fume.

In particular, when mixing below the threshold in the component composition of the nano-particles can not play any role, when used above the threshold, thixotropy is lowered, and a large amount of water is required, the strength is low The higher the permeability, the lower the chemical resistance will occur.

In addition, in the present invention, the microfiber made from wollastonite may be configured to further contain 1.5 to 3.0% by weight, and the microfiber made from cellulose and 0.2 to 0.6% by weight.

The microfibers may be included in the present invention to improve toughness and tensile strength, and such microfibers may be used in modified polymers or powder modified polymers having a high glass transition temperature to prevent cracking of the two-component polymer cement mixture. Act to give.

As described above, the microfiber has a high modulus of elasticity to improve the crack preventing ability of the concrete structure. The microfiber has a shape ratio (length / diameter) of about 50 to 100 and is excellent in adhesion to alumina cement. Use it as wollastonite or cellulose.

In addition, the two-component polymer cement mixture may further comprise 2 to 4.4% by weight of water for smooth blending.

Looking at the repair method of the concrete structure using a polymer cement repair material having a two-component flexibility of the present invention made as described above are as follows.

Remove deteriorated concrete due to deterioration and clean the ground by sand blasting, shot blasting, and high-pressure cleaning of contaminants, grease, dust, latencies, and weathered areas. Flatten base surface with two coats and patching mortar.

Then, 25 to 50% by weight of aluminate cement, 50 to 25% by weight of silica sand, 0.3 to 0.6% by weight of a plasticizer made of the sodium salt of melamine formaldehyde curd, and 0.03 to 0.08% by weight of nano fine particles consisting of precipitated silica or silica fume , 10 to 22% by weight of a liquid modified polymer having a glass transition temperature of -22 ° C. with powder and styrene acrylate acryl latex consisting of 1.5 to 3.0% by weight of microfiber made of wollastonite and 0.2 to 0.6% by weight of microfiber made of cellulose. A two-component polymer cement mixture composed of 0.2 to 0.4% by weight of an antifoaming agent and 2 to 4.4% by weight of water is mixed and blended using a stirrer such as a mixer.

The two-component polymer cement mixture of the mixing is completed to complete the construction of the coating on the base surface of the concrete structure is completed on the ground twice.

Here, the construction of the two-component polymer cement mixture may be used by a plastering hand, a manual work through a brush, a spray operation using a hopper gun, or an air spray nozzle capable of spraying a volumetric pump and a plaster.

Hereinafter, looking at the reinforcement method of the concrete structure using a polymer cement repair material having a two-component flexibility of the present invention.

Here, the background cleansing step and the compounding step will be omitted because it has already been described in the repair method.

In the present invention, the reinforcement method is made differently depending on the size of the crack and the extent of the crack, the type of crack that occurs in the concrete structure.

First, if a crack of 2 mm or more occurs on the surface of the concrete structure, the polymer cement mixture is filled into the crack, and the polymer cement mixture is applied to the cracked area by 15-25 cm in width and the length of the crack is applied only to the cracked part. After impregnation of the reinforcing fabric, the repair process can be completed by secondary application of the polymer cement mixture onto the impregnated reinforcing fabric.

In addition, when the micro-cracks partially occurred on the surface of the concrete structure in which the ground clearance is completed in the construction completion step, the polymer cement mixture is applied to the cracked portion by 15-25 cm in width and the length is reinforced to the cracked portion. After impregnation for the fabric, the polymer cement mixture may be secondarily applied onto the impregnated reinforcing fabric to complete the reinforcement process.

When the ground clearance is completely generated on the surface of the concrete structure in the construction completion step, the polymer cement mixture is applied to the entire surface of the concrete structure to impregnate the reinforcing fabric on the entire surface of the concrete structure, and then on the impregnated reinforcement fabric. The polymer cement mixture may be applied secondarily to complete the reinforcement process.

Here, the reinforcing fabric used in the crack generation of the concrete structure can be used that the weight 88g / m ² , mesh 4.8mm × 4.1mm, tensile elongation 30%.

In addition, when a moving crack occurs on the surface of the concrete structure in which the ground clearance is completed in the construction completion step, a polymer cement mixture is applied to a width of 15 to 25 cm and a length corresponding to the length of the moving crack. After impregnating the reinforcing nonwoven fabric only in the cracked site, the polymer cement mixture may be secondarily applied onto the impregnated reinforcing nonwoven fabric to complete the reinforcing method.

At this time, the reinforcing nonwoven fabric may be a longitudinal breaking load 69N / 15cm, longitudinal breaking elongation 140%, transverse breaking load 45N / 15cm, transverse breaking elongation 480%, thickness 0.42mm.

Although the above-described embodiments have been described with respect to the most preferred embodiment of the present invention, the present invention is not limited thereto and specifies that the present invention may be modified in various forms without departing from the technical spirit of the present invention.

Claims (23)

1, consisting of 26 to 54 wt% of aluminate cement, 30 to 58.5 wt% of silica sand, 0.3 to 0.6 wt% of plasticizer, 7 to 12 wt% of powder modified polymer, 0.02 to 0.07 wt% of powder defoamer, and 6 to 14.7 wt% of water Flexible polymer cement repair material characterized by consisting of a liquid polymer cement mixture.
The flexible polymer cement repair material according to claim 1, wherein the plasticizer of the one-component polymer cement mixture is a sodium salt of melamine formaldehyde condensate.
The flexible polymer cement repair material according to claim 1, wherein the powder-modified polymer of the one-component polymer cement mixture is any one selected from vinyl acetate and vinyl acetate having a glass transition temperature of 7 ° C.
The flexible polymer cement repair material according to claim 1, wherein the one-component polymer cement mixture further comprises 0.03 to 0.08% by weight of nano fine particles composed of precipitated silica or silica fume.
The flexible polymer cement repair material according to claim 1, wherein the one-component polymer cement mixture further comprises 1.5 to 3.0 wt% of microfiber made of wollastonite.
The flexible polymer cement repair material according to claim 1, wherein the one-component polymer cement mixture further comprises 0.2 to 0.6 wt% of microfiber made of cellulose.
The flexible polymer cement repair material according to claim 1, wherein the one-component polymer cement mixture further comprises 0.1 to 0.4 wt% of a high performance water reducing agent.
Remove deteriorated concrete due to deterioration and clean the ground by sand blasting, shot blasting, and high-pressure cleaning of contaminants, grease, dust, latencies, and weathered areas. A background cleaning step of flattening the surface with two coating and patching mortars;
Any one selected from 26 to 54% by weight of aluminate cement, 30 to 58.5% by weight of silica sand, plasticizer 0.3 to 0.6% by weight of sodium salt of melamine formaldehyde condensate, vinyl acetate having a glass transition temperature of 7 ° C, and vinyl acetate. Powder modified polymer 7-12 wt%, 0.02-0.07 wt% powder defoamer, 6-14.7 wt% water, 0.03-0.08 wt% nano fine particles composed of precipitated silica or silica fume, microfiber 1.5-3.0 wt% A blending step of mixing a one-component polymer cement mixture composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 0.1 to 0.4% by weight of a high performance water reducing agent using a stirrer such as a mixer;
The method of repairing a concrete structure, characterized in that the one-component polymer cement mixture of the mixing is completed, the construction is completed by coating the base surface of the concrete structure is completed two times.
2, consisting of a powder consisting of 25 to 50% by weight of aluminate cement, 28 to 60% by weight of silica sand, 0.3 to 0.6% by weight of plasticizer, 10 to 22% by weight of liquid modified polymer, and 0.2 to 0.4% by weight of liquid defoamer. Flexible polymer cement repair material characterized by consisting of a liquid polymer cement mixture.
The flexible polymer cement repair material according to claim 9, wherein the plasticizer contained in the powder of the two-component polymer cement mixture is the sodium salt of melamine formaldehyde condensate. 10. The flexible polymer cement repair material as claimed in claim 9, wherein the liquid-modified polymer included in the liquid agent of the two-component polymer cement mixture is styrene acrylate acryl latex and has a glass transition temperature of -22 ° C.
10. The flexible polymer cement repair material according to claim 9, wherein the powder of the two-component polymer cement mixture further comprises 0.03 to 0.08 wt% of nano fine particles composed of precipitated silica or silica fume.
The flexible polymer cement repair material according to claim 9, wherein the powder of the two-component polymer cement mixture further comprises 1.5 to 3.0% by weight of microfiber made of wollastonite.
The flexible polymer cement repair material according to claim 9, wherein the powder of the two-component polymer cement mixture further comprises 0.2 to 0.6 wt% of microfibers made of cellulose.
The flexible polymer cement repair material according to claim 9, wherein the powder of the two-component polymer cement mixture further comprises 2 to 4.4 wt% of water.
Remove deteriorated concrete due to deterioration and clean the ground by sand blasting, shot blasting, and high-pressure cleaning of contaminants, grease, dust, latencies, and weathered areas. A background cleaning step of flattening the surface with two coating and patching mortars;
25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing a two-part polymer cement mixture composed of 0.4 wt% and a powder of 2 to 4.4 wt% of water using a stirrer such as a mixer;
Repair method for a concrete structure characterized in that consisting of a two-component polymer cement mixture of the combination is completed on the base surface of the concrete structure is completed in two times the construction.
17. The method of claim 16, wherein the construction of the polymer cement mixture is a concrete structure, characterized in that the plastering, hand work with a brush, spraying with a hopper gun or using a volumetric pump and air spray nozzles capable of plastering spray Repair method.
Remove deteriorated concrete due to deterioration and clean the ground by sand blasting, shot blasting, and high-pressure cleaning of contaminants, grease, dust, latencies, and weathered areas. A background cleaning step of flattening the surface with two coating and patching mortars;
25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing a two-part polymer cement mixture composed of 0.4 wt% and a powder of 2 to 4.4 wt% of water using a stirrer such as a mixer;
Coating the two-component polymer cement mixture is completed two times on the base surface of the finished concrete structure, if the crack of more than 2mm on the surface of the concrete structure, filling the polymer cement mixture into the crack, 15 ~ 25cm width on the cracked area, length is the length of the cracked polymer cement mixture is applied to impregnate the reinforcing fabric only in the cracked area, and then the construction completion step of applying the polymer cement mixture on the impregnated reinforcing fabric secondary Reinforcement method of concrete structure characterized by consisting of;
Remove deteriorated concrete due to deterioration and clean the ground by sand blasting, shot blasting, and high-pressure cleaning of contaminants, grease, dust, latencies, and weathered areas. A background cleaning step of flattening the surface with two coating and patching mortars;
25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing a two-part polymer cement mixture composed of 0.4 wt% and a powder of 2 to 4.4 wt% of water using a stirrer such as a mixer;
The two-component polymer cement mixture is coated on the base surface of the finished concrete structure twice, but when the micro-cracks are partially formed on the surface of the concrete structure, the width of the cracks on the cracked portion 15 to 25cm, the length is applied to the polymer cement mixture by the length of the crack to impregnate the reinforcing fabric only in the cracked area, and then completed the second step of applying the polymer cement mixture on the impregnated reinforcing fabric; Reinforcement method of concrete structure with characteristic features.
Remove deteriorated concrete due to deterioration and clean the ground by sand blasting, shot blasting, and high-pressure cleaning of contaminants, grease, dust, latencies, and weathered areas. A background cleaning step of flattening the surface with two coating and patching mortars;
25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing a two-part polymer cement mixture composed of 0.4 wt% and a powder of 2 to 4.4 wt% of water using a stirrer such as a mixer;
Coating the two-component polymer cement mixture of the blended two times on the base surface of the concrete structure is completed, but if the crack occurs on the surface of the concrete structure is completed, the polymer on the entire surface of the concrete structure After applying the cement mixture to impregnate the reinforcing fabric on the entire surface of the concrete structure, the completion of the second step of applying the polymer cement mixture on the impregnated reinforcing fabric; reinforcement method of the concrete structure characterized in that consisting of.
21. The method of any one of claims 18 to 20, wherein the reinforcing fabric has a weight of 88 g / m ² , a mesh of 4.8 mm x 4.1 mm, and a tensile elongation of 30%.
Remove deteriorated concrete due to deterioration and clean the ground by sand blasting, shot blasting, and high-pressure cleaning of contaminants, grease, dust, latencies, and weathered areas. A background cleaning step of flattening the surface with two coating and patching mortars;
25-50% by weight of aluminate cement, 28-60% by weight of silica sand, 0.3-0.6% by weight of plasticizer consisting of sodium salt of melamine formaldehyde accumulator, 0.03-0.08% by weight of nano fine particles consisting of precipitated silica or silica fume, wollastonite 1.5 to 3.0% by weight of microfibers composed of 0.2 to 0.6% by weight of microfibers made of cellulose and 10 to 22% by weight of liquid modified polymers having a glass transition temperature of -22 ° C. A blending step of mixing a two-part polymer cement mixture composed of 0.4 wt% and a powder of 2 to 4.4 wt% of water using a stirrer such as a mixer;
When the two-component polymer cement mixture is mixed on the base surface of the finished concrete structure twice, but a moving crack occurs on the surface of the finished concrete structure, the moving crack 15 to 25cm in width, length is the length of the moving crack coating the polymer cement mixture to impregnate the reinforcing nonwoven fabric only in the cracked area, and then the second step of applying the polymer cement mixture on the impregnated reinforcing nonwoven fabric Reinforcement method of concrete structure characterized by consisting of;
23. The method of claim 22, wherein the nonwoven fabric for reinforcement has a longitudinal breaking load of 69 N / 15 cm, a longitudinal breaking elongation of 140%, a transverse breaking load of 45 N / 15 cm, a transverse breaking elongation of 480%, and a thickness of 0.42 mm. Method of reinforcing concrete structures.