KR101215403B1 - Functional paint for water-proofer and method for constructing water-proof using the same - Google Patents

Abstract

PURPOSE: Functional paint is provided to reduce the damage of the concrete structure's waterproof material caused by swelling and pin hole phenomenon of middle coating agent, thereby providing highly durable concrete structure. CONSTITUTION: Functional paint comprises: hydrocarbons coating agent consisting of lamp oil and/or light oil whose carbon number of 90-50 v/v% carbon chain comes under 9-23; phthalate-based sublimation modifier consisting of 10-50 v/v% dibutyl phthalate and/or dioctyl phthalate. A method of constructing comprises steps of: preprocess preparing for the construction by washing the surface of the concrete structure and performing surface preparation; coating primer on the processed concrete structure above; coating middle agent which is the waterproof material on top surface of the primer above; and coating the functional paint on top surface of the middle agent. [Reference numerals] (S100) Pretreatment process; (S200) Primary process; (S300) Middle agent coating process; (S310) Top surface coating process; (S400) Post-treatment process

Description

Functional paint for preventing swelling of water and pinhole phenomenon and waterproofing method using the same {Functional paint for water-proofer and method for constructing water-proof using the same}

The present invention relates to a functional paint for preventing swelling and pinholes of waterproofing materials and a waterproof construction method using the same, and more specifically, to a waterproofing material corresponding to the main composition of waterproofing-type concrete structures. It is applied to a functional coating for preventing swelling and pinhole phenomenon of a waterproofing material which is mixed with a hydrocarbon coating agent and a phthalate-based sublimation controlling agent which is applied to the upper surface of the intermediate agent to control the curing rate of the intermediate agent. The present invention relates to a waterproof construction method for preventing swelling and pinhole phenomena of a waterproofing material including an intermediate process and a post-treatment process.

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

Therefore, in the construction for waterproofing and anticorrosive treatment of a conventional concrete structure, after applying a primer as an adhesive on the surface of the concrete structure, a neutralizer, which is a waterproof material containing epoxy resin, polyurethane resin or polyurea resin is applied to the upper surface of the primer Then, the waterproof and anticorrosive treatment of the concrete structure was completed, or the resin mixture including the UV blocking material was further applied to the upper surface of the middle agent to complete the waterproof and anticorrosive treatment of the concrete structure.

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

The following is a representative prior art regarding the waterproofing of a conventional concrete structure.

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

In the prior art, by introducing a material of hardness suitable for each layer to function in forming the lower coating and the upper coating, it absorbs the external force transmitted from the upper and lower parts of the concrete structure so that it cannot be transferred to the upper surface of the concrete surface or the waterproof coating. Although the main focus is on the side of protecting the waterproof sheet coated with molecular resin, which is the main waterproofing and anticorrosive treatment agent, from the impact of physical external force, the swelling of urea polymer resin, which is an intermediate applied to the concrete structure, is applied. And the configuration for the prevention of pinhole phenomenon is weak, the situation that requires continuous research and development to solve this.

The present invention has been made in order to improve the problems of the swelling and pinhole phenomenon of the waterproof structure of the concrete structure, the intermediate agent, which is a waterproof material containing a conventional epoxy resin, polyurethane resin or polyurea resin, but contains a certain amount of a curing agent, The curing rate is different between different parts corresponding to the lower part of the intermediate (the surface of the concrete structure) and the upper part (the air side or the resin mixture containing the sunscreen material) applied to a certain thickness. The purpose of this paper is to suggest a solution to the problem of swelling phenomenon called "Peeley phenomenon" or pinhole phenomenon called "needle hole phenomenon".

The present invention is to realize the desired object as described above,

90-50 v / v% of hydrocarbon coating agent; Phthalate-based sublimation regulator 10 ~ 50 v / v%; to provide a functional paint for preventing the swelling and pinhole phenomenon of the waterproofing material, including;

A pretreatment step of preparing the construction by washing and ground-adjusting the surface of the concrete structure; A primer process of applying a primer to a surface of the concrete structure treated with the pretreatment process; A middle step of applying a middle water agent, which is a waterproof material, to the upper surface of the primer; It proposes a waterproof construction method for preventing the swelling and pinhole phenomenon of the waterproof material comprising a; a post-treatment step of applying a functional paint for the swelling of the waterproofing material and the prevention of the pinhole phenomenon on the upper surface of the intermediate agent subjected to the intermediate process. do.

The functional paint of the present invention is applied to the upper surface of the middle material, which is the waterproofing material corresponding to the main composition of the waterproofing-type concrete structure, by adjusting the curing rate of the middle material, concrete caused by the swelling phenomenon and the pinhole phenomenon of the middle material It is possible to obtain the effect of reducing the damage of the waterproofing and corrosion of the structure, thereby providing an effect of providing a waterproofing and corrosion protection of the more durable concrete structure.

1 (a) to (b) is a process block diagram showing a waterproof construction method using a functional paint for the prevention of swelling and pinhole phenomenon of the waterproofing according to a preferred embodiment of the present invention.

The present invention relates to a functional paint for preventing swelling of water and pinholes, and a waterproof construction method using the same, comprising: 90 to 50 v / v% of a hydrocarbon-based coating agent; Phthalate-based sublimation regulator 10 ~ 50 v / v%; and functional paints to prevent swelling and pinhole phenomenon consisting of a waterproofing material, including the pre-treatment process (S100) to prepare the construction by washing and grounding the surface of the concrete structure and ; A primer process (S200) for applying a primer on the surface of the concrete structure treated with the pretreatment process (S100); A middle step (S300) of applying a middle water which is a waterproof material on an upper surface of the primer; Preventing the swelling and pinhole phenomenon of the waterproof material comprising a; during the step (S300) a post-treatment step (S400) for applying a functional paint for preventing the swelling and pinhole phenomenon of the waterproofing material on the upper surface of the intermediate agent treated. It relates to a waterproof construction method for.

Hereinafter, the present invention will be described in detail with reference to FIG. 1 showing an embodiment of the present invention.

- Waterproof Swelling  And Pinhole phenomenon  Functional Paints for Prevention-

Specifically, the hydrocarbon-based coating agent of the present invention is a functional coating (hereinafter referred to as "functional coating") for preventing the swelling of the waterproofing and pinhole phenomenon is a composition having a certain volatility, the predetermined surface on the upper surface of the middle It is a composition for controlling the curing rate of the intermediate is located in the lower portion of the functional paint is applied to the thickness.

That is, a general intermediate agent is composed of an epoxy resin, a polyurethane resin, or a waterproofing material containing a polyurea resin (hereinafter, referred to as a 'middle agent'), and an intermediate resin has an epoxy resin and a polyurethane that perform a main waterproof function. In addition to resins or polyurea resins, dispersants for facilitating dispersion between compositions of the intermediate agent, curing agents for adjusting the curing rate of the intermediate agent, or other functional compositions are included.

At this time, the curing agent has the effect of adjusting the curing rate of the entire intermediate agent by adjusting the curing rate of the epoxy resin, polyurethane resin or polyurea resin, but the upper surface of the primer (or the surface of the concrete structure, below) Swelling of the intermediate agent, which is a result of the difference in curing rate caused by the difference in curing conditions according to the localized portion of the intermediate agent (described in detail below) applied to the 'top surface of the primer' and It was difficult to prevent the pinhole phenomenon.

Specifically, the swelling phenomenon and the pinhole phenomenon of the general intermediate agent are caused by the chemical composition of the composition constituting the intermediate agent or by the curing conditions such as curing temperature, and the chemical composition causes the swelling inhibitor or Although it can be solved to some extent by incorporating a composition such as a pinhole preventive agent into the intermediate in an optimal composition ratio, the local partial difference according to the excessive thickness of the intermediate or the application thickness of the intermediate applied to a certain thickness, that is, the concrete structure The curing rate of the intermediate produced by the difference in curing temperature due to the difference in the position of the lower part of the middle material corresponding to the surface side (primer side) and the upper side of the middle agent corresponding to the resin side including the air side or the sunscreen material. Difficult to prevent swelling or pinholes There.

In connection with the above, the main cause of swelling or pinhole phenomena of the intermediate agent is that the overall curing rate of the intermediate agent is excessively fast so that the intermediate agent does not bond smoothly with the pores of the primer or concrete structure, and the swelling phenomenon occurs; The chemical by-products reacted with each other by gaseous by-products generated during the chemical reaction with each other, or when the intermediate is applied to the top surface of the primer, The pinhole phenomenon occurs as the drawn air escapes to the surface of the intermediate agent.

In addition, the swelling phenomenon or the pinhole phenomenon of the intermediate agent is based on the intermediate agent, and has a predetermined thickness on the upper surface of the concrete structure corresponding to the lower side of the intermediate agent, and the atmosphere corresponding to the applied primer side and the upper side of the intermediate agent. Or, due to the temperature difference between the sunscreen side, the lower and the upper portion of the middle agent is caused to harden at a different rate because it occurs more.

That is, in general roof waterproofing and anticorrosive construction, a primer is applied to a rooftop bottom surface corresponding to an upper surface of a conventional concrete structure, and a middle agent is applied to an upper surface of the primer. The lower part of the middle agent having the thickness of has a relatively low temperature under the influence of the concrete structure, and the upper part of the middle agent has a higher temperature than the lower part of the middle agent due to sunlight, and the middle agent is different depending on the local part. It hardens at a speed and swelling or pinhole phenomenon occurs in the surface (upper) direction of the intermediate.

In addition, according to the waterproofing and anticorrosive conditions of the concrete structure, the lower portion of the intermediate agent has a relatively high temperature due to the influence of the concrete structure, and the upper portion of the intermediate agent is affected by a lower temperature than the lower portion of the intermediate agent. Swelling or pinhole phenomenon occurs in the downward direction of the agent.

In contrast, the hydrocarbon-based coating agent of the present invention is included in the functional paint is applied to the upper surface of the intermediate agent, and by reducing the temperature difference between the upper and lower portions of the intermediate agent, by locally controlling the curing rate of the intermediate agent, The effect of preventing swelling or pinholes is realized.

That is, the hydrocarbon-based coating agent is an organic compound consisting of only carbon and hydrogen, and is generally classified into aliphatic hydrocarbons having a chain or cyclic molecular structure and aromatic hydrocarbons having a benzene ring. Any kind of thing may be used as long as it exists in the state of being included in the functional paint and can be sublimed into a gaseous phase.

In addition, although the sublimation rate varies depending on the type of hydrocarbon coating agent of the present invention, those having various sublimation rates depending on the curing rate of the intermediate may be suitably used.

Specifically, the hydrocarbon-based coating agent of the present invention is included in the functional paint is applied to the upper surface of the middle agent, so that the upper surface is separated from the atmosphere to perform the function of adjusting the upper curing rate of the middle agent. That is, when the temperature of the concrete structure is lower than the temperature of the air and the curing rate of the upper part of the intermediate is too fast than the lower rate of the lower part of the middle, the hydrocarbon coating agent having a low sublimation rate is used to separate the intermediate from the atmosphere for a long time. By adjusting the curing rate of the upper part to be similar to the curing rate of the lower part, it is possible to prevent the pinhole phenomenon due to the difference in curing rate between the upper and lower middle parts, and to allow the middle of the middle part to be firmly bonded to the primer or concrete structure surface. It is possible to realize the effect of preventing the swelling phenomenon by ensuring.

Contrary to the above, when the temperature of the concrete structure is higher than the atmospheric temperature and the curing rate of the upper portion of the intermediate is too fast than the lower curing rate of the intermediate, a hydrocarbon-based coating agent having a high sublimation rate (preferably toluene or dibutyl phthalate) By increasing the curing rate of the intermediate agent with the rapid sublimation of the hydrocarbon-based coating agent, by controlling similarly the curing rate between the upper and lower portions of the intermediate agent, it is possible to realize the effect of preventing the pinhole phenomenon or swelling phenomenon.

In addition, the present invention is because most of the construction environment of the waterproof concrete method of the concrete structure is the temperature of the concrete structure is lower than the temperature of the atmosphere is the case that the curing rate of the upper part of the intermediate agent is too fast than the lower curing rate of the intermediate agent, the present invention The silver hydrocarbon-based coating agent may be composed of any one or more of kerosene or light oil having a carbon number of 9 to 23 carbons in the carbon chain.

In connection with the above, the present invention can be used in the petroleum hydrocarbon of a more diverse carbon number, but when the carbon number is less than 9, the hydrocarbon coating agent is sublimated too quickly to have volatility, so that the curing rate of the middle It is not suitable when the curing speed is lower than the lower curing rate, and when the carbon number exceeds 23, the carbon sublimation rate is too high, and it takes a long time for the entire functional paint applied to the upper surface of the intermediate material to be sublimed and removed. Because it is not suitable.

At this time, the kerosene is a hydrocarbon that is purified at 150 ~ 250 ℃ when refined crude oil, has 9 to 18 carbon atoms, the main component of the homologue from decane (C ₁₀ H ₂₂ ) to hexadecane (C ₁₈ H ₃₄ ) Hydrocarbon. In addition, light oil is a hydrocarbon refine | purified at 250-400 degreeC, when a crude oil is refine | purified, and has 14-23 carbon atoms, and a main component is hydrocarbons, such as a paraffin, a cycloparaffin, or an aromatic.

In addition, the kerosene and diesel oil has a long sublimation time, so that the middle agent containing a general epoxy resin, polyurethane resin or polyurea resin may cover the upper portion of the middle agent during curing at about 25 ° C. for about 10 to 15 hours. The effect can be obtained that the upper part of the agent can be cured at a curing rate similar to the lower part.

In connection with the above, the hydrocarbon-based coating agent of the present invention is preferably included in the functional paint, 90 ~ 50 v / v%, which is appropriate to the sublimation rate of the hydrocarbon-based coating agent according to the composition ratio of the phthalate-based sublimation regulator To adjust it. A detailed description will be mentioned below.

In addition, the phthalate-based sublimation regulator of the present invention is included in the functional paint to control the sublimation rate of the hydrocarbon-based coating agent, the molecules of the hydrocarbon-based coating agent and the molecules of the phthalate-based sublimation regulator are bonded to each other by van der Waals forces Adjust the sublimation rate of the cinnamon film.

At this time, the higher the molecular weight of the phthalate-based sublimation regulator, the stronger the binding force with the hydrocarbon-based coating agent, and thus the sublimation rate of the hydrocarbon-based coating agent is lowered, so that even if the same amount of the hydrocarbon-based coating agent is included in the functional paint, the functional paint applied to the upper surface of the intermediate agent The lower the sublimation rate of, the lower the molecular weight of the phthalate-based sublimation regulator, the weaker the bonding strength with the hydrocarbon-based coating agent and the greater the sublimation of the hydrocarbon-based coating agent, so that even if the same amount of hydrocarbon-based coating agent is included in the functional paint, Sublimation speed of the functional paint applied to the upper surface of the will be faster.

That is, the phthalate-based sublimation regulator of the present invention finely controls the sublimation rate of the hydrocarbon coating agent contained in the functional paint, so that the sublimation rate of the functional paint according to the working environment of waterproofing and anticorrosive construction The effect can be finely adjusted.

In addition, the phthalate-based sublimation regulator according to the present invention can use any one or more of the phthalates belonging to the phthalate-based, but when promoting the sublimation rate of the functional paint using a butyl dibutyl phthalate, the sublimation rate of the functional paint It is preferable to use dioctyl phthalate having a non-volatile property in order to reduce.

That is, the dibutyl phthalate has a low carbon value and has a volatility in the air. When mixed with a hydrocarbon coating agent, the dibutyl phthalate sublimes the hydrocarbon coating agent molecules while subliming together, so that the sublimation rate of the entire functional coating is slightly faster. The dioctyl phthalate exhibits the effect of slowing the sublimation rate of the hydrocarbon coating agent by catching the molecule of the hydrocarbon coating material having a carbon value higher than that of the dibutyl phthalate and being nonvolatile in the air with van der Waals force. .

In addition, the phthalate-based sublimation regulator of the present invention is preferably included in the functional paint, 10 to 50 v / v%, if the composition ratio of the phthalate-based sublimation regulator is less than 10 v / v%, the composition of the phthalate-based sublimation regulator The slight sublimation rate of the hydrocarbon coating agent by the phthalate-based sublimation regulator is difficult to control, and when it exceeds 50v / v%, the composition of the phthalate-based sublimation regulator is too high to impair the physical properties of the functional paint, and also to the functional paint. Since there is a possibility of inhibiting the surface properties of the intermediate agent located in the lower portion of the, it is preferable to maintain the composition ratio in the above range.

- Waterproof Swelling  And Pinhole phenomenon  Waterproof construction method for prevention-

Waterproofing method for preventing swelling and pinhole phenomenon of the waterproofing according to the present invention comprises a pre-treatment step (S100) for preparing the construction by washing and ground-adjusting the surface of the concrete structure; A primer process (S200) for applying a primer on the surface of the concrete structure treated with the pretreatment process (S100); A middle step (S300) of applying a middle water which is a waterproof material on an upper surface of the primer; And a post-treatment step (S400) for applying a functional paint for preventing swelling and pinholes of the waterproofing material on the upper surface of the intermediate agent (S300) treated the intermediate process (S300).

Specifically, the pre-treatment process (S100) to prepare the construction by washing the surface of the concrete structure and adjust the ground is waterproofing such as concrete roof and floor, water storage concrete structure, underground concrete structure, water purification plant, wastewater treatment plant, river bank, etc. By arranging the surface of a general concrete structure that requires anticorrosive treatment is a process for the primer applied in the following primer process (S200) to be closely adhered to the surface of the concrete structure.

In other words, the pre-treatment process (S100) physically removes foreign substances on the surface of the concrete structure, smoothes the surface and adjusts the surface, and if there are cracks or damaged parts on the surface, V-cut or polish them and then fill them with a sealing agent. By cleaning the surface of the concrete structure, the sealing agent may be used any one, but to increase the chemical bonding strength with the primer by using a chemical property that can be easily adhered to the primer of the primer process (S200). desirable.

In addition, the primer process (S200) for applying a primer on the surface of the concrete structure treated with the pretreatment process (S100) is a concrete agent surface solidity to give the main waterproofing and anticorrosive function to the surface of the concrete structure subjected to the pretreatment process (S100). As a treatment process for applying a primer for adhesion, it is a process of applying a general primer such as a general epoxy resin to a concrete structure surface with a predetermined thickness.

At this time, the coating thickness of the primer is the same as the general primer coating thickness, more preferably it is maintained at 30 ~ 70㎛ so that the primer can be evenly introduced into the pores formed on the surface of the concrete structure.

In addition, the intermediate process (S300) of applying a waterproofing agent to the upper surface of the primer (S300) is a process of applying the intermediate agent, which is a waterproofing agent that performs the main waterproofing-proof function to a predetermined thickness, the waterproofing agent is generally known epoxy resin Waterproof, anticorrosive intermediates containing polyurethane resins or polyurea resins are available.

At this time, the intermediate coating thickness of the intermediate process (S300) can be treated as a general thickness depending on the type of concrete structure waterproofing / corrosion resistant, but in order to realize the waterproofing and corrosion resistance smoothly to maintain the thickness within 0.5 ~ 3.5mm It is preferable.

In addition, the post-treatment step (S400) of applying the functional paint, which is the main technical idea of the present invention, is a step of applying a functional paint for preventing swelling of water and pinholes on the upper surface of the intermediate agent treated with the intermediate step (S300). As a method, it is a process of applying a liquid functional paint with a predetermined thickness in a general manner such as a roller method, a spray method or a spray method.

At this time, the detailed description of the functional paint will be replaced by the specific description of the functional paint for preventing the swelling and pinhole phenomenon of the waterproofing material, and in the coating thickness, it is preferable to process within 15 ~ 300㎛ on the upper surface of the middle agent. Do.

That is, if the thickness of the functional paint applied to the upper surface of the intermediate agent is less than 15 μm, the coating thickness is too thin, so that the effect of preventing the swelling and pinhole phenomenon of the waterproofing material by the functional paint occurs, and if it exceeds 300 μm, Since the coating thickness is too thick, the economy is inferior and the curing rate of the intermediate agent is delayed. Therefore, it is preferable to have the coating thickness within the above range.

In connection with the above, the waterproof construction method for preventing the swelling and pinhole phenomenon of the waterproofing according to the present invention is a certain functionality after the intermediate process (S300) and before the post-treatment process (S400). It may be configured to include a top coat step (S310) for applying a coating having on the upper surface of the intermediate.

At this time, the coating agent of the top coat process (S310) may be used any coating agent for improving the functionality, such as UV protection, water resistance, heat insulation or sound insulation, etc., the surface of the concrete structure to be waterproof-exposed to the outdoors In this case, it is preferable to use a coating agent composed of a polyurea resin mixture containing a sunscreen material. The coating agent made of the polyurea resin mixture including the UV blocking material may obtain an effect of solving the problem that the middle agent of the intermediate process (S300) is discolored and damaged by sunlight, chemicals or weathering.

In addition, the coating agent made of a polyurea resin mixture including the sunscreen material may be applied to the upper surface of the intermediate agent by a general method, the coating thickness may have a general one, but preferably has a thickness of 150 ~ 300㎛ Do. At this time, if the coating thickness is less than 150㎛, a problem that the functional improvement effect by the coating agent is insignificant occurs, and when it exceeds 300㎛, the functional improvement effect is excellent but the coating thickness is too thick so that the coating layer may be peeled from the intermediate agent Since concerns arise, it is desirable to maintain a coating thickness within this range.

The following is a preferred embodiment of the waterproof construction method using a functional paint for preventing swelling and pinhole phenomenon of the waterproofing material of the present invention.

1. Pretreatment Process (S100)

-Clean the roof of the building, find the cracks, cut V and seal it with bisphenol A epoxy before pretreatment.

2. Primer process (S200)

60 g of a bisphenol A epoxy resin mixture in which 95 g of bisphenol A epoxy resin containing 60 wt% of water and 5 g of silica are mixed on the roof surface of the pretreatment step (S100); 23 g of an epoxy polyamine mixture obtained by mixing 95 g of epoxy polyamine and 5 g of silica; A primer mixed with 17 g of alcohol was applied to a thickness of 50 μm.

3. Intermediate process (S300)

The polyurea (Samhwa Paint, Super Tech U-285), which is an intermediate agent, is uniformly applied to the primer upper surface of the roof surface of the primer process (S200) to a thickness of 2 mm.

4. Post Treatment Process (S400)

A functional paint obtained by stirring and mixing 8 liters of kerosene and 2 liters of dibutyl phthalate (DBP) on the upper surface of the intermediate treated by the intermediate process (S300) was applied by a spray method with an average coating thickness of 300 μm to complete waterproof construction.

Thereafter, the completed roof waterproofing part is naturally dried under a temperature condition of 25 ° C. for 12 hours to cure the intermediate and to sublime the functional paint.

Functional paint for preventing the swelling and pinhole phenomenon of the waterproofing material of the present invention as described above is applied to the upper surface of the intermediate material which is a waterproofing material corresponding to the main composition of the waterproofing-type concrete structure, by adjusting the curing rate of the intermediate In addition, it is possible to reduce the damage of waterproofing and anticorrosive materials of concrete structures due to swelling and pinhole phenomenon of intermediate agent, and thus to provide more durable waterproof and anticorrosive construction of concrete structures. .

The above has been described with reference to a preferred embodiment of the present invention, but is not limited to the above embodiment, the person having ordinary skill in the art to which the present invention pertains through the above embodiments without departing from the gist of the present invention Can be implemented in a variety of changes.

S100: Pretreatment Process
S200: Primer process
S300: Intermediate Process
S310: Top coat process
S400: Post Treatment Process

Claims (7)

90-50 v / v% of hydrocarbon type coating agent which consists of any one or more of kerosene or light oil whose carbon number of a carbon chain is 9-23;
Phthalate-based sublimation regulator 10-50 v / v% consisting of any one or more of dibutyl phthalate or dioctyl phthalate; functional paint for preventing swelling and pinhole phenomenon of the waterproofing.
delete delete A pretreatment step (S100) of preparing the construction by washing and ground-adjusting the surface of the concrete structure;
Primer process (S200) for applying a primer on the surface of the concrete structure treated with the pretreatment process (S100);
A middle step (S300) of applying a middle water which is a waterproof material on an upper surface of the primer;
And a post-treatment step (S400) of applying the functional paint according to claim 1 to prevent swelling and pinholes of the waterproofing material on the upper surface of the intermediate agent which has been subjected to the intermediate process (S300). Waterproof construction method to prevent swelling of water and pinhole phenomenon.
delete 5. The method of claim 4,
Functional paint at the time of the post-treatment step (S400),
Waterproof construction method for preventing the swelling and pinhole phenomenon of the waterproofing water, characterized in that configured to be applied to a thickness of 15 ~ 300㎛ on the upper surface of the middle agent.
5. The method of claim 4,
After the intermediate process (S300),
After the intermediate process (S300) further comprises a top coat process (S310) of coating a coating agent made of a polyurea resin mixture containing a sunscreen material to a thickness of 150 ~ 300㎛ on the upper surface of the treated middle agent (S310), the post-treatment Process (S400) waterproof construction method for preventing swelling and pinhole phenomenon of the waterproofing, characterized in that configured to be processed.

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