KR100958065B1 - Construction method using waterproof sheet - Google Patents

Abstract

The present invention relates to a waterproof construction method using an improved asphalt waterproof sheet, and more specifically, the upper asphalt compound enhances heat resistance and tensile strength to minimize breakage of the waterproof sheet due to external impact, and the lower asphalt compound has flexibility and By strengthening the adhesive force to be able to adhere the compound to the primer layer as it is without applying heat, to have a resistance to cracks when cracks in the concrete matrix, and to apply a liquid coating material to the joint of the waterproof sheet to excellent water-tightness It is.

Improved asphalt waterproof sheet, compound, core material, liquid coating material

Description

Waterproof construction method using improved asphalt waterproof sheet. {CONSTRUCTION METHOD USING WATERPROOF SHEET}

The present invention relates to a waterproof construction method using an improved asphalt waterproof sheet, and more specifically, the upper asphalt compound enhances heat resistance and tensile strength to minimize breakage of the waterproof sheet due to external impact, and the lower asphalt compound has flexibility and By strengthening the adhesive force to be able to adhere the compound to the primer layer as it is without applying heat, to have a resistance to cracks when cracks in the concrete matrix, and to apply a liquid coating material to the joint of the waterproof sheet to excellent water-tightness It is.

Waterproofing methods for general building structures include improved asphalt sheet waterproofing, urethane film waterproofing, liquid waterproofing, and asphalt waterproofing.

Among them, the improved asphalt sheet waterproofing method is to connect the waterproof sheet of a certain standard to obtain a waterproof effect, and was used by directly heating and melting and bonding the waterproof sheet, and the joints of the waterproof sheet can be seen in FIG. 1. As it was, the waterproof sheet was used in a manner of overlapping the construction 10cm.

However, in the above method, after removing the film under the improved asphalt compound, it is required to directly heat it using a torch, etc., and then attach the waterproof sheet to the concrete matrix using the molten asphalt compound. Due to the damage of the waterproof sheet, or due to the poor heat due to the incomplete adhesion of the overlapping portion of the waterproof sheet and the waterproof sheet (air pockets) has caused a leak. In addition, the use of fire directly causes a lot of risk factors such as fire and burns, which lowers the efficiency of the work.As the asphalt waterproof sheet is constructed continuously by overlapping the waterproof sheet joints, there is no leakage at the site of water leakage in the event of a fault. There was a problem that it is not easy to find the leaking part because the leak is moved. In addition, there was a problem that the lifting and leakage of the waterproof sheet caused by poor adhesion of the asphalt primer by moisture.

In addition, the improved asphalt waterproof sheet used in the above method has a total thickness of 3 mm and is bonded to the upper and lower parts with the same asphalt compound with a polypropylene woven or nonwoven fabric interposed therebetween, and a high density polyethylene (HDPE) film at the uppermost part and polyethylene (lower part). PE) thin film was attached and used, and the primer was used by dissolving the solvent in blown asphalt.

However, the asphalt primer as described above prevents moisture from contacting from the top, but the effect of blocking the moisture from the concrete matrix is much lowered, and the asphalt primer does not penetrate into the matrix and is applied only to the surface, and the barrier of moisture is weak. It is the cause of providing the lifting phenomenon. In addition, the general asphalt primer is to be constructed at less than 8% concrete matrix moisture content, and is forcibly dried using a torch, etc. to remove the concrete matrix moisture, thereby causing a loss of fuel and labor costs.

Another waterproof method is the waterproofing method of the film. The most widely used method of waterproofing the coating is a urethane coating waterproofing method, the urethane coating waterproofing is characterized in that the transport and construction of the material is simple, but it is difficult to secure the thickness during the coating work of the urethane coating waterproofing material There was a problem that the smoothness of the required. That is, when the coating film waterproofing method is not good, there is a problem that the weak portion of the liquid film waterproofing material is generated, as shown in Figure 2, the urethane waterproof material is easily affected by moisture and temperature, in Figure 3 As described above, defects such as swelling, cracking, and peeling of the waterproofing film are frequently generated according to weather conditions and moisture content of the concrete matrix.

Therefore, in order to solve the above problems, a composite waterproofing method has been developed that improves the disadvantages of sheet waterproofing and coating waterproofing. As an example, there is a registered patent No. 47789. The pre-registered patent, as can be seen in Figures 4 and 5, after applying the asphalt primer, attach a waterproof sheet having a non-woven fabric layer on the top spaced apart at regular intervals and the liquid coating material between the waterproof sheet Reinforcement is applied to the liquid coating film on top, but this method is difficult to find the leaking part as the leaking part is moved and the leaking part is not made at the leaking part due to the poor adhesion of the waterproof sheet. There was this.

In addition, there is a risk of water leakage prevention effect and watertightness deteriorated with the use of reaction-curable synthetic resin of heterogeneous materials between the waterproof sheets and the joints of the waterproof sheets. Under the condition of the shrinkage phenomenon of the waterproof sheet, the phenomenon of bending and dropping of the joint occurs, another defect occurs.

Therefore, the present invention is a general problem of the above-described conventional waterproofing method, the problem of water leakage between the joint between the waterproof sheet and the air pocket between the joint, the problem of damage of the waterproof sheet due to the use of firearms of the waterproof sheet, weakening the adhesive strength of the asphalt primer and concrete This is to overcome the problem of poor adhesion of the waterproof sheet due to the moisture of the mother body and the difficulty of finding a defective part in case of water leakage.The upper asphalt compound minimizes the damage of the waterproof sheet due to external impact by enhancing the heat resistance and tensile strength. In addition, the lower asphalt compound is to provide improved asphalt waterproof sheet that can be bonded to the primer layer as it is without applying heat by strengthening the flexibility and adhesion, and has a resistance to cracks in the occurrence of cracks in the concrete matrix.

It is another object of the present invention to provide a waterproofing method using an improved asphalt waterproof sheet which prevents leaking and lifting of the joints, which are weak parts of the waterproof sheet, by applying a liquid coating material to the joints to prevent air pockets from occurring. have.

Another object of the present invention is to use the improved asphalt waterproof sheet that provides the convenience of construction by reducing the lifting phenomenon of the improved asphalt waterproof sheet by using a primer impregnated in the concrete matrix and having a curing and adhesive force by reacting with the mother water To provide a waterproof method.

Waterproof construction method using the improved asphalt waterproof sheet according to the present invention for achieving the above object,
An upper asphalt compound is formed on the upper part of the core material, a lower asphalt compound is formed on the lower part, a finishing layer is formed on the upper part of the upper asphalt compound, and an improved asphalt waterproof sheet formed by attaching a release film to the lower part of the lower asphalt compound. In the waterproof method used,
Applying an asphalt primer to the concrete base layer to form a primer layer,
Attaching it to the primer layer while removing the release film of the improved asphalt waterproof sheet;
Applying a liquid coating material to the joints of the improved asphalt waterproof sheet;
And removing the release film of the other improved asphalt waterproof sheet to partially overlap another waterproof asphalt waterproof sheet attached to the primer layer, and attaching it to the primer layer,
The upper asphalt compound of the improved asphalt waterproof sheet is composed of 50 to 78% by weight of asphalt, 2 to 20% by weight of process oil, 8 to 15% by weight of synthetic rubber, 2 to 10% by weight of synthetic resin, and 10 to 30% by weight of inorganic additives. , The lower asphalt compound is 40 to 68% by weight asphalt, 19 to 35% by weight process oil, 8 to 15% by weight synthetic rubber, 0.5 to 5% by weight polymer modifier, 2 to 10% by weight tackifier, inorganic additives 2 ~ 10 wt% and 0.5-10 wt% of a compatibilizer, wherein the core material is one selected from polyester nonwoven fabric, polypropylene (PP) woven fabric, and polyethylene terephthalate (PET) film, and the polymer modifier is a thermoplastic elastomer. ,

The primer is 30 to 65% by weight of solvent, 27 to 55% by weight of asphalt, 1 to 5% by weight of polymer modifier, 0.1 to 1% by weight of compatibilizer, 2 to 10% by weight of water-curable resin, 2 to 10% by weight of adhesive strengthening agent, and It is characterized in that it becomes 2.9 to 10% by weight of the viscosity modifier.

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According to the waterproofing method using the improved asphalt waterproof sheet of the present invention, the upper asphalt compound to strengthen the heat resistance and tensile strength to minimize the damage of the waterproof sheet due to the external impact, the lower asphalt compound to strengthen the flexibility and adhesion to heat Compounds can be adhered to the primer layer without addition, and have useful effects such as resistance to cracks when cracking of the concrete matrix occurs.

In addition, by applying a liquid coating material to the joints of the improved asphalt waterproof sheet to prevent air pockets from occurring, it prevents leakage and lifting of the joints, which are weak parts of the waterproof sheet, and impregnates with the concrete matrix to react with the mother water. By using a primer that has a hardening and adhesive strength to reduce the lifting phenomenon of the improved asphalt waterproof sheet provides construction convenience.

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

First, the improved asphalt waterproof sheet 10 according to the present invention, as can be seen in Figure 6, the core material 11, the upper asphalt compound 12, the finishing layer 13, the lower asphalt compound 14 and the release film It consists of 15 pieces.

Unlike the conventional waterproof sheet, the improved asphalt waterproof sheet 10 is different from the asphalt compound of the upper and lower layers to improve the performance as the waterproof sheet, and also to adhere to the primer layer 20 without directly applying heat. It is possible to use any one of polyester nonwoven fabric, polypropylene (PP) woven fabric, and polyethylene terephthalate (PET) film. In addition to the above, if the asphalt compound can be formed on the upper and lower portions, the material is not limited.

And the upper asphalt compound 12 is formed on the upper portion of the center material 11, the upper asphalt compound 12 is to strengthen the heat resistance and tensile strength than the conventional asphalt compound. Strengthening the heat resistance and tensile strength of the upper asphalt compound 12 is to minimize the damage of the waterproof sheet against external impact.

For this purpose, the upper asphalt compound 12 is composed of 50 to 78% by weight of asphalt, 2 to 20% by weight of process oil, 8 to 15% by weight of synthetic rubber, 2 to 10% by weight of synthetic resin, and 10 to 30% by weight of inorganic additives. It is preferable.

The asphalt, which is one of the components constituting the upper asphalt compound 12, is for waterproofing and rustproofing performance of the asphalt compound 12, and a kind thereof uses a conventional straight asphalt, specifically, AP- Use 3 or AP-5.

And since the asphalt is blended in 50 to 78% by weight, the asphalt compounding ratio is less than 50% by weight of the asphalt's inherent waterproof performance and rust preventive performance is not good, when it exceeds 78% by weight because the low temperature characteristics are weakened .

The process oil is to ensure the waterproof performance and fluidity, the type can be used for all petroleum, coal-based, vegetable-based oil, the petroleum and coal-based oil can be used aromatic, naphthenic, paraffinic, etc. As the vegetable oil, linseed oil, soybean oil, linseed oil, rice bran oil and the like can be used. The process oil is blended at 2 to 20% by weight, because when the blending ratio of the process oil is less than 2% by weight, it is difficult to form a compound, and when it exceeds 20% by weight, the physical properties required for waterproofing are lowered. to be.

And synthetic rubber is to impart low temperature elasticity and high temperature durability, styrene-butadiene-styrene rubber (SBS), styrene-isoprene-styrene rubber (SIS), styrene-butadiene rubber (SBR) system can be used, Synthetic rubber is compounded in 8 to 15% by weight, which is a small amount when the compounding ratio of the synthetic rubber is less than 8% by weight, there is a problem that can not expect the effect of the desired product properties, if the content exceeds 15% by weight This is because there is a problem that the workability is reduced and the price of the product is increased.

As the synthetic resin, C-9-based petroleum resin, C-5-based petroleum resin, or a kind of coumarone resin may be used, and by adding synthetic resin, it serves as heat resistance and adhesive reinforcement. The synthetic resin is blended in 2 to 10% by weight, which is a small amount when the compounding ratio of the synthetic resin is less than 2% by weight, there is a problem that it is difficult to expect the effect of the desired product properties, when the content exceeds 10% by weight of the flexibility of the product This is because there is a problem that the price is lowered and the price of the product is increased.

Inorganic additives are used to reduce cost and increase physical strength. Examples of the inorganic additives include calcium carbonate (heavy carbon, hard coal), talc, mica, clay, bentonite, slaked lime and cement. The inorganic additive is blended at 10 to 30% by weight, which means that when the blending ratio of the inorganic additive is less than 10% by weight, the cost reduction and strength increase effect is very low, making it difficult to manufacture a product having excellent price competitiveness, and when it exceeds 30% by weight, adhesive strength This is because it is weakened and a product of excellent physical properties cannot be produced.

The finishing layer 13 is formed on the upper portion of the upper asphalt compound 12 as described above, the finishing layer 13 uses a high density polyethylene (HDPE) film as in the conventional asphalt waterproof sheet.

In addition, the lower asphalt compound layer 14 and the release film 15 are formed at the lower portion of the central material 11. The lower asphalt compound 14 is an asphalt compound having enhanced adhesion and flexibility unlike the upper asphalt compound 12. to be.

To this end, the lower asphalt compound 14 is 40 to 68% by weight asphalt, 19 to 35% by weight process oil, 8 to 15% by weight synthetic rubber, 0.5 to 5% by weight polymer modifier, 2 to 10% by weight tackifier, 2-10 weight% of inorganic additives and 0.5-10 weight% of compatibilizers. Hereinafter, a description of the role of the composition described in the upper asphalt compound 12 will be omitted.

The asphalt is 40 to 68% by weight of the blending bar, if the blending ratio is less than 40% by weight can not exhibit the waterproofing and rustproof performance inherent in the asphalt, if it exceeds 68% by weight can not enhance the flexibility.

The process oil is blended at 19 to 35% by weight, because when the blending ratio of the process oil is less than 19% by weight, it is difficult to improve the fluidity, and when it exceeds 35% by weight, the physical properties are lowered.

And synthetic rubber is mixed by the same compounding ratio as the upper asphalt compound 12.

The polymer modifier is for reinforcing the elasticity, viscosity, durability, etc. of the waterproof sheet, the type of thermoplastic elastomer can be used, such as ethyl-vinyl-acetate (EVA), atactic polypropylene (APP), amorphous Polyolefin (APAO), polyethylene (PE), polypropylene (PP) and the like can be used. The polymer modifier is blended at 0.5 to 5% by weight, but when the blending ratio of the polymer modifier is less than 0.5% by weight, the effect as a modifier is very weak, so that the heat resistance and cold resistance are not sufficiently exhibited. Because it rises.

In addition, the tackifier is for improving the adhesiveness of the compound, and polybutene, rosin, and other tachypierre may be used as the kind. Since the tackifier is blended at 2 to 10% by weight, the compounding ratio of the tackifier is less than 2% by weight, and the effect is insignificant. .

The inorganic additive is blended at 2 to 10% by weight, because the compounding ratio of the inorganic additive is less than 2% by weight, the cost reduction effect is very low, and when it exceeds 10% by weight, the adhesion is not good.

In addition, a release film 15 is formed below the lower asphalt compound 14, which is to protect the adhesive force of the lower asphalt compound 14, and when the improved asphalt waterproof sheet 10 is stored in a roll form. The improved asphalt waterproof sheet 10 is to prevent the bonding. And during the construction of the improved asphalt waterproof sheet 10 is used to remove the release film (15). The release film 15 may use a PE film and the like, and may also use a separate release paper, and the shape and type thereof are not limited.

The compatibilizer is used to maximize the compatibility between asphalt and process oils and modifiers, and the kind may be PT-423, PT-743, etc. of Hudson Asphalt USA. And since the compatibilizer is blended 0.5 to 10% by weight, if the compounding ratio of the compatibilizer is less than 0.5% by weight, the effect is insignificant, and if it exceeds 10% by weight, the manufacturing cost increases.

Unlike the conventional waterproof sheet, the improved asphalt waterproof sheet 10 as described above has excellent heat resistance and tensile strength through the upper asphalt compound 12, thereby minimizing the breakage of the waterproof layer against external impact, and the lower portion is flexible. It is to have a resistance to cracks in the occurrence of cracks in the concrete matrix through the lower asphalt compound 14 to strengthen the adhesion and adhesion.

In addition, since the lower asphalt compound 14 is damaged when the concrete matrix crack is generated, the upper asphalt compound 12 is maintained as it is to minimize the occurrence of defects.

In addition, since the improved asphalt waterproof sheet 10 according to the present invention strengthens the adhesive force of the lower asphalt compound 14 and adheres to the entire surface, the leaked part is easily found when the waterproof layer is damaged due to the external impact of the improved asphalt waterproof sheet 10. You can do it. In addition, the lower asphalt compound 14 according to the present invention is to be able to be bonded to the bottom layer without additional heat by strengthening the adhesive force.

Hereinafter, a waterproof method using the modified asphalt waterproof sheet 10 will be described with reference to the accompanying drawings. 7 is a cross-sectional view of the body when improved asphalt waterproof sheet according to the present invention, Figure 8 is a waterproof process chart according to the present invention.

First, an asphalt primer is applied to the concrete base layer S using a roller to form a primer layer 20 (S1).

Then, after a predetermined time has elapsed, prepare the improved asphalt waterproof sheet 10 described above, and attach the upper portion of the primer layer 20 while removing the release film 15 of the improved asphalt waterproof sheet 10 ( S2).

When the attachment (S2) is completed, the next improved asphalt waterproof sheet (10 ') is placed so as to overlap a portion of the already completed waterproof sheet 10, the liquid coating material 30 is applied to the joint (S3).

In this case, the liquid coating material 30 may be acrylic, asphalt, and urethane-based aqueous coating materials or sealants, urethane seal waterproofing materials, mastic waterproofing materials, waterproof sheet seal adhesives, and the like. And the liquid coating material 30 is to be applied to less than 5kg per 10m.

When the liquid coating material 30 is applied (S3) as described above, another improved asphalt waterproof sheet 10 ′ so that the waterproof sheet 10 attached to the primer layer 20 and a predetermined portion (about 10 cm) overlap. While removing the release film 15 of the waterproof sheet 10 'and attaches it to the primer layer 20 (S4).

And the above-described step (S3) (S4) is repeatedly constructed according to the width of the base layer (S) to complete the waterproof layer.

When the waterproof layer is completed, when all of the improved asphalt waterproof sheet 10 is bonded to the base layer (S), by applying additional pressed concrete on the upper (not shown) to complete the composite waterproofing method. Since the pressed concrete is constructed in the same form as the conventional waterproof sheet, its detailed description will be omitted.

As the primer used, 30 to 65% by weight of solvent, 27 to 55% by weight of asphalt, 1 to 5% by weight of polymer modifier, 0.1 to 1% by weight of compatibilizer, 2 to 10% by weight of water-curable resin, and 2 to 10 of adhesion hardening agent It is preferable that the weight% and the viscosity modifier be 2.9 to 10% by weight, in order to allow excellent adhesion to be exerted even on the wet side, unlike the general asphalt primer, and to improve the penetration into the concrete base layer (S). to be.

The solvent may be toluene, xylene, petroleum-based organic solvents, and the like. When the compounding ratio of the solvent is less than 30% by weight, the viscosity may be high, resulting in construction problems, resulting in labor cost loss and 65% by weight. If it exceeds, the solid content is too low, and there is a problem in forming a coating film of the actual asphalt primer.

And the asphalt serves as a base material to form a coating film in the primer, if the asphalt is less than 27% by weight, there is a problem for the thickness of the coating film and if the content exceeds 55% by weight, the asphalt content is too high to penetrate the concrete matrix This weakening and high viscosity may cause various problems in construction.

The polymer modifier is to improve the physical properties of the primer, the type may be used, such as polyethylene, polypropylene, ethyl vinyl acetate, when the modifier is less than 1% by weight less than 5% by weight improvement effect There is a problem of falling economic efficiency.

The compatibilizer may be used as described in the above compound, because when the compatibilizer is less than 0.1% by weight, the effect of the compatibilizer is insignificant and the production cost increases when it exceeds 1% by weight.

In addition, moisture-curable urethane, moisture-curable modified epoxy, moisture-curable modified urethane, etc. may be used as the moisture-curable resin. If the composition ratio of the moisture-curable resin is less than 2% by weight, the amount of the polymer is too small to exhibit sufficient physical properties. If it exceeds 10% by weight, there is a problem that the price of the product rises much more than necessary.

In addition, petroleum resins, C-9 petroleum resins, C-5 petroleum resins, copolymers, coumarone resins, etc. may be used as the adhesion strengthening agent. When the problem occurs in the adhesive strength and exceeds 10% by weight is used more than necessary because the price competitiveness is low, there is a problem that can interfere with the waterproof sheet attaching work after the uncomfortable walking after applying the primer.

The viscosity modifier is to provide the optimum working conditions by adjusting the viscosity according to the use place, time and construction site, process oil (naphthenic, paraffinic, aromatic) and di-octyl-phthalate (DOP) Resin, plastic plasticizers, etc. can be used. When the composition of the viscosity is less than 2.9% by weight, the effect of viscosity control is insignificant, and when the composition is more than 10% by weight, the viscosity is excessive.

Through the above construction method, it is possible to prevent damage to the improved asphalt waterproof sheet 10 due to fire, and to remove the lifting phenomenon of the improved asphalt waterproof sheet 10 due to moisture, and to reinforce the joint part. It is to enhance the watertightness and to prevent the air pocket phenomenon of the joint portion.

The present invention will be described through the following examples.

Using the upper asphalt compound and the lower asphalt compound to produce a 3.0mm waterproof sheet using a PP woven fabric, a HDPE film and a release film for the core material, the quality of the waterproof sheet was measured, and the results are shown in Table 1 below. Shown in As a comparative example, the improved asphalt T = 3.0 product of Petro Industry was measured.

Physical property measurement result of upper and lower asphalt compound division Tensile Strength (N / mm) Elongation (%) Bonding performance (N / mm) Heat resistance performance Example (Upper Asphalt Compound) 23.1 35 17.6 There is no more than 120 degrees Celsius Example (Underground Asphalt Compound) 18.3 300 18.6 1.9 Comparative Example (General Waterproof Sheet) 20.0 35 16.2 No more than 100 ℃ KS Standard 8.0 or higher 15 or more 5.0 or more No more than 80 ℃ Test Methods KS F 4971 KS F 4917 KS F 4917 KS F 4917

As can be seen from Table 1, the upper asphalt compound 12 according to the present invention was found to have excellent tensile strength and heat resistance, and the lower asphalt compound 14 was found to have excellent elongation and bonding performance. In addition, the adhesion performance of the general asphalt waterproof sheet was not degraded at all compared to the melt bonding to the concrete matrix, and the adhesion performance of the lower asphalt compound 14 itself was 2 times better than that of the general waterproof sheet. .

In addition, the lower asphalt compound 14 is slightly lower in terms of tensile strength than the normal asphalt waterproof sheet, but this phenomenon is because the external shock is protected by the upper asphalt compound 12, the waterproof sheet 10 ), There is no problem with the performance.

In addition, the asphalt primer according to the present invention also measured the physical properties are shown in Table 2 below the measurement results. As a comparative example, what was produced by diluting a solvent in blown asphalt was used.

Experimental Results of Adhesion Performance of Asphalt Primer of the Present Invention division Adhesive performance (kgf / ㎠) Wet cotton adhesion performance (%) concrete Waterproof Sheet Example 10 10 95 or more Comparative example 5 8 45

As can be seen in Table 2, the primer of the present invention exhibited the same adhesion stability as the concrete matrix and the waterproof sheet, and it was found that the adhesion performance was excellent in contrast to the general asphalt primer.

Although the present invention has been described with reference to the above embodiments, various modifications can be made without departing from the scope and spirit of the invention.

1 is a cross-sectional view of a waterproof construction according to the conventional improved asphalt waterproof sheet.

2 and 3 is a cross-sectional view of the waterproof construction according to the conventional film waterproofing method.

4 and 5 is a cross-sectional view of the waterproof construction according to the conventional composite waterproof method.

Figure 6 is a cross-sectional view of the improved asphalt waterproof sheet according to the present invention.

Figure 7 is a cross-sectional view of the waterproof construction body according to the improved asphalt waterproof sheet of the present invention.

8 is a process chart of the waterproof method according to the present invention.

* Description of the major symbols in the drawings *

10: improved asphalt waterproof sheet 20: primer layer 30: liquid coating material

11: core material 12: upper asphalt compound

13: finish layer 14: lower asphalt compound

15: release film

Claims (11)

delete delete delete delete delete delete An upper asphalt compound is formed on the upper part of the core material, a lower asphalt compound is formed on the lower part, a finishing layer is formed on the upper part of the upper asphalt compound, and an improved asphalt waterproof sheet formed by attaching a release film to the lower part of the lower asphalt compound. In the waterproof method used, Applying an asphalt primer to the concrete base layer to form a primer layer, Attaching it to the primer layer while removing the release film of the improved asphalt waterproof sheet; Applying a liquid coating material to the joints of the improved asphalt waterproof sheet; And removing the release film of the other improved asphalt waterproof sheet to partially overlap another waterproof asphalt waterproof sheet attached to the primer layer, and attaching it to the primer layer, The upper asphalt compound of the improved asphalt waterproof sheet is composed of 50 to 78% by weight of asphalt, 2 to 20% by weight of process oil, 8 to 15% by weight of synthetic rubber, 2 to 10% by weight of synthetic resin, and 10 to 30% by weight of inorganic additives. , The lower asphalt compound is 40 to 68% by weight asphalt, 19 to 35% by weight process oil, 8 to 15% by weight synthetic rubber, 0.5 to 5% by weight polymer modifier, 2 to 10% by weight tackifier, inorganic additives 2 ~ 10 wt% and 0.5-10 wt% of a compatibilizer, wherein the core material is one selected from polyester nonwoven fabric, polypropylene (PP) woven fabric, and polyethylene terephthalate (PET) film, and the polymer modifier is a thermoplastic elastomer. , The asphalt primer is 30 to 65 wt% solvent, 27 to 55 wt% asphalt, 1 to 5 wt% polymer modifier, 0.1 to 1 wt% compatibilizer, 2 to 10 wt% water-curable resin, 2 to 10 wt% adhesive hardener And a viscosity modifier of 2.9 to 10% by weight. delete delete delete delete

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