KR20070014255A - Permeable complex waterproof material - Google Patents

Abstract

Provided are a permeable composite-waterproofing material which cures by itself the crack or gap generated at the wall or bottom of concrete structure, its preparation method, a cement concrete composition containing the waterproofing material, and a cement concrete structure using the composition. The composite waterproofing-material comprises 100 parts by weight of cement; 20-100 parts by weight of an elvan powder; 20-80 parts by weight of a silica powder; and 10-80 parts by weight of bentonite. Preferably the elvan powder or the silica powder is used after sintered at a high temperature of 500-1,700 deg.C. Preferably the composite waterproofing material is a pellet coated with at least one water-soluble polymer selected from the group consisting of polyethylene oxide, poly(vinyl pyrrolidone), cellulose resin, poly(vinyl alcohol), poly(vinyl acetate), water-soluble epoxy resin, water-soluble silicone resin and water-soluble urethane resin.

Description

Permeable complex waterproof material

1 is a schematic view showing the waterproofing mechanism of the waterproofing agent according to the present invention.

Figure 2 is a photograph showing a process for producing a pellet-type waterproofing agent having a waterproofing performance according to the present invention.

Figure 3 is a photograph showing a process for producing a pellet-type waterproofing agent having a water repellent performance according to the present invention.

Figure 4 is a photograph comparing the presence of crystal growth and the surface state caused by the leakage occurs when and when the waterproofing agent of the present invention is not applied.

5 is a photograph showing a process of self-healing the gap due to cracks when water leakage occurs after the crack occurs on the surface of the cement concrete structure coated with the waterproofing agent of the present invention.

The present invention relates to a permeable composite waterproofing agent that fills and fills cracks or gaps generated on walls or floors of concrete spheres by self-healing.

In case of leaks in building structures made of various kinds of inorganic building materials, especially cement concrete structures, the properties of concrete such as compressive strength and durability are not only significantly reduced, but also shorten the life of building structures and damage of building finish materials. It may cause injury to the user. In addition, when leaks occurred in building structures, there was a limit in not being able to adequately cope with the leaks that could occur in spite of proper waterproofing applied by the existing developed technology.

There are three major technologies that can be applied to concrete structures developed for waterproofing. There are three main components: organic material to form waterproof polymer coating film, inorganic material whose main component is siliceous powder, and Organic and inorganic materials may be mixed and function.

In order to form a water-proof coating film on the wall surface or the bottom surface of a concrete structure, the construction which mixes and applys polymer materials, such as a polyurethane resin, with cement material is used a lot. However, since the polymer material takes a long time to cure the polymer to form a waterproof coating film, which is a main component, there is a problem of prolonging the air during construction. In order to solve such a problem, a method of manufacturing and attaching a waterproof laminated sheet using a two-component polyurethane resin has been developed and filed with a patent application No. 10-1999-0061510. However, the adhesion between the waterproof laminated sheet and the concrete interface may be weakened over time during construction by this method, resulting in swelling of the waterproof coating or peeling of the coating.

In addition, a permeable coating waterproofing agent in which silica sand, talc, bicarbonate and the like is mixed with the portant cement has been developed and applied for a patent application No. 1995-0042372. The reaction proceeds to be integral with the concrete concrete to form a watertight concrete film to have a waterproof performance. However, even if waterproof construction is applied by this technology, it shows proper waterproofing performance during initial leakage. However, if leakage occurs again due to cracks in concrete structures, there is a limit that it is difficult to show waterproof performance.

Also, a patent application No. 10-1998-0050366 has been filed for a technique of adding an acrylic emulsion to a siliceous powder type coating waterproofing agent during the development of a waterproofing agent made by adding an organic substance to an inorganic waterproofing agent. When the coating waterproofing agent applying this technique is applied to the concrete surface, the adhesion and impact resistance of the interface are improved. However, even when waterproofing is applied with this technique, it helps to improve the interfacial adhesion at the initial stage of construction.However, when water leakage occurs, peeling or phase separation phenomenon occurs at the interface between the acrylic polymer, which is the main component of organic matter, and the concrete sphere, which is the main component of inorganic material. Since it may occur, there was a technical limitation to effectively exhibit interfacial adhesion and waterproof performance over a long period of time.

The present invention devised to solve the problems as described above, to provide a permeable composite waterproofing agent that can be self-healed by the growth of the crystal in the water leakage site when cracks or crevices in the concrete structure, waterproof and water-repellent At the same time to provide a permeable composite waterproofing agent prepared to have a better self-healing ability.

In addition, the present invention is applied to the wall or floor of the finished concrete structure or mixed with the concrete composition in the manufacture of the concrete structure, to fill the gap by creating new crystals in the case of leaks caused by fine cracks or gaps in the concrete structure By providing a permanent waterproof performance of the concrete structure, and to provide a permeable composite waterproofing agent that serves to maintain the durability of the concrete structure.

In addition, in the present invention, when cracks or crevices are formed on the wall or floor of the concrete structure, the permeable composite waterproofing agent of the present invention is manufactured and applied in a liquid phase to fill the cracks or crevices by crystal growth, even if leakage occurs later. It is to provide a permeable composite waterproofing agent which can reduce construction cost and maintenance cost by continuously waterproofing without additional waterproofing construction.

The present invention for achieving the object as described above, by mixing with the concrete composition or poured on the surface of the wall or bottom surface of the poured concrete structure cracks or cracks are generated by the growth of the crystals when the crack is leaked The present invention relates to a permeable composite waterproofing agent that can be cured. The waterproofing composite waterproofing agent of the present invention uses a waterproofing mixture of cement, elvan stone powder, silica sand powder and bentonite.

In the above water-resistant mixture, the elvan rock powder or silica sand powder is preferably baked at a high temperature for 1 to 10 hours in the range of 500 to 1700 ° C., so that the needle-like crystals grow evenly and densely and have excellent waterproofing effect and self-healing effect of cracking. One is not limited thereto.

As the content, it is preferable to use 20 to 100 parts by weight of ganban stone powder, 20 to 80 parts by weight of silica sand powder, and 10 to 80 parts by weight of bentonite because it has better waterproofing effect, but is not limited thereto.

In addition, the present invention can be used by further mixing a water-repellent mixture of 10 to 70 parts by weight of anhydrous gypsum with respect to 100 parts by weight of the higher fatty acid ester salt to the waterproofing agent, and further mixes 1 to 30 parts by weight of the alkylsiloxane polymer in the water-repellent mixture It is also possible to use.

The permeable composite waterproofing agent of the present invention can be used in powder form, pellet form or a mixture thereof. In this case, the waterproof mixture and the water-repellent mixture may be mixed and used in powder form, but it is preferable to use the mixture after the preparation of the respective pellets because it can effectively exhibit the waterproof and water-repellent properties, and the waterproof mixture and the water-repellent mixture. It is also possible to mix and use the prepared pellets in powder form.

Referring to the method of manufacturing the waterproof mixture and the water-repellent mixture into pellets as follows.

Method for producing a pellet type waterproofing agent using the waterproofing mixture of the present invention,

1) mixing a water-soluble mixture of cement, ganban stone powder, silica sand powder and bentonite with water and a water-soluble polymer;

2) preparing the pellets in a pellet form by drying and cutting the waterproof mixture after extrusion;

3) applying a water soluble polymer solution to the pellets;

The mixture is prepared by using a mixture of 20 to 100 parts by weight of ganban stone powder, 20 to 80 parts by weight of silica sand powder and 10 to 80 parts by weight of bentonite with respect to 100 parts by weight of cement has excellent waterproofing effect. It is not limited to this.

In addition, 4) the step of preparing a waterproof pellet by the above production method and dispersing in powder phase; It is also possible to use a mixture of powder form and pellet form further comprising. The powder phase is composed of cement, elvan stone powder, silica sand powder, and bentonite. As for the composition ratio, it is preferable to use 20-100 weight part of ganban rock powder, 20-80 weight part of silica sand powder, and 10-80 weight part of bentonite with respect to 100 weight part of cement as mentioned above.

In addition, after the step 4), 5) mixing the water-repellent pellet prepared by using a water-repellent mixture of a higher fatty acid ester salt and anhydrous gypsum in the same manner as the step 1) to 3); You can add

Referring again to the manufacturing method of the pellet type waterproofing agent using the water-repellent mixture,

1) mixing a water-soluble polymer with a water-repellent mixture of a higher fatty acid ester salt and anhydrous gypsum;

2) drying the water-repellent mixture after extrusion and cutting to prepare pellets;

3) applying a water soluble polymer solution to the pellets;

The water-repellent mixture is prepared by using a mixture of 10 to 70 parts by weight of anhydrous gypsum with respect to 100 parts by weight of higher fatty acid ester salts, but effective water repellent performance is not limited thereto. It is also possible to further include 1 to 30 parts by weight of the alkylsiloxane polymer with respect to the water repellent mixture.

In the present invention, the elvan stone powder is a stone composed mainly of silicon oxide, and serves to generate insoluble acicular crystals by reacting with ionic compounds in water leaking from walls or floors of cement concrete spheres, based on 100 parts by weight of cement. If the amount is less than 20 parts by weight, the amount of insoluble acicular crystals is small, so that it does not show the waterproofing performance effectively. If the amount is more than 100 parts by weight, the amount of elvan powder penetrates into the wall or bottom of the sphere is excessively excessive when leakage occurs. It is preferable to use the above range because it may generate needle acicular crystals and cause cracking of concrete spheres.

The silica sand serves to provide a silicic acid component necessary to proceed with the reaction to generate an insoluble calcium silicate by reacting with the chemical component in the water leaked from the concrete sphere, which is used at 20 parts by weight or less with respect to 100 parts by weight of cement In this case, the amount of calcium silicate produced is not effective for waterproofing, and when used at 80 parts by weight or more, the amount of calcium silicate is excessively generated, which causes micro cracks in concrete spheres, thereby degrading the strength and durability of the sphere. It is preferable to use the above range as it can.

The bentonite absorbs water or moisture and has a great ability to swell. The bentonite reacts with various compounds in the leaked water to grow crystals. Water leaked when used below 10 parts by weight of cement is used. Its ability to absorb water and grow crystals is not effective, so it does not have an effective waterproofing function. When used at 80 parts by weight or more, it may inhibit the reaction of other components that produce insoluble crystals due to excessive water absorption at the initial stage of leakage. It is preferable to use the above range as it may.

The higher fatty acid ester salt, which is a water-repellent component, is a substance having both a hydrophobic portion and a hydrophilic portion in one molecule, and combines with a metal ion component in a concrete sphere or water leakage to form a hydrophobic coating, thereby showing water repellency, stearic acid, It is preferred to use any one or more selected from tartaric acid, fatty acid salts having ester groups, and derivative compounds thereof, but is not limited thereto.

The anhydrous gypsum serves to provide calcium ions and ionic bonds with the hydrophilic portion of the higher fatty acid ester salt and to harden the retardant in the process of forming a hydrophobic film having water repellent performance when water leakage occurs in the concrete structure. It is preferable to use 10 to 70 parts by weight with respect to 100 parts by weight of salt, and when it is used at 10 parts by weight or less, the amount of calcium ions that can be provided does not show an effective water repellency, and when using more than 70 parts by weight It is preferable to use the above range because the amount of calcium ions to be provided is excessively high, so that an additional reaction such as bleaching, which is one of the causes of weakening the concrete sphere, may be performed in addition to the waterproofing action.

Since the alkylsiloxane polymer is a hydrophobic compound, it penetrates into concrete spheres and plays a role in water repellency when leakage occurs. It is preferable to use any one or more selected from polydimethylsiloxane and polymethylsiloxane. It is preferable to use 1 to 30 parts by weight with respect to parts by weight, and when used at 1 part by weight or less, the amount penetrated into the concrete sphere is not so effective that it does not exhibit an effective water repellent function. It is preferable to use the above range because the amount of permeation is too high to act as a factor to inhibit the insoluble crystal growth reaction having a waterproof function when water leakage occurs.

In the present invention, when the powder or pellets of the waterproof mixture and the powder or pellets of the water-repellent mixture are mixed, the ratio is not limited, and the user may mix and use as necessary. More preferably, the water-repellent mixture is preferably used in an amount of 1 to 40 parts by weight based on 100 parts by weight of the waterproof mixture, and when used in an amount of 1 part by weight or less, a small amount of hydrophobic film that exhibits water repellency does not effectively exhibit water repellency. When used in more than parts by weight, it is preferable to use the above range because it may be excessively combined with concrete ions or metal ions in the water leakage, which may act as a factor for inhibiting the reaction of forming insoluble crystals having water resistance. .

In the present invention, the water-soluble polymer is preferably at least one selected from polyethylene oxide, polyvinylpyrrolidone, cellulose resin, polyvinyl alcohol, polyvinylacetate, water-soluble epoxy resin, water-soluble silicone resin, water-soluble urethane resin. One is not limited to this. More preferably, those having a molecular weight of 500,000 to 1,000,000 are preferably used, and those prepared and used in an aqueous solution of 10 to 20% by weight can be used for a long period of time.

In the present invention, when used in the powder form, when applied to the wall surface or the bottom surface of the concrete structure, penetrates into the inside of the structure and when there is water leaks to react quickly to grow insoluble crystals.

In the present invention, the pellet-type having the waterproofing property is present by penetrating into the crack or gap of the structure applied to the wall or the bottom of the concrete structure while the water-soluble polymer coated on the outside of the pellet is removed when the leakage occurs. As it meets the components in the cement concrete, it grows insoluble crystals. This reaction proceeds to grow the crystals as described above only in the leakage occurs, and exhibits self-healing performance to fill the cracks and crevices of the concrete structure with insoluble crystals to improve the strength or durability of the structure.

In addition, the pellet type having the water repellent performance penetrates into cracks or gaps of the structure, and when the leakage occurs, the water-soluble polymer coated on the outside of the pellet is removed and the material inside is eluted to combine with the metal ion component in the leak to form a hydrophobic film. It is formed to exhibit water repellency.

The present invention is in the form of pellets coated with a water-soluble polymer on the outside so as to contain various mixtures that generate insoluble crystals upon leakage, and the outside with a water-soluble polymer so as to contain a mixture that forms a hydrophobic coating on the inside of the leak. A permeable coating waterproofing agent in the form of coated pellets was prepared.

As described above, since the exterior is coated with a water-soluble polymer, it can effectively waterproof not only during initial leakage but also for later leakage over a long period of time, and has a self-healing ability to fill cracks and gaps by itself.

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

Figure 1 is a schematic diagram showing the process of showing the crystal growth self-healing waterproof performance after the waterproofing agent of the present invention is applied to the cement concrete wall or floor surface. Figure 1 (a) shows the water leakage due to cracks or gaps formed on the wall or floor surface of the concrete sphere, (b) shows the state of applying the waterproofing agent of the present invention, (c) is the waterproofing agent of the present invention The component penetrates into the crack or crevice of the concrete sphere, (D) indicates the insoluble crystal growth reaction due to leakage, and (E) means that the crevice of the concrete sphere is self-healed and the structure of the sphere becomes dense. To indicate that.

Figure 2 shows the manufacturing process of the pellet-type waterproofing agent having a waterproofing performance of the present invention. Figure 2 (a) is a photograph showing that after dry mixing the composition of cement, ganseok stone powder, silica sand powder, bentonite and the like, water and water-soluble polymers are mixed and produced into a long thin thread shape using an extruder, ( B) is a photograph showing the long and thin thread-shaped strands prepared as (a), rapidly dried, cut and prepared into pellets, and then coated with a water-soluble polymer.

Figure 3 shows a process for producing a pellet-type waterproofing agent having a water-repellent function of the present invention. Figure 3 (a) is a photograph showing that after mixing the composition, such as higher fatty acid ester salts, anhydrous gypsum, water and water-soluble polymers were mixed in a long thin thread shape using an extruder, (b) It is a photograph showing the coating of using a water-soluble polymer after cutting the long thin slender strands prepared in (A) into pellet form.

Figure 4 is a photograph comparing the surface state of the structure in which insoluble crystals were produced before and after applying the waterproofing agent of the present invention to the concrete sphere and after the leakage occurs. Figure 4 (a) is a photograph of the surface of the concrete structure is not coated with the waterproofing agent of the present invention, (b) is a photograph of the surface of the concrete structure after applying the waterproofing agent of the present invention, (c) is a waterproofing agent of the present invention When water leaks on the coated concrete structure, the insoluble crystals are formed on the concrete surface. (D) The waterproofing agent of the present invention penetrated into the concrete structure grows the crystal when water leak occurs. This picture shows the filling of the gap inside the sphere.

5 is a photograph showing a process of self-healing cracks or gaps generated in the concrete sphere to which the waterproofing agent of the present invention is applied. Figure 5 (a) is a photograph showing a crack is generated by the cracks generated in the concrete sphere coated with the waterproofing agent of the present invention, (b) shows a process in which the insoluble crystals generated by the leakage fills the gap. Photograph (c) shows the state after crystals created by leaks fill the gap completely and self-healed the gap.

The waterproofing agent of the present invention can be applied to the wall surface or the bottom surface of the concrete sphere is leaking may also be used for the purpose of preparing for leaks may be applied to the surface of the concrete sphere is not leaking.

Hereinafter, the present invention will be described with reference to Examples in order to explain the present invention, but the present invention is not limited to the following Examples.

[Production Example 1]

Waterproof Pellet type  Preparation of Repellent

After dry mixing 100 parts by weight of cement, 40 parts by weight of ganban stone powder, 30 parts by weight of silica sand powder and 25 parts by weight of bentonite, 80 parts by weight of a small amount of water and 20 parts by weight of polyvinylpyrrolidone, which is a water-soluble polymer, were mixed well. The mixture was placed in a cylinder and pushed out through a thin nozzle end so as to have an elongated thread shape as shown in FIG. The yarn-like mixture was sufficiently dried and then cut into pellets. Finally, a water-soluble polymer polyvinylpyrrolidone aqueous solution (15 wt% solids) was sprayed on the outside of the pellet and dried to prepare a coated pellet such as (b) of FIG. 2.

[Production Example 2]

Water repellent Pellet type  Preparation of Repellent

After dry mixing 40 parts by weight of anhydrous gypsum with respect to 100 parts by weight of the higher fatty acid ester salt, 60 parts by weight of a small amount of water and 25 parts by weight of polyvinylpyrrolidone, which is a water-soluble polymer, were mixed well. The mixture was placed in a cylinder and pushed out through a thin nozzle end so as to have a long thread shape as shown in FIG. The yarn-like mixture was sufficiently dried and then cut into pellets. Finally, a water-soluble polymer polyvinylpyrrolidone aqueous solution (solid content 15% by weight) was applied to the outside of the pellets by spraying, followed by drying to prepare a coated pellet as shown in FIG.

[Production Example 3]

Preparation of Mixed Waterproofing Agents

Pellet-type waterproofing agent prepared by mixing 30 parts by weight of the pellet-type waterproofing agent prepared in Preparation Example 2 with respect to 100 parts by weight of the pelletizing waterproofing agent prepared in Preparation Example 1, 100 parts by weight of cement, 50 parts by weight of rock powder, and 20 weight of silica sand powder By weight, 20 parts by weight of bentonite was mixed and dispersed evenly so as to have a weight ratio of 1: 1.

Example 1

Cement and sand were mixed in a 1: 4 weight ratio, and then 60 parts by weight of water was added and mixed with 100 parts by weight of cement in the mixture. After allowing the hydration reaction to proceed for 7 days at room temperature, 60 parts by weight of water was mixed with 100 parts by weight of the waterproofing agent of Preparation Example 3 and applied to the concrete sphere surface.

Comparative Example 1

Cement and sand were mixed in a 1: 4 weight ratio, and then 60 parts by weight of water was added and mixed with 100 parts by weight of cement in the mixture.

Experimental Example 1

Waterproof performance test

In Example 1, water was added to the structure to which the waterproofing agent was applied to the surface of the concrete sphere and the concrete structure of Comparative Example 1 and maintained for 7 days in a state in which the structures were impregnated in water to maintain a sufficiently wet state at room temperature.

Experimental Example 2

Self-healing Performance test

In Example 1, a crack was generated in a sphere coated with a waterproofing agent on the surface of the concrete sphere, and then maintained for 7 days in a state in which the structure was impregnated in water at room temperature.

The surface of Example 1 and Comparative Example 1 was enlarged 600 times by using an optical microscope manufactured by Sometech, and the presence or absence of the formation of insoluble crystals due to leakage was read and photographed. The surface condition was photographed.

As shown in FIG. 4, unlike the structure in which the waterproofing agent of the present invention is not applied as in the case of (a), the surface structure of the sphere coated with the waterproofing agent of the present invention is much more compact than in the case of (b). Can be. And as shown in (c) of FIG. 4, when water leakage occurs in the concrete sphere to which the waterproofing agent of the present invention is applied, a large number of insoluble crystals are generated on the surface and also penetrated into the structure as shown in (d). It can be observed that the action of a waterproofing agent produces crystals, densifying the structure inside the structure.

As shown in (a), if leakage occurs after the crack is formed in the concrete sphere to which the waterproofing agent of the present invention is applied as in (a), insoluble crystals grow and fill the gap as shown in (b) (c) and The resulting insoluble crystals self-heap the cracks of the sphere cracks to form a concrete concrete wall with a dense structure.

In case of using the permeable coating waterproofing agent according to the present invention, it has the effect of self-healing the cracks and gaps of the wall or floor of the concrete structure, which has the effect of maintaining the durability of the structure, and by creating insoluble crystals at the leaking site, Indicates.

In addition, the present invention has the effect of reducing the construction cost and maintenance costs, because no additional waterproofing process is required by generating a crystal again without the need for additional waterproofing even if the leak occurs later on the leaking site.

Claims (15)

Permeable waterproofing agent characterized in that the cement, elvan rock powder, silica sand powder, bentonite. The method of claim 1, Permeable waterproofing agent, characterized in that 20 to 100 parts by weight of ganban stone powder, 20 to 80 parts by weight of silica sand, 10 to 80 parts by weight of bentonite based on 100 parts by weight of cement. The method of claim 2, The machite powder or silica sand powder is a permeable waterproof agent, characterized in that used by high temperature firing in the range 500 ~ 1700 ℃. The method according to any one of claims 1 to 3, The permeable waterproofing agent is in the form of a powder, pellets coated with a water-soluble polymer, or a mixture of the powder and the pellets. The method of claim 4, wherein The water-soluble polymer is at least one selected from polyethylene oxide, polyvinylpyrrolidone, cellulose resin, polyvinyl alcohol, polyvinylacetate, water-soluble epoxy resin, water-soluble silicone resin, water-soluble urethane resin. The method of claim 5, 1 to 40 parts by weight of a powdery or pellet-like water-repellent mixture of 10 to 70 parts by weight of anhydrous gypsum and 1 to 30 parts by weight of an alkylsiloxane polymer with respect to 100 parts by weight of the permeable waterproofing agent, 100 parts by weight of a higher fatty acid ester salt. Permeable waterproof agent, characterized in that it comprises. The method of claim 6, The higher fatty acid ester salt is a permeable waterproofing agent, characterized in that any one or more selected from stearic acid, tartaric acid, fatty acid salt having an ester group, and derivative compounds thereof. The method of claim 6, The alkylsiloxane polymer is a permeable waterproof agent, characterized in that using any one or more selected from polydimethylsiloxane, polymethylsiloxane. 1) mixing 100 parts by weight of water with a water-soluble polymer to a waterproof mixture of 20 to 100 parts by weight of ganban stone powder, 20 to 80 parts by weight of silica sand powder and 10 to 80 parts by weight of bentonite; 2) drying and cutting the mixture after extrusion to prepare pellets; 3) applying a water soluble polymer solution to the pellets; Method for producing a permeable waterproof agent, characterized in that it is produced by. The method of claim 9, The water-soluble polymer is any one or more selected from polyethylene oxide, polyvinylpyrrolidone, cellulose resin, polyvinyl alcohol, polyvinylacetate, water-soluble epoxy resin, water-soluble silicone resin, water-soluble urethane resin Way. The method according to any one of claims 9 or 10, 4) dispersing the prepared pellet after the step 3) into a powder consisting of 20 to 100 parts by weight of ganban stone powder, 20 to 80 parts by weight of silica sand powder and 10 to 80 parts by weight of bentonite; Method for producing a permeable waterproofing agent further comprising a. The method of claim 11, 5) mixing the water-repellent pellet prepared by using the water-repellent mixture of the higher fatty acid ester salt, anhydrous gypsum and the alkylsiloxane polymer in the same manner as in the steps 1) to 3) after the step 4); Method for producing a permeable waterproofing agent further comprising a. The method of claim 12, The water-repellent mixture is 10 to 70 parts by weight of anhydrous gypsum, polydimethylsiloxane, polymethylsiloxane based on 100 parts by weight of any one or more higher fatty acid ester salts selected from stearic acid, tartaric acid, fatty acid salts having ester groups and derivative compounds thereof 1 to 30 parts by weight of any one or more alkylsiloxane polymers selected. Cement concrete composition, characterized in that using the permeable waterproofing agent of any one of claims 1 to 8. A cement concrete structure poured using the cement concrete composition of claim 14.

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