KR102317388B1 - Compound Waterproof Anti-Robbery Additive Method Using Oil/Inorganic Eco-Friendly Acrylic High Elastic Coating Waterproofing Agent - Google Patents

Abstract

The present invention relates to a composite waterproofing and root penetration-resistant stacking method using an organic/inorganic eco-friendly acrylic high-elastic coating waterproofing agent, which strengthens durability of a concrete structure, comprising the steps of: (a) forming a primer layer; (b) applying an organic/inorganic eco-friendly acrylic high-elastic composite coating waterproofing agent; (c) curing/solidifying the organic/inorganic eco-friendly acrylic high-elastic composite coating waterproofing agent; (d) stacking a nonwoven fabric; (e) forming a ceramic sheet; and (f) greening the roof.

Description

Compound Waterproof Anti-Robbery Additive Method Using Oil/Inorganic Eco-Friendly Acrylic High Elastic Coating Waterproofing Agent

The present invention prevents the intrusion of water by penetrating the primer into the slab of a concrete structure (the bottom surface of the roof) and prevents the intrusion of chlorine ions and carbon dioxide gas, which cause deterioration, in advance, thereby implementing a waterproofing and greening system while implementing a concrete structure. It can maintain durability without damaging it, and by strengthening the durability of the concrete structure using a primer and improving the adhesion between the waterproofing layer and the concrete structure by penetrating deep into the micropores from the surface to the bottom of the concrete structure, the organic/inorganic eco-friendly It is possible to prevent peeling and lifting of the acrylic high-elasticity coating composite waterproofing layer, and by impregnating the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent with a glass fiber mesh, the tensile strength of the coating agent is improved, and adhesion and adhesion to the floor are maximized. By making the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproof layer adhere and fix the non-woven fabric to the top surface of the well-aged coating layer, the ceramics coating agent is completely impregnated into the non-woven fabric mat and cured in a two-layer structure. By shortening the construction period by the simplified ceramic sheet forming process with a two-layer structure, labor and construction costs can be saved, and waterproofing using a waterproof sheet. By applying the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent to the junction where the roots of vegetation are the most vulnerable in the rooting method, and installing a ceramic sheet including non-woven fabric on the top, it is possible to improve not only waterproofing but also the rooting performance. This is a technology related to a composite waterproofing and rustproofing lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent.

Concrete structures inevitably lose their durability over time. In other words, due to environmental changes in temperature and humidity, fatigue increases due to repeated contraction and expansion. Cracks in the structure, peeling of exterior materials, and corrosion of reinforcing bars in concrete accelerate the deterioration of the durability of the building. am.

In addition, cracks in concrete deteriorate the performance of waterproofing materials and cause leakage of structures due to cracks.

Therefore, the durability of the structure can be maximized by using an appropriate waterproofing agent, and deterioration of the structure can be prevented to a large extent.

Recently, an artificial ground reforestation system that forms a waterproofing layer and creates a green space in various structures has been widely applied, and it is possible to create a green area on the roof portion of a concrete structure, a slab, or the like.

If moisture or plant roots penetrate after the artificial ground greening system is installed, the durability of the structure may be greatly reduced. Accordingly, if the artificial ground greening system is applied, it is waterproof. A process for improving anti-corrosive properties is performed.

When a waterproofing agent is applied, tensile strength, elongation, adhesive strength, weather resistance, etc., which are the basic functions essential for a waterproofing agent, are not balanced with each other. Due to the change in physical properties according to the repetition rate of contraction and expansion, even the durability of the structure is raised.

In general, creating green spaces on the top of concrete structures, rooftops, slabs, and underground parking lots is a new alternative to secure eco-friendly space in urban spaces where green space is insufficient.

However, in the case of creating artificial greenery on the structure, more delicate waterproofing is essential as problems due to plant growth may be raised.

Also, no matter how good a building is, there are buildings in which abnormal signs are discovered shortly after completion. Among them, the problem of water leakage is pointed out as the most chronic problem, and since this leakage does not stop naturally, the problem is complicated enough that it has to be done from leak inspection to repair work and remodeling. This is because there is a technical limit to the waterproof construction of the concrete structure constituting the green zone.

Even if the foundation construction is technically perfect, when a plant such as a tree grows on the top of the concrete as it grows, its roots will invade the concrete and create cracks and water will leak through them. Because it cannot prevent penetration, this is a situation that consists of damage to the structure and leakage.

Therefore, it is possible to maintain the durability of the concrete structure without compromising the durability of the concrete structure while implementing the waterproofing and greening system, to prevent peeling and lifting of the organic/inorganic eco-friendly acrylic high-elasticity composite waterproofing layer, and to completely impregnate the ceramics coating agent into the nonwoven mat and harden it. It is possible to construct the ceramic sheet that makes it into a two-layer structure, and it is possible to save labor and construction costs by shortening the construction period by a simplified ceramic sheet forming process with a two-layer structure, and waterproofing using a waterproof sheet. In the anti-corrosion method, the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent is applied to the junction where the roots of vegetation are most vulnerable and a ceramic sheet including a non-woven fabric is installed on top of it, which can improve not only waterproofing but also the rooting performance. The development of a composite waterproofing and rustproofing lamination method using an inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent is urgently required.

KR 10-2018-0112438 (2018. 10. 12)

Accordingly, the present invention was conceived to solve the above problems, and by penetrating the primer into the concrete structure slab (the bottom surface of the roof) to prevent the intrusion of water, and by preventing the intrusion of chlorine ions and carbon dioxide gas, which cause deterioration, in advance. An object of the present invention is to provide a composite waterproofing and rustproofing lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent that can maintain the durability of concrete structures while implementing a waterproofing and greening system.

It is also an object of the present invention to improve the adhesion between the waterproof layer and the concrete structure by enhancing the durability of the concrete structure using the primer and the primer penetrating deep into the micropores from the surface to the bottom of the concrete structure. An object of the present invention is to provide a composite waterproofing and rustproof lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent that can prevent peeling and lifting.

Another object of the present invention is to improve the tensile strength of the coating film by impregnating a glass fiber mesh into the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, and an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing layer with maximized adhesion and adhesion to the floor. Organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent that allows the ceramics sheet to be completely impregnated into the nonwoven mat and cured in a two-layer structure by bonding and fixing the nonwoven to the top surface of this well-aged coating layer An object of the present invention is to provide a composite waterproof and anticorrosive lamination method.

In addition, it is an object of the present invention to shorten the construction period by a simplified ceramic sheet forming process with a two-layer structure, thereby saving labor and construction costs. is to provide

In addition, an object of the present invention is waterproofing using a waterproof sheet. By applying the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent to the junction where the roots of vegetation are the most vulnerable in the rooting method, and installing a ceramic sheet including non-woven fabric on the top, it is possible to improve not only waterproofing but also the rooting performance. An object of the present invention is to provide a composite waterproofing and rustproof lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent.

In order to achieve the above object, the composite waterproofing anticorrosive lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent according to a preferred embodiment of the present invention for achieving the above object improves the durability of concrete after cleaning the concrete floor surface, and increases the surface reinforcement and adhesion. forming a primer layer by applying a primer (a); (b) applying an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent to a thickness of 2 to 3 mm on the primer layer; Impregnating a mesh network made of glass fibers with a thickness of 0.7 mm × width of 1000 mm on the coated surface, applying an organic/inorganic eco-friendly acrylic high-elasticity composite waterproofing agent on the top to a thickness of 2 to 3 mm, and curing/solidifying (c) and; (d) laminating a nonwoven fabric having a strong tensile force on the cured/solidified upper portion; forming a ceramic sheet by applying a ceramic coating agent, which is a waterproof anti-corrosion coating agent, to the upper surface of the laminated nonwoven fabric (e); pouring with a protective mortar to protect the formed ceramic sheet, forming a soil layer on the protective mortar, and planting various plants such as trees and flowers in the soil layer to green the roof (f); It is characterized in that it includes.

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In the present invention, in the step (c), the composition of the organic/inorganic eco-friendly acrylic high elasticity coating film composite waterproofing agent includes 45 parts by weight of a metal silanediol compound, 30 parts by weight of a polyethylene vinyl acetate (48% solids) emulsion, 5 parts by weight of distilled water and 20 parts by weight of vinyl methoxysilane, wherein the composition was mixed with an organic or inorganic sol-gel composition and a liquid solution obtained therefrom under an acid catalyst with 20 parts by weight of calcium carbonate, 2 parts by weight of zinc oxide, and 4 zeolite It is characterized in that it comprises a composition of 10 parts by weight, 10 parts by weight of permix, 2.5 parts by weight of bentonite, and 0.5 parts by weight of arbosil.

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In the present invention, in the step (e), the ceramic coating agent is in a sol state formed from a sol-gel composition of colloidal silica-silane, and (1) mixing MTMS and GPTMS, and colloidal Step (2) of adding and mixing formic acid to silica, step (3) of reacting the mixture of steps (1) and (2), and: an isopropyl alcohol (IPA) solvent in the reactant obtained from step (3) Dissolving by adding colloidal-characterized in that it includes those obtained through the step of including silica sol.

In the present invention, in the step (3), the reaction temperature starts at room temperature, and during the reaction process, exotherm naturally starts and gradually rises to 65 to 70 ℃, the reaction time is 10 to 14 hours, When a predetermined time elapses, the temperature is lowered again and the reaction is terminated.

The composite waterproofing and rustproofing lamination method using the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent according to the present invention exhibits the following effects.

First, the present invention prevents the intrusion of water by penetrating the primer into the slab of a concrete structure (the bottom surface of the roof) and prevents the intrusion of chlorine ions and carbon dioxide gas, which cause deterioration, in advance, thereby implementing a waterproofing and greening system while implementing concrete It is possible to maintain the durability of the structure without compromising it.

Second, the present invention provides an organic/inorganic eco-friendly acrylic high-elasticity coating film composite by strengthening the durability of a concrete structure using a primer and improving the adhesion between the waterproofing layer and the concrete structure by deeply penetrating the micropores from the surface to the bottom of the concrete structure. It is possible to prevent peeling and lifting of the waterproof layer.

Third, the present invention improves the tensile force of the coating film by impregnating a glass fiber net into the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, and the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing layer with maximized adhesion and adhesion to the floor surface By adhesively fixing the nonwoven fabric to the top surface of the well-aged coating layer, the ceramics coating agent can be completely impregnated into the nonwoven mat to be cured in a two-layer structure.

Fourth, the present invention can save labor and construction costs by shortening the construction period by the simplified ceramic sheet forming process with a two-stage structure.

Fifth, the present invention is waterproof using a waterproof sheet. By applying the organic/inorganic eco-friendly acrylic high-elasticity composite waterproofing agent to the junction where the roots of vegetation are most vulnerable in the rooting method, and installing a ceramic sheet including a non-woven fabric on the top, it is possible to improve not only waterproofing but also the rooting performance. .

1 is a view showing a composite waterproofing rustproof laminate structure using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent according to an embodiment of the present invention.
2 is a view showing a form in which a primer is laminated on a concrete floor according to an embodiment of the present invention.
3 is a view showing a sequentially laminated form of an organic/inorganic eco-friendly acrylic high-elasticity coating film composite waterproofing agent, a glass fiber mesh network, and an organic/inorganic eco-friendly acrylic high-elasticity coating film composite waterproofing agent on top of which a primer is laminated according to an embodiment of the present invention.
4 is a view showing the thickness of the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent of the upper and lower portions with a glass fiber mesh network therebetween according to an embodiment of the present invention.
5 is a view showing a form in which an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, a nonwoven fabric, and a ceramic coating agent are sequentially stacked according to an embodiment of the present invention.

Hereinafter, referring to a preferred embodiment of the present invention in conjunction with the accompanying drawings, it is as follows. In the description of the present invention, when it is determined that a detailed description of a related known technology or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof Description will be omitted, and the terms to be described later are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of the user or operator, so the definition is the present invention organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent It should be made based on the content throughout this specification describing the composite waterproofing and anticorrosive stacking method using

Hereinafter, a composite waterproofing rustproof lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a composite waterproofing anticorrosive laminate structure using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent according to an embodiment of the present invention, and FIG. 2 is a primer laminated on a concrete floor according to an embodiment of the present invention. 3 is an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, a glass fiber mesh network, and an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent sequentially on top of which a primer is laminated according to an embodiment of the present invention It is a view showing a laminated form, and FIG. 4 is a view showing the thickness of the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent of the upper and lower parts with a glass fiber mesh in between them according to an embodiment of the present invention, FIG. It is a view showing a form in which an organic/inorganic eco-friendly acrylic high-elasticity coating film composite waterproofing agent, a nonwoven fabric, and a ceramic coating agent are sequentially stacked according to an embodiment of the present invention.

As shown in FIGS. 1 to 5, the composite waterproofing rustproof lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent improves the concrete durability and increases the surface reinforcement and adhesion after cleaning the concrete floor. to form a primer layer (a) and; (b) applying an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent to an upper portion of the primer layer to a predetermined thickness; (c) impregnating the coated surface with a mesh mesh made of glass fibers, applying an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent on the upper part to a predetermined thickness, and curing/solidifying; (d) laminating a nonwoven fabric having a strong tensile force on the cured/solidified upper portion; A ceramic sheet forming step (e) by applying a ceramic coating agent, which is a waterproof anti-corrosion coating agent, to the upper surface of the laminated nonwoven fabric; and, after step (e), pouring with a protective mortar to protect the ceramic sheet, forming a soil layer on the protective mortar, and planting various plants such as trees and flowers in the soil layer to green the roof step (f); provide more

A detailed description of the composite waterproofing and rustproofing lamination method using the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent of the present invention is as follows.

First, after cleaning the concrete floor surface (UD100) well, the primer (UD200) is penetrated into the floor surface (UD100) to secure concrete durability, strengthen the surface to block moisture, and form a primer layer (a) As a result, the step (a) of forming the primer layer is usually constructed to strengthen the adhesive strength of the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent (UD300). may be improved.

In addition, the nonwoven fabric UD420 may be attached to the top of the primer layer formed by applying the primer UD200, and the ceramic coating agent UD500, which is a waterproof anti-corrosion coating agent, may be adhered to the primer layer on the nonwoven fabric UD420.

On the upper portion of the primer (UD200) layer, an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent (UD300) is applied to a predetermined thickness and impregnated with a mesh network (UD320) made of glass fiber, and organic/inorganic eco-friendly coating is applied on the upper part of the primer (UD200) layer. Applying an acrylic high elasticity coating composite waterproofing agent (UD300) to a predetermined thickness (step (b)), curing/solidifying step (c), and impregnating/fixing and aging the nonwoven fabric (UD420) on the upper surface of the step (c) It consists of a step (d) and a ceramic sheet forming step (e) in which the ceramic coating agent (UD500) is completely impregnated and cured in the nonwoven mat on the upper part of the step (d).

The composition and properties of the water-based organic/inorganic eco-friendly acrylic high-elasticity coating film composite waterproofing agent are described as an example belonging to the present invention.

The organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent contains 45 parts by weight of a metal silanediol compound, 30 parts by weight of a polyethylene vinyl acetate (48% solids) emulsion, 5 parts by weight of distilled water, and 20 parts by weight of vinyl methoxysilane, 20 parts by weight of calcium carbonate, 2 parts by weight of zinc oxide, 4 parts by weight of zeolite, 10 parts by weight of permix, 2.5 parts by weight of bentonite, , Arbosil will be formed in a composition of 0.5 parts by weight.

The organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent penetrates into the micropores of the concrete structure, improves the adhesion between the waterproofing layer and the concrete structure, prevents peeling and lifting of the waterproofing layer, and the watertightness and resistance of the waterproofing layer itself By improving durability such as cracking resistance, water resistance, chemical resistance, and alkali resistance, it is possible to strengthen the durability of concrete structures.

Hereinafter, a preferred embodiment of the present invention will be described, but the following description is only an embodiment, and the present invention is not limited thereto.

As shown in FIG. 2, the composite waterproofing rustproof lamination method using the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent of the present invention is a concrete surface by applying a primer (UD200) to the concrete floor surface (UD100) that has been well arranged on the concrete floor surface. is a step (a) of strengthening and forming a primer layer.

As shown in FIG. 3, an organic/inorganic eco-friendly acrylic high-elasticity coating film composite waterproofing agent (UD300) and a glass fiber mesh network (UD320) and an organic/inorganic eco-friendly acrylic high-elasticity coating film composite waterproofing agent (UD300) on top of which a primer (UD200) is laminated (UD300) are sequentially stacked.

As shown in FIG. 4, the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent (UD300) is applied to the concrete floor surface (UD100) to which the primer (UD200) has been applied in a thickness range of 2 to 3 mm and 1 to 1.5 mm. After impregnating the glass fiber mesh network (UD320) on the top (step (b)) applied to the surface, apply an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent (UD300) to the surface with a thickness of 1 to 1.5 mm in a range of 2 to 3 mm. It is re-applied, aged and solidified (step (c)).

Here, the glass fiber coating layer has a function of protecting the waterproof layer from external impact, and by securing the tensile force of the coating film, the moment of bending during the behavior of the concrete floor (UD100) is absorbed by some elastic coating layers, and the wavelength of vibration is reduced. By weakening it, it is possible to reduce cracks due to behavior, and also to prevent damage to the waterproof coating film due to thermal expansion and contraction, and damage to the ceramic coating agent (UD500), which is a waterproof anti-corrosion coating agent.

In an embodiment belonging to the present invention, the glass fiber mesh network has a standard of 0.7mm in thickness × 1000mm in width.

The process from step (a) to step (c) provides a non-exposed double composite waterproofing method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, and creating greenery on the top surface of the non-exposed composite waterproofing layer As shown in Figure 3, on the base surface (UD300) of the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing layer to which the elastic organic/inorganic eco-friendly acrylic high-elasticity coating film composite waterproofing agent is applied, attach a non-woven fabric (UD420) to the surface. The aging step (d) and the ceramics sheet for completely impregnating and curing the ceramics coating agent (UD500), which is a waterproofing anticorrosion coating agent, on the nonwoven fabric layer (UD420) on the nonwoven fabric (UD420) is a corrosion protection coating step (e) to form a glass coating film done,

The ceramics, in one embodiment of the present invention, 37 to 43% by weight of alkoxysilanes, 25 to 29% by weight of corodal silica, 0.32 to 036% by weight of formic acid, 28 to 34% by weight of isopropyl alcohol, and the alkoxy The silanes are 3-glycidoxypropyl-trimethoxysilane (GPTMS) 10-30 mol% and methyl-trimethoxysilane (MTMS) 70-90 mol%, flame-resistant, anti-corrosive, anti-rust, non-flammable, Provided is a sol-gel composition of colloidal silica-silane for preventing neutralization.

In addition, the ceramic coating agent is in a sol state formed from the above-described colloidal silica-silane sol-gel composition, which may be obtained through the following steps.

(1) mixing MTMS and GPTMS: (2) adding and mixing formic acid to colloidal silica: (3) reacting the mixture of 1 and 2 above: and (4) obtained from (3) above The step of dissolving by adding isopropyl alcohol (IPA) to the reactant is: In step (3), the reaction temperature is at room temperature, and exotherm naturally starts during the reaction process and gradually rises to 65-70°C. A total of 10 to 14 hours is sufficient for the reaction time, and when a certain period of time has elapsed, the temperature is lowered again, thereby confirming the completion of the reaction.

After completion of the reaction, if isopropyl alcohol solvent is added thereto, a ceramic coating agent of ceramic porima containing colloidal-silica sol can be obtained. A composition for anticorrosion, flame resistance, or anti-neutralization may be provided.

In step (f), it is preferable to pour with a protective mortar to protect the ceramic sheet, and a soil layer is formed on the protective mortar, and various plants such as trees and flowers are planted in the soil layer to green the roof.

In addition, the numerical value of the above standard may vary depending on the conditions of the site.

As described above, the composite waterproofing and rustproofing lamination method using the organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent can be applied and used in the waterproofing and rustproofing field of concrete structures, and thus its use and applications are wide.

The best embodiment has been disclosed in the drawings and the specification, and the terms used herein are only used for the purpose of describing the present invention, and are not used to limit the meaning or the scope of the present invention described in the claims. Therefore, various modifications and equivalent other embodiments will be possible therefrom by those skilled in the art, and therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

UD100: Bottom UD200: Primer
UD300: Paint film waterproofing agent UD320: Glass fiber mesh
UD420 : Non-woven UD500 : Ceramic coating agent

Claims (7)

In a composite waterproofing rustproof lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent,
Forming a primer layer by applying a primer to improve concrete durability and increase surface reinforcement and adhesion after cleaning the concrete floor (a);
(b) applying an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent to a thickness of 2 to 3 mm on top of the primer layer;
Impregnating a mesh mesh made of glass fibers with a thickness of 0.7 mm × width of 1000 mm on the coated surface, applying an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent on the top to a thickness of 2 to 3 mm, and curing/solidifying (c) and;
(d) laminating a nonwoven fabric having a strong tensile force on the cured/solidified upper portion;
A ceramic sheet forming step (e) by applying a ceramic coating agent, which is a waterproof anti-corrosion coating agent, to the upper surface of the laminated nonwoven fabric;
pouring with a protective mortar to protect the formed ceramic sheet, forming a soil layer on the protective mortar, and planting various plants such as trees and flowers in the soil layer to green the roof (f); A composite waterproofing and rustproofing lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, comprising: delete delete The method of claim 1,
In the step (c), the composition of the organic/inorganic eco-friendly acrylic high elasticity coating film composite waterproofing agent comprises 45 parts by weight of a metal silanediol compound, 30 parts by weight of a polyethylene vinyl acetate (48% solids) emulsion, 5 parts by weight of distilled water, 20 parts by weight of vinyl methoxysilane, and 20 parts by weight of calcium carbonate, 2 parts by weight of zincide, 4 parts by weight of zeolite, and permix in an organic/inorganic sol-gel composition and a liquid solution obtained therefrom under an acid catalyst. 10 parts by weight, 2.5 parts by weight of bentonite, and 0.5 parts by weight of arbosil A composite waterproofing and rust-proof lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, characterized in that it comprises a composition. delete The method of claim 1,
In the step (e), the ceramic coating agent is in a sol state formed from a sol-gel composition of colloidal silica-silane, and includes a step (1) of mixing MTMS and GPTMS, and formic acid added to colloidal silica. (2) mixing, (3) reacting the mixture of steps (1) and (2): Add isopropyl alcohol (IPA) solvent to the reaction product obtained from step (3) to dissolve it Hidal- A composite waterproofing rustproof lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, characterized in that it includes what is obtained through a step of including silica sol. 7. The method of claim 6,
In step (3), the reaction temperature starts at room temperature, and during the reaction process, exotherm naturally starts and gradually rises to 65 to 70° C., the reaction time is 10 to 14 hours, and when a predetermined time elapses A composite waterproofing and rustproof lamination method using an organic/inorganic eco-friendly acrylic high-elasticity coating composite waterproofing agent, characterized in that the temperature is lowered again and the reaction is terminated.

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