KR102114449B1 - Method for repairing and waterproofing of concrete and mortar's - Google Patents

Abstract

The present invention relates to a waterproofing reinforcement method of concrete or mortar, and more specifically, to an improved waterproofing reinforcement method of concrete or mortar which is configured to apply a water-soluble epoxy-based reinforcing agent to existing aged concrete or mortar surfaces to reinforce the aged surfaces, and then, in an upper portion, use a composition formed by adjusting the amount of water and a special acrylic-based mortar reinforcing agent added to the mortar according to the condition that the existing concrete or mortar is aged to resolve problems of existing concrete or mortar reinforcement and repair methods through repairs such as subsequent waterproofing structure reinforcement and damage and section recovery, and to realize long-term durability and economic feasibility of maintenance of buildings made of concrete or mortar.

Description

METHOD FOR REPAIRING AND WATERPROOFING OF CONCRETE AND MORTAR'S}

The present invention relates to a waterproof reinforcement method of concrete or mortar, and more specifically, to strengthen the aged surface by applying a water-soluble epoxy-based reinforcement agent to the existing aged concrete or mortar surface, and then to the degree of old concrete or mortar aging. Therefore, by using the composition formed by adjusting the amount of water and special acrylic-based mortar reinforcing agent added to the mortar, the existing concrete or mortar reinforcement and repairing methods are solved and the concrete or mortar reinforced by repairing the subsequent waterproof structure and repairing the damaged section. It is related to a waterproof reinforcement method of concrete or mortar that has been improved to realize economical efficiency and long-term durability of a mortar-structured building.

Reinforced concrete is the most widely used material for structural materials in buildings.

Reinforced concrete is a one-piece structure that combines two materials called 'concrete' and a tensile material called 'reinforcement', and is widely used as the most economical, durable, and stable building material among structural materials constituting a building.

In general, since these reinforced concrete structures are exposed to the external environment, they naturally begin to age over time after the construction is completed.

Buildings are under considerable stress due to environmental conditions such as sun, heat (infrared rays), rain, snow, moisture, harmful atmospheric environment (CO ₂ ), pollution, and mold, and aging is inevitable.

Accordingly, various maintenance activities are required for the purpose of long-term use of buildings by preventing or delaying aging.

Most of these are related to the concrete or mortar that constitutes the structure or exterior of the building, and the key to protecting such concrete or mortar and repairing damaged parts are 'water (H ₂ O)' and 'hazardous atmosphere. (CO ₂ ) '.

Previously, when reinforcing or repairing concrete or mortar, only simple cross-section recovery has been performed without strengthening the existing aged surface.

However, the repair part was often peeled off or dropped off soon afterwards. Particularly, the area such as the rooftop is more serious.

However, the first problem is that the existing old concrete or mortar reinforcement and repair methods have not been considered for strengthening treatment of the damaged existing matrix.

And, there is a second problem in that it is applied for the purpose of simple appearance recovery as a composition in which water is mixed with an existing mortar without consideration of materials used for reinforcement and repair for section recovery.

In addition, when reinforcing, reinforcing and repairing the old aged concrete or mortar, when using a mortar-type repair material, the applied thickness for repair is important. In the method using the existing repair material, a wire mesh having a thickness of at least 70-80 mm or more is used. In the case of reinforcing with, effective reinforcing and repair effects could be expected.

Therefore, when the applied thickness is less than that, the next problem is that the surface cracks or peels off.

Usually, when the surface of concrete or mortar is damaged, the matrix of the broken section is mostly damaged. If there is no proper reinforcement or reinforcement of these areas, over time, the area begins to expand to the entire surface.

Therefore, it prevents the damage caused by the reinforcement and repair work of existing existing concrete or mortar, regains the original function of the building, realizes durability, and maintains and manages for waterproofing purposes in a long-term perspective. Maintenance method is necessary.

Currently, as a method of strengthening the surface of aged concrete or mortar, a method using a chemical resin is mainly applied, and an epoxy resin having excellent physical properties and permeability is mainly used.

In other words, the materials developed to strengthen the concrete or mortar surface to date have no problems in use, and are considered to be solvent penetration strengthening agents.

The water-soluble acrylic type penetration enhancer expresses strong compressive strength and adhesion strength when it is in a mortar state by mixing cement and silica (sand), but when used alone as an intensifier of penetration type, the wet state or water is in a state of dehydration. As it freezes in Mortar, it loses its own cohesion and is damaged. Therefore, it can be extremely dangerous to use acrylic resin alone as a surface strengthening agent.

In the method of using a chemical resin such as an existing epoxy resin to strengthen the aged concrete or mortar surface, the harmful effects on the human body or the natural environment are getting serious due to organic solvents that are essential in the manufacturing and use process. Alternatives to the problem are urgently needed.

In addition, in the method using a chemical resin, the damage caused by the direct exposure of an organic solvent becomes a problem, and as a method to solve this, methods using water-soluble products are used, but these methods are also used to control the hydrophilic group in the water-soluble composition. Because the organic solvent acts as a factor that inhibits the crosslinking property of the curing component, it is used only as a coating for thin films.

Domestic registered patent No. 10-1025806 (2011.03.23.), Roof protection mortar surface strengthening waterproof structure and its waterproofing method Domestic registration patent No. 10-1845451 (2018.03.29.), Repair method for the back leakage of concrete structures

The present invention was created to solve the problems in the prior art as described above, by applying a water-soluble epoxy-based reinforcing agent on the surface of the existing aged concrete or mortar to strengthen the aged surface and then the existing concrete or mortar on the top Depending on the degree of aging, the composition of the mortar is adjusted by adding water and a special acrylic-based mortar reinforcing agent. The main objective is to provide an improved method of waterproofing reinforced concrete or mortar to solve and to realize economical efficiency and long durability of maintenance of buildings made of concrete or mortar.

The present invention as a means for achieving the above object, the neutralized surface neutralized surface layer 40 and the neutralized damaged surface neutralized damaged surface layer 50 to find, and remove the neutral cargo remaining on the site, A neutralized site pre-treatment step of removing foreign substances; A surface strengthening step of strengthening the neutralized surface when the pretreatment step is completed; In the waterproof reinforcement method of the concrete or mortar, including; recovering the surface-strengthened damaged portion to a strength-controlled composition;
The surface strengthening agent used in the surface strengthening step comprises 85-86% by weight of a water-soluble epoxy resin and 14-15% by weight of a curing agent, wherein the water-soluble epoxy resin is 50 to 60% by weight of an epoxy resin emulsion, and 1.5 of methyl isobutyl ketone. ~ 2.5% by weight, 1-5% by weight of aqueous silicate solution and the balance water; The curing agent is composed of 45 to 55% by weight of an epoxy curing agent, 0.5 to 1.5% by weight of diethanolamine (Diethanolamine), 1.5-2.5% by weight of ethyl acetate and the balance water;
The repair material for repairing the section used in the section recovery step is a mixture of 10 to 14% by weight of the first mixture and 86 to 90% by weight of the second mixture, wherein the first mixture is an acrylic polymer (Acrylic Copolymer) 48 It consists of ~ 52% by weight, 2-4% by weight of additives and the balance water, and the additives include 3.5% by weight of terpenoids, 35% by weight of cellulose acetate, 20% by weight of disteadimonium hectorite, and 5% by weight of zinc sulfate. Wow, consisting of 10% by weight of ceresin and the rest of the water; The second mixture is composed of 35 to 40% by weight of silica sand having a particle size of 0.4 to 0.8mm, 12 to 13% by weight of cement, and the balance water;
In the surface strengthening step, the epoxy resin emulsion constituting the water-soluble epoxy resin is an oil-in-water emulsion (Eil In Water Emulsion) uniformly dispersed into fine particles in an aqueous solution by using an emulsifier and a stabilizer in order to make the epoxy resin aqueous. Form must be used; The aqueous silicic acid solution should be composed of 35% by weight of water-soluble silicic acid, 10% by weight of lithium, 10% by weight of silicate, 25% by weight of vinegar, and the rest of the water in order to lower the tension of the surface of neutralized concrete or mortar and improve the penetration force. ;
In order to enhance the heat resistance, oxidation resistance and flame retardancy of concrete or mortar in the surface strengthening step, 20 parts by weight of decabromo diphenyl oxide and 15 parts by weight of polysiloxani are added to 100 parts by weight of the surface strengthening agent. To provide a waterproof reinforcement method for concrete or mortar.

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The present invention provides the following effects.

First, when strengthening the concrete surface using the aqueous epoxy resin composition according to the present invention, it is possible to perform a reinforcement treatment on the surface of concrete or mortar in a simple process, greatly improving workability and improving adhesion to the upper repair mortar. It is possible to restore or maintain mechanical properties, such as the strength of the existing aged mothers, to be equal to or higher than the conventional level.

Second, the adverse effect on the environment is minimized by not using an organic compound that has been previously used in the strengthening step. As a water-soluble epoxy, the ammonia gas emitted by the curing reaction is minimized because water stabilizes the exothermic reaction during the curing reaction. It also has an advantage that can be environmentally friendly.

In addition, since it can meet the needs of industrial pollution-free and work clean-up, it is possible to maximize environmentally friendly characteristics such as easy handling, safety in the working environment, no risk of fire, and no contamination of the working environment.

Third, it is possible to secure a long-term lifespan of the building by blocking or delaying the risk of neutralization by forming a surface with excellent mechanical properties by strengthening the surface of the existing neutralized area beyond the function of simple section recovery in the strengthening step.

Fourth, even if the thickness of the cross section is not secured in the step of restoring the cross section, the cross section can be restored according to the external shape without being significantly affected by the reinforcement or repair thickness.

Fifth, in the step of restoring the cross section, it is possible to control the strength of the mortar for repair by adjusting the addition ratio of the aqueous solution according to the external conditions, so it is eco-friendly and can reduce the production cost. It can be prolonged.

 Sixth, the mortar repaired in the step of restoring the cross section has waterproof performance, and thus has long-term durability in response to neutralization according to external environmental conditions.

Seventh, the entire waterproof reinforcement structure can be secured with only such a structure when applied as a whole, including a cross-section repair site.

Eighth, it also provides the convenience of easy maintenance and repair.

1 is an exemplary cross-sectional view of a portion where a damaged portion exists in the existing roof waterproof structure.
2 is an exemplary cross-sectional view of a neutralization site of existing concrete or mortar.
Figure 3 is an exemplary cross-sectional view showing the strengthening treatment of the surface portion of the aging roof protection mortar of the present invention.
Figure 4 is an exemplary cross-sectional view showing a cross-section repair treatment on the surface of the roof protection mortar reinforced in the present invention.
Figure 5 is an exemplary cross-sectional view showing the strengthening treatment of the neutralization site of the existing concrete or mortar of the present invention.
6 is an exemplary cross-sectional view showing a cross-section repair treatment on the surface of the reinforced concrete or mortar in the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Prior to the description of the present invention, the following specific structures or functional descriptions are merely exemplified for the purpose of illustrating the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms, It should not be construed as being limited to the embodiments described herein.

The waterproof reinforcement structure of concrete or mortar according to the present invention can be largely divided into the roof layer and other parts.

For example, FIGS. 1, 3, and 4 show the case of the rooftop, and FIGS. 2, 5 and 6 show the case of the rooftop.

Particularly, in the case of the roof layer, as shown in FIG. 1, the neutralized surface layer 40, which is a neutralized surface layer in the existing structure consisting of the roof slab layer 10, the non-exposed waterproof layer 20, and the protective mortar layer 30, is a neutralized and damaged surface layer. The present invention is very effective when the neutralized damaged surface layer 50 is present.

That is, as shown in FIGS. 3 and 4, after forming the neutralized surface strengthening layer 60 so that the neutralized surface layer 40 can be repaired and reinforced, or after forming the neutralized surface strengthening layer 60 in the neutralized damaged surface layer 50, the The repair reinforcement layer 70 may be reinforced in a form to further form.

On the other hand, in the case of other than the rooftop layer, as shown in FIG. 2, the surface of the slab layer 10 or the protective mortar layer 30 is neutralized to form a neutralized surface layer 40. If the neutralized surface-reinforced layer 60 is formed or if it is neutralized and damaged, the neutralized surface-reinforced layer 60 may be formed on the damaged portion and then reinforced in a form of further forming a repair and reinforcement layer 70 thereon.

At this time, the neutralized surface reinforcement layer 60 and the repair reinforcement layer 70 are made of environmentally friendly special ingredients that do not use organic compounds, unlike the conventional one, which will be described together with the waterproof reinforcement method.

The waterproof reinforcement method according to the present invention to achieve such a waterproof reinforcement structure is as follows.

First, pre-treatment steps of the neutralized surface layer 40 and the neutralized damaged surface layer 50 are performed.

The neutralization site pretreatment step refers to a process for finding a neutralization site, removing neutralized cargo, and removing foreign substances (irregularities and latencies, etc.) remaining in the neutralization site as a first step for carrying out the present invention. , It is one of the very important steps that determines the durability of the section recovery step.

When the pre-treatment step of the neutralization site of the concrete or mortar is completed, a surface strengthening step of strengthening the neutralized surface is performed.

That is, the neutralized surface strengthening layer 60 is a layer for strengthening the neutralized surface layer 40 and the neutralized damaged surface layer 50, such as reinforcing the strength of the neutralized and fixing the dust or foreign matter remaining on the surface. This is a step to secure adhesion with subsequent processes.

More specifically, in order to form the neutralizing surface strengthening layer 60, a surface strengthening agent is applied in a scraping form using rubber hera to the neutralizing surface layer 40 and the neutralizing damaged surface layer 50.

At this time, depending on the degree of neutralization of concrete or mortar, the neutralization depth may be different.

Therefore, if a part is absorbed on the concrete surface, it is additionally applied to the site to sufficiently penetrate the surface strengthening agent to the neutralization depth.

In this case, it is preferable to use a water-soluble epoxy-based resin for the neutralized surface-reinforced layer 60. The water-soluble epoxy-based resin is excellent in permeability of concrete or mortar and penetrates up to 10 to 30 mm, contributing greatly to strengthening the matrix.

In this regard, the surface strengthening agent for applying to the neutralizing surface strengthening layer 60 according to the present invention comprises 85-86% by weight of a water-soluble epoxy resin and 14-15% by weight of a curing agent.

At this time, the water-soluble epoxy resin is composed of 50 to 60% by weight of an epoxy resin emulsion, 1.5 to 2.5% by weight of methyl isobutyl ketone, 1 to 5% by weight of an aqueous silicate solution, and the balance water.

Here, the epoxy resin emulsion is in the form of an oil-in-water emulsion (Eil In Water Emulsion) that is uniformly dispersed into fine particles in an aqueous solution by using an emulsifier and various stabilizers in order to make the epoxy resin aqueous. It is a raw material.

In the present invention, it is used because it is an environmentally friendly raw material that does not contain organic solvents and harmful heavy metals while maintaining the advantages of the existing mechanical strength and adhesion of the existing epoxy resin.

To this end, the epoxy resin emulsion should be added at 50 to 60% by weight, but when added to less than 50% by weight, the reactivity decreases, and when it exceeds 60% by weight, the viscosity increases and the mother permeability decreases. Do.

In addition, the methyl isobutyl ketone is an aliphatic compound and is a stable material at normal temperature and pressure, and is added to induce chemical reaction of components to be formed and crosslinking with a polymer substrate to improve adhesion and adhesion.

To this end, methyl isobutyl ketone should be added in the range of 1.5 to 2.5% by weight. When added to less than 1.5% by weight, adhesiveness and adhesiveness are deteriorated. It should be limited to scope.

In addition, the aqueous silicic acid solution is used to improve the penetration force by lowering the tension of the surface of neutralized concrete or mortar.

To this end, the aqueous silicate solution formed in the present invention comprises 35% by weight of water-soluble silicic acid, 10% by weight of lithium, 10% by weight of silicate, 25% by weight of vinegar and the rest of the water.

Among them, lithium is added to neutralize the alkali on the concrete or mortar surface to secure the penetration force; The water-soluble silicic acid reacts with vinegar and penetrates into the concrete pores secured by lithium about 10 to 20 mm, then reacts with free alkali or calcium hydroxide to form an insoluble CSH gel and through this, the pores are compacted and water-resistant to crack. It is suppressed so as to ensure strong adhesion. At this time, the silicate is coated to prevent oxidation.

In addition to this, in the present invention, 20 parts by weight of decabromo diphenyl oxide and 15 parts by weight of polysiloxani can be further added to 100 parts by weight of the surface strengthening agent.

In this case, the decabromo diphenyl oxide may be further added to enhance heat resistance, oxidation resistance, and flame retardancy, and the polysiloxani inhibits foaming and contributes to suppressing and blocking deterioration such as cracking or cracking. Can be added further.

Meanwhile, the curing agent is composed of 45 to 55% by weight of an epoxy curing agent, 0.5 to 1.5% by weight of diethanolamine, 1.5-2.5% by weight of ethyl acetate and the balance water.

At this time, the epoxy curing agent is a typical adhesive curing agent used for reinforcing section repair and waterproof repair, diethanolamine is added to stabilize reactivity, and ethyl acetate is added to adjust viscosity.

As described above, the surface strengthening agent according to the present invention converts the rust around the fine exposed rebar that is difficult to remove into an iron oxide film, restores the strength of the surface of neutralized concrete or mortar, and increases the adhesion with the upper repair and strengthening (cross-section repair) layer. Is ordered.

In addition, the reinforcing surface and the mortar layer for recovery can stably have an adhesive force, so that the process can proceed quickly and mechanical properties can be greatly increased.

In addition, the surface strengthening agent according to the present invention is used alone, unlike the acrylic-based composition, even if it is frozen in a wet state or in a frozen state, the mortar itself does not lose its binding strength.

The neutralized surface-reinforced layer 60 composed of these functions and the composition ratio of the components is reinforced with the protective mortar layer 30 as a parent.

Next, a cross-section recovery step of concrete or mortar is performed.

The step of recovering the cross section of the concrete or mortar refers to the step of restoring the damaged part of the concrete using a composition in which the strength is adjusted, and the reinforcement and repair section on the surface of the neutralized surface strengthening layer 60 is an acrylic resin binder. ) To form a water-reinforcement layer 70.

That is, the repair and reinforcement layer 70 is repaired and reinforced with a resin mortar on the upper surface of the neutralized surface reinforcement layer 60 to form a uniform layer as a whole.

At this time, when using a general cement mortar, commonly known as a cross-section recovery material, to form the repair and reinforcement layer 70, the applied thickness is thin and the adhesion is poor, resulting in loss of durability against changes in the outside air, thereby easily in a short time. It should be avoided as it is damaged / detached.

Therefore, in order to increase the strength and secure the adhesive strength and adhesion, the repair and reinforcement layer 70 must be able to be constructed even with a thin thickness to secure the adhesion and have strength to withstand changes in external air, and to have an existing surface. Materials compatible with the reinforcing agent are suitable.

To this end, the present invention uses a mixture of 10 to 14% by weight of the first mixture and 86 to 90% by weight of the second mixture as a suitable repair material for concrete or mortar cross-section repair, and the high-strength repair material thus formed is used for the concrete damage site. It is applied as a complement mortar.

At this time, the first mixture is composed of 48 to 52% by weight of acrylic polymer (Acrylic Copolymer), 2 to 4% by weight of additives and the balance water.

Here, the acrylic copolymer (Acrylic Copolymer) acts as a kind of binder (Binder) to weaken the plasticity of the emulsion and strengthen the viscosity, and at the same time promote the curing of the second mixture to quickly cure the repair and reinforcement layer 70 to rapidly strengthen the And components for completing repairs.

The additives consist of 3.5% by weight of terpenoid, 35% by weight of cellulose acetate, 20% by weight of disteadimonium hectorite, 5% by weight of zinc sulfate, 10% by weight of ceresin and the rest of the water.

In this case, terpenoids are added to enhance adhesion and increase antifouling properties, cellulose acetate is added to maintain flexibility and flexural strength and to enhance waterproof moisture resistance, disteadimonium hectorite forms a coating on the coating surface It is added to suppress the adhesion of organic substances through and increase the durability of the reinforcing section.

In addition, zinc sulfate is added for the function of fixing the adhesive component so that it does not migrate to the surface, and ceresin is added to enhance the crack resistance by maintaining the flexibility of the coating surface while increasing the emulsion stability and increasing the bonding force between the components.

On the other hand, the second mixture is composed of 35 to 40% by weight of silica sand having a particle size of 0.4 to 0.8mm, 12 to 13% by weight of cement, and the balance water.

At this time, the silica sand may be used one or more selected from the group consisting of artificial silica, natural silica and color silica, the particle size of the silica sand can be adjusted according to the required finishing state is not particularly limited.

That is, in this case, as the size of the silica sand is adjusted, the finishing smoothness of the repair and reinforcement layer 70 may be adjusted according to the situation. In the case of a typical rooftop layer, 0.4 ~ 0.8mm silica is usually used to increase the slip resistance on the background, and 40 ~ 60㎛ silica is used for exterior walls or ceilings to increase the smoothness of the finish.

In addition, it is preferable to use Portland cement as the cement.

As described above, the step of repairing the cross-section is achieved by applying the repair and reinforcement layer 70 made of the above-described composition to the upper surface of the neutralized surface strengthening layer 60.

The repair and reinforcement layer 70 uses an acrylic resin as a binder and uses inorganic repair materials, so that Ph is the same as that of existing concrete (12 ~ 13), and carbon dioxide (CO ₂ ) It is preferable as a repair material for recovery of neutralized damaged parts due to low occurrence.

In addition, by varying the mixing ratio of the aqueous solution of the composition, it is also possible to combine the mortar for repair and repair of the cross section of the strength most suitable for the place.

For example, when the proportion of residual water was as described above, the compressive strength of the repair mortar was obtained as a result of about 600 kgf / cm ² , as shown in Table 1 below based on atmospheric curing on the 28th.

Again, when 2 times of the first mixture was added to water, a result of 450 kgf / cm ² was obtained. When 3 times of the first mixture was added to water, about 350 kgf / cm ² and 4 times were added. When it was done, a result value of about 300 kgf / cm ² could be obtained.

First mixture : water Compressive strength (Combination ratio) One : One 600 kgf / cm ² One : 2 450 kgf / cm ² One : 3 350 kgf / cm ² One : 4 300 kgf / cm ²

Therefore, it was confirmed that the formation of a composition for reinforcing and repairing tailored to the site situation is possible by controlling the dilution amount of water according to the degree of aging of the site to be applied.

In addition, the construction can be completed in a shortened process, and the workability has been greatly improved due to the low viscosity, and mechanical properties such as strength can be maintained beyond the conventional method level, and the cost of maintaining and repairing the concrete surface And it was found that it is possible to significantly reduce the time can significantly improve productivity.

On the other hand, the first mixture used in the water-reinforcement layer 70 can also implement waterproof performance in the form of a liquid cement waterproof.

As the first mixture is used instead of the waterproofing liquid used for waterproofing the cement liquid, it is possible to paste the cement, spray the cement, and plaster the waterproof mortar. That is, the repair reinforcement layer 70 may be further finished by pasting or spraying or plastering.

At this time, for the cement paste, 18 to 20% by weight of the first mixture, 39 to 41% by weight of calcium oxide and the remaining water can be used as a composition mixed; For spraying cement, a composition obtained by mixing 11 to 13% by weight of the first mixture, 50% by weight of calcium oxide, and the rest of the water may be used; For waterproof mortar, a composition composed of 11 to 13% by weight of the first mixture, 25% by weight of calcium oxide, 50% by weight of silica sand, and the remaining water may be used.

In addition, a poor asphalt surface strengthening treatment is also possible, and a composition consisting of 81 to 82% by weight of the first mixture, 0.1-0.5% by weight of the pigment, and the rest of the water may be applied to the asphalt surface of the poor surface to strengthen the treatment.

As described above, the concrete or mortar waterproof reinforcement structure and its repair method according to the present invention prevents the concrete or mortar from being neutralized or the damaged part is enlarged, and has a breathable property, thereby allowing long life while suppressing peeling and peeling due to residual moisture. In addition, it can be applied for strengthening the surface of areas that require direct waterproofing or other areas, and is expanding its application areas to various fields.

10: slab layer 20: non-exposed waterproof layer
30: protective mortar layer 40: neutralized surface layer
50: neutralized damaged surface layer 60: neutralized surface strengthening layer
70: reinforcement layer

Claims (3)

delete A neutralized surface pretreatment step of finding a neutralized surface layer 40, which is a neutralized site, and a neutralized damaged surface layer 50, which is a neutralized and damaged site, removing neutral materials remaining at the site, and removing foreign substances; A surface strengthening step of strengthening the neutralized surface when the pretreatment step is completed; In the waterproof reinforcement method of the concrete or mortar, including; recovering the surface-strengthened damaged portion to a strength-controlled composition;
The surface strengthening agent used in the surface strengthening step comprises 85-86% by weight of a water-soluble epoxy resin and 14-15% by weight of a curing agent, wherein the water-soluble epoxy resin is 50 to 60% by weight of an epoxy resin emulsion, and 1.5 of methyl isobutyl ketone. ~ 2.5% by weight, 1-5% by weight of aqueous silicate solution and the balance water; The curing agent is composed of 45 to 55% by weight of an epoxy curing agent, 0.5 to 1.5% by weight of diethanolamine (Diethanolamine), 1.5-2.5% by weight of ethyl acetate and the balance water;
The repair material for repairing the section used in the section recovery step is a mixture of 10 to 14% by weight of the first mixture and 86 to 90% by weight of the second mixture, wherein the first mixture is an acrylic polymer (Acrylic Copolymer) 48 It consists of ~ 52% by weight, 2-4% by weight of additives and the balance water, and the additives include 3.5% by weight of terpenoids, 35% by weight of cellulose acetate, 20% by weight of disteadimonium hectorite, and 5% by weight of zinc sulfate. Wow, consisting of 10% by weight of ceresin and the rest of the water; The second mixture is composed of 35 to 40% by weight of silica sand having a particle size of 0.4 to 0.8mm, 12 to 13% by weight of cement, and the balance water;
In the surface strengthening step, the epoxy resin emulsion constituting the water-soluble epoxy resin is an oil-in-water emulsion (Eil In Water Emulsion) uniformly dispersed into fine particles in an aqueous solution by using an emulsifier and a stabilizer in order to make the epoxy resin aqueous. Form must be used; The aqueous silicic acid solution should be composed of 35% by weight of water-soluble silicic acid, 10% by weight of lithium, 10% by weight of silicate, 25% by weight of vinegar, and the rest of the water in order to lower the tension of the surface of neutralized concrete or mortar and improve the penetration force. ;
In order to enhance the heat resistance, oxidation resistance and flame retardancy of concrete or mortar in the surface strengthening step, 20 parts by weight of decabromo diphenyl oxide and 15 parts by weight of polysiloxani are added to 100 parts by weight of the surface strengthening agent. Concrete or mortar waterproof reinforcement method. delete

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