KR100954725B1 - Waterproofing and anticorrosion method of concrete structure - Google Patents

Abstract

PURPOSE: A waterproof construction method of a concrete structure is provided to reinforce the cohesive property of a waterproof layer and to keep concrete surface even using a background control material. CONSTITUTION: A base processing step comprises a foreign material removing process of a concrete surface(S10). A primer coating step is coating primer on the concrete surface(S20). A surface control substance coating step is coating background control materials on the primer(S30). A waterproof material first coating step is forming a first waterproof coating layer on the background control materials(S40). A waterproof material second coating step is coating waterproof materials on the first waterproof coating layer(S50).

Description

Waterproof method of concrete structure {WATERPROOFING AND ANTICORROSION METHOD OF CONCRETE STRUCTURE}

The present invention relates to a waterproof method, and more particularly, to a waterproof method of a concrete structure.

Structures made of inorganic substrates such as concrete can be easily corroded by water penetrating into the concrete. Therefore, waterproofing is performed on a portion of the concrete structure where water can be easily contacted.

Waterproofing of concrete structures is achieved by forming a waterproof layer on the concrete surface. In general, the waterproof layer is formed by applying a waterproof material on the concrete surface. At this time, the smooth state of the base surface becomes an important factor in determining the application state of the waterproofing material. That is, when the base surface is not kept smooth due to holes, irregularities, microcracks, etc. present in the base surface, the waterproofing material layer formed thereon is not uniform in thickness, has pinholes, and the like, and the waterproof performance is greatly reduced. In general, concrete surfaces are not smooth due to formwork steps, form tie marks and protrusions. Therefore, a ground adjustment finish called ground adjustment material is used on the concrete surface. Background material is usually mortar made of cement and sand kneaded with water. However, since the mortar base adjuster is inferior in adhesiveness and takes a long time for curing, there is a need for a method of waterproofing concrete using an improved base adjuster.

An object of the present invention is to maintain the hole, irregularities, microcracks, etc. existing on the entire surface of the concrete smoothly with the concrete surface and to enhance the adhesion of the waterproof layer, to suppress the pinholes, to form a uniform coating film of the concrete It is to provide a waterproof method.

In order to achieve the above object, according to an aspect of the present invention,

A substrate surface treatment step of removing foreign matter from the concrete surface; Applying a primer on the concrete surface; A base adjustment material applying step of applying a base adjustment material formed by mixing a main material, a curing agent, and powder on the primer; And a waterproofing material applying step of applying a waterproofing material on the grounding adjuster, wherein the subject of the grounding adjuster includes an epoxy resin, and the curing agent of the grounding adjuster is a metaxylenediamine modified compound, triethylenetetramine, polyoxyprorea It is provided with a water-proof method of concrete structure comprising a civil modified, or bis (pyraaminocyclocyclohexyl) metal modified, wherein the powder of the base material comprises OPC cement, silica sand, thickener, and antifoaming agent. do.

The subject matter in the background adjuster may comprise 13 to 15% by weight, the hardener may comprise 13 to 15% by weight, and the powder may comprise 71 to 73% by weight.

In the powder, the OPC cement accounts for 43 to 45% by weight, the silica sand accounts for 54 to 56% by weight, the thickener may account for 0.1 to 0.3% by weight, and the antifoaming agent may account for 0.2 to 0.4% by weight. .

Attachment strength of the background adjustment material may be 15.3kgf / ㎠ to 30kgf / ㎠.

According to the configuration of the present invention can achieve the object of the present invention described above. Specifically, the waterproofing method of concrete includes a main material containing an epoxy resin on a primer, a metaxylenediamine modified product, a triethylene tetraimine, a polyoxyproleamine modified product, or a bis (pyraaminocyclocyclohexyl) metal modified product. Since it comprises a step of applying a base adjustment material is formed by mixing a curing agent and a powder comprising OPC cement, silica, thickener, and antifoaming agent, it is possible to obtain a waterproof structure with improved adhesion strength.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of an embodiment according to the present invention.

1 is a flowchart illustrating a waterproof method of a concrete structure according to an embodiment of the present invention. Referring to Figure 1, the waterproof method of the concrete structure is the base surface treatment step (S10), primer coating step (S20), the background adjustment material coating step (S30), waterproofing material primary coating step (S40), waterproof material Second application step (S50) is provided.

2 is a cross-sectional view showing a waterproof structure formed by the waterproof method of FIG. Referring to FIG. 2, the waterproof structure formed by the waterproof method shown in FIG. 1 includes a primer layer 120, a backing material layer 130, and a waterproof material layer 140 sequentially stacked on the concrete layer 110. ).

Now, the waterproof method of the concrete structure shown in Figure 1 will be described in more detail with the waterproof structure shown in FIG.

Base surface processing step (S10) is a step of processing the base surface 111 provided on the waterproof object (110). In this embodiment, the waterproof object 110 is concrete, the base surface 111 is the surface of the concrete. The base surface 111 has a state suitable for performing a subsequent process by the base surface treatment step (S10). Specifically, in the base surface treatment step (S10), the form step and the height of the projection formed on the base surface is reduced, foreign matters such as lattance and form release agent, dust, oil, dirt, rust, etc. are removed. The base surface treatment step S10 may be performed by, for example, washing with high pressure water on the base surface 111. At this time, the appropriate pressure of the high pressure water is 100 to 150 kgf / cm 2 for the wall and 150 kgf / cm 2 for the floor. In addition, in the base surface treatment step (S10), holes formed in the base surface 111 may be filled with various fillers. After the background surface processing step S10 is performed, the background state must satisfy the following conditions. Formwork steps and projections should be 3mm or less in height, free from foreign substances such as formwork, latans, oil, dust, etc., without capillary voids, and with a moisture content of less than 10%.

Primer application step (S20) is a step of applying a primer on the base surface (111). Primer application step (S20) is performed when the relative humidity is 85% or less after the surface treatment step (S10). The primer layer 120 is formed on the base surface 111 by the primer application step S20. The adhesion of the backing material layer 130 to the concrete 110 is enhanced by the primer layer 120. In the present embodiment, a water-soluble epoxy primer mixed with an epoxy and a water-soluble modified polyamine in a weight ratio of about 10: 7 is used, and the primer is applied on the base surface 111 using a brush, roller, airless spray, or the like. Can be. The primer layer 120 formed by completely curing the applied primer is preferably formed in a thickness of 0.045 to 0.055 mm, and most preferably in a thickness of about 0.05 mm.

Background adjustment material applying step (S30) is a step of applying a background adjustment material on the primer layer (120). Background adjustment material application step (S30) is performed after the primer applied in the primer application step (S20) is completely cured. The background adjuster layer 130 is formed on the primer layer 120 by the background adjuster applying step (S30). Background adjustment material The base adjustment material applied in the step (S30) is formed by mixing the main body, the curing agent and the powder in a weight ratio of about 1: 1: 5.1.

The subject of the backing material includes an epoxy resin consisting of the reaction product of epichlorohydrin and bisphenol F, using a nonionic surfactant as an additive and optionally using ion exchange water as the solvent. The subject matter in the background adjustment material preferably accounts for 13 to 15% by weight.

The curing agent of the base adjuster includes methaxylenediamine modified, triethylenetetramine, polyoxyproreamine modified, or bis (pyraaminocyclocyclohexyl) metal modified, and ion-exchanged water is used as a solvent if necessary. . In the background adjuster, the hardener preferably accounts for 13 to 15% by weight.

The powder of the base adjustment material includes OPC cement, silica sand, thickener, and antifoaming agent. It is preferable that the powder occupies 71 to 73% by weight in the background adjustment material. OPC cement in the powder occupies 43 to 45% by weight, silica sand occupies 54 to 56% by weight, thickeners to account for 0.1 to 0.3% by weight, and antifoaming agent to 0.2 to 0.4% by weight. In the present embodiment, a description will be made of using No. 7 as the silica sand.

The backing material may be applied once or twice on primer layer 120 using a tool such as a trowel. The background adjuster layer 130 having a thickness of at least 1.0 mm is formed on the primer layer 120 by the background adjuster applying step S30. Adhesion strength of the background adjustment material layer 130 is 15.3kgf / ㎠ To 30 kgf / cm 2, which is very good. In addition, the background adjustment material layer 130 is excellent in acid resistance and chemical resistance. In addition, it catches cracks, formwork steps and pinholes in concrete, and has excellent waterproof performance. And it enhances the adhesion with the waterproofing material and has an excellent plastering effect.

The waterproofing material first applying step (S40) is a step of applying the waterproofing material on the background adjustment material layer 130. The waterproofing material primary application step S20 is performed after the background adjustment material is completely cured and the background adjustment material layer 130 is formed after the application of the background adjustment material S30. The first waterproof coating layer 141 is formed on the background adjuster layer 130 by the waterproofing material first application step S40. In this embodiment, a solvent-free epoxy mixture of epoxy and specially modified amine in a weight ratio of about 7: 3 is used as the waterproofing material, and the waterproofing material may be applied using a tool such as a roller, a brush, an air spray and an airless spray. It is preferable that the first waterproof coating layer 141 formed by curing the waterproofing material applied by the waterproofing material first application step S40 has a thickness of at least 0.15 mm.

Waterproofing material secondary coating step (S50) is a step of applying a waterproofing material on the first waterproofing coating film (141). The waterproofing material secondary coating step S50 is performed after the waterproofing material applied in the waterproofing material primary applying step S40 is completely cured to form the first waterproofing coating film 141. The second waterproof coating layer 142 is formed on the first waterproof coating layer 141 by the waterproofing material secondary coating step S50. In the present embodiment, the waterproofing material used in the waterproofing material second application step (S50) is the same waterproofing material as the waterproofing material used in the waterproofing material first application step (S40), and the coating method is also the method used in the waterproofing material first application step (S40). It may be the same method. It is preferable that the second waterproof coating layer 142 formed by curing the waterproofing material applied by the waterproofing material second application step S50 has a thickness of at least 0.15 mm. The first waterproof coating 141 and the second waterproof coating 142 form a waterproof layer 140.

The present invention has been described above with reference to the above embodiments, but the present invention is not limited thereto. Those skilled in the art will appreciate that modifications and changes can be made without departing from the spirit and scope of the present invention and that such modifications and changes also belong to the present invention.

1 is a flowchart illustrating a waterproof method of a concrete structure according to an embodiment of the present invention.

2 is a cross-sectional view showing a waterproof structure formed by the waterproof method of FIG.

<Explanation of symbols for the main parts of the drawings>

110: waterproof object 111: base surface

120: primer layer 130: background material layer

140: waterproofing material layer 141: first waterproof coating film

142: second waterproof coating film

Claims (4)

A substrate surface treatment step of removing foreign matter from the concrete surface; Applying a primer on the concrete surface; A base adjustment material applying step of applying a base adjustment material formed by mixing 13 to 15 wt% of the main material, 13 to 15 wt% of the curing agent, and 71 to 73 wt% of the powder on the primer; And It includes a waterproofing material applying step of applying a waterproofing material on the background adjustment material, The subject of the base adjuster comprises an epoxy resin consisting of the reaction product of epichlorohydrin and bisphenol F, wherein the curing agent of the base adjuster is a metha xylenediamine modified product, a polyoxyproreamine modified product, or bis (pyraaminooxy) Cyclohexyl) metal modified material, wherein the powder of the base adjuster is OPC cement, silica sand, thickener, and antifoaming method of a concrete structure, characterized in that it comprises an antifoaming agent. delete The method of claim 1, wherein the OPC cement in the powder comprises 43 to 45% by weight, the silica sand comprises 54 to 56% by weight, the thickener comprises 0.1 to 0.3% by weight, the antifoaming agent is 0.2 to 0.4 Waterproof method of the concrete structure, characterized in that occupies a weight%. The method of claim 1, wherein the adhesive strength of the base adjustment material is 15.3kgf / ㎠ to 30kgf / ㎠.

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