KR101584357B1 - Reflection cracking prevention elastic Bitumen polymer waterproof sheets for waterproofing asphalt road construction - Google Patents

Abstract

The present invention relates to an elastic waterproof sheet to prevent reflection cracking of a bitumen polymer for the waterproof construction of a concrete structure and an asphalt road. The elastic waterproof sheet improves durability through tensile strength higher than 40,000 N/m in a vertical direction and 24,000 N/m in a horizontal direction based on ISO 4603 by impregnating a Bitumen polymer. Additionally, the elastic waterproof sheet prevents water leakage by maximizing the adhesive strength at a superposed portion between sheets and between concrete and asphalt. The sheet can powerfully suppress water penetration into an upper plate of a bridge, and moreover, can remarkably improve durability with powerful adhesive strength.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a waterproof sheet for waterproofing a concrete structure and an asphalt road,

The present invention relates to a waterproofing sheet for a non-permeable polymeric polymeric anti-reflective coating for waterproofing concrete structures and asphalt. More particularly, the present invention relates to a waterproofing sheet, And a non-permeable polymeric polymeric reflective anti-cracking elastic waterproofing sheet for asphalt road waterproofing construction.

Generally, asphalt pavement such as roads and bridges is generally constructed by laying an ascon on a surface of concrete laid as a lower layer (base layer). For example, in the case of bridge road surface construction, the concrete slab is placed on the surface of a concrete slab placed on the lower structure.

The asphalt pavement layer, which is the surface layer of the road, absorbs and cushions the load and impact transmitted to the concrete surface of the lower layer as well as the running function of the vehicle. However, the asphalt concrete repeatedly inflates and shrinks, Cracks occur easily when received.

In addition, the asphalt pavement layer is easily deformed due to severe plastic deformation with respect to temperature or load, and cracks and road surface deformation can easily occur, and external factors such as use of heterogeneous concrete and asphalt pavement materials, And frequent repair work is required.

Particularly, when the water penetrates through the cracks generated in the concrete slabs such as bridges and the water is present, the asphalt pavement layer is peeled from the concrete surface due to the vehicle load, and the concrete Structural hazard can occur if water penetrates into the concrete slab of a bridge.

Therefore, an asphalt pavement and repair method for laying a waterproof layer on a concrete surface and then laying an ascon on the concrete surface is performed.

That is, by forming a waterproof layer on the conkeck surface, it is possible to absorb stress and deformation between the asphalt pavement layer and the concrete, to cope with the horizontal and vertical loads due to the vehicle load, and also to prevent the waterproof layer from being stressed and deformed, It also minimizes the occurrence of cracks by absorbing the flat-root motion, and plays a role of suppressing or delaying the generation of cracks as much as possible.

As such, the waterproof layer functions as a reinforcing function to enhance the durability by integrating the asphalt pavement with the concrete together with the waterproof function and simultaneously protecting the asphalt pavement and the concrete.

As a method of forming a waterproof layer on concrete such as a road or a bridge, there are a coating method in which a waterproof sealant (rubber asphalt coating waterproofing material) is applied to a concrete surface which is a base surface of a road or a bridge and an ascon is installed, And a sheet-type method of laying a non-woven-type sheet on the top and applying an ascon.

The conventional coating method includes a step of applying a primer adhesive to a concrete surface (irregularly cut surface), a step of applying a waterproofing sealant of a rubber component having sticky properties onto a primer adhesive, a step of packaging the ascon on a waterproof sealant .

In the conventional sheet type method, a waterproof sealant is melted at a high temperature and applied on a concrete surface of a bridge or the like with a predetermined thickness (for example, about 2 mm), a mesh sheet is laid on a waterproof sealant, And proceeds to a step of placing and pressing.

However, when the repeated load of the vehicle or the sudden braking load is transmitted to the waterproof layer and the waterproof sealant is repetitively pressed, the waterproof sealant is pushed to one side. Of course, the mesh type seat supports the load to some extent and disperses But the waterproof sealant is insufficient to exhibit sufficient effect such as crack suppression.

When the mesh-type sheet is laid on the waterproof sealant, the waterproof sealant below the sealant must pass upward through the mesh to be combined with the ascon, but if the waterproof sealant is not applied to a sufficient thickness, the waterproof sealant will pass through the mesh There is a disadvantage that the bonding force with Ascon is deteriorated because it does not come up sufficiently.

In addition, since the mesh type sheet is simply applied as a nonwoven fabric having a plurality of through holes, there is a disadvantage that the unfolded state is disturbed by the pressure at the time of ascon laying and deviates from the position.

Particularly, since the repair surface of a road or a bridge, that is, a cut concrete surface is irregular, even if a waterproof sealant is applied on a primer adhesive, it is properly applied to a trough portion of a concrete surface. However, And the waterproof sealant is not applied. As a result, the waterproof layer is not properly formed.

Of course, when the waterproof sealant is applied thicker than 2mm over the cut surface of the concrete, it covers the uppermost part of the concrete surface with high height, but the application amount of waterproof sealant is excessively increased and the application work of waterproof sealant and waiting time for hardening are too long There is a problem that workability and productivity are lowered due to hanging.

As a result of the improvement of the above problems, there has been proposed an asphalt waterproof sheet for asphalt pavement on the surface of a bridge, a manufacturing apparatus for manufacturing a waterproof sheet, and a waterproof sheet using Korean Patent Registration No. 10-1286630 (Feb. A method of packaging an asphalt-based waterproof layer-type asphalt pavement "has been disclosed.

However, in the case of the registered patent according to the prior art, the sheet-like waterproofing material used for bridges is typically fabric, geotextile or other materials, which is excellent in waterproofing property, but is easily detached from the sheet- As a result, the occurrence of leakage occurs frequently, and also the bonding performance between the seat and the concrete deteriorates. As a result, adhesion of the asphalt to the upper portion of the seat is weakened. As a result, ) And asphalt detachment phenomenon (pothole occurrence) can not be solved fundamentally.

In addition, when the leakage of the sheet and the sheet joining portion is directly connected to the leakage water, when the leakage occurs, the bridge is shortened in life due to cracking and rusting due to water penetration into the upper plate, This leads to a disadvantage that the cost increases rapidly.

Korean Patent Registration No. 10-1286630 (2013.07.10) 'Asphalt waterproof sheet for asphalt pavement on bridge surface, manufacturing apparatus for manufacturing waterproof sheet, and coating method for waterproof layer-based asphalt pavement using waterproof sheet '

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a waterproof sheet which is impregnated with a Bitumen polymer and has a thickness of 40,000 N / m, securing a tensile strength of 24,000N / m or more in the transverse direction based on the longitudinal direction of the waterproof sheet, thereby enhancing the durability and maximizing the adhesion force at the overlapping portion between the sheet and the sheet and the adhesive force between concrete and asphalt. A waterproofing sheet for a waterproofing material, a waterproofing sheet for waterproofing a bridge top plate, and a waterproofing sheet for waterproofing a road surface of an asphaltic polymer, have.

In order to achieve the above object, the present invention provides a waterproof sheet (100) in a longitudinal direction by press molding a sheet material (M) made of polymeric polymer for asphalt impregnated with a Bitumen base primer, The pressure-resistant waterproof sheet (100) has a thickness of 1.5 mm, a melting point (ASTM D276) of 400 ° C or more, a longitudinal tensile strength (ISO 4603) of 40,000 N / m or more, (ISO 4603) of 24,000 N / m or more, the longitudinal elongation (ISO 4606) of 2%, the transverse elongation (ISO 4606) of 1.6%, the adhesion to asphalt (ASTM D1000) of 75% A hardness (ASTM D 2240) of 70; One end of the waterproof sheet 100 is a seat 110 having a thickness smaller than the surface of the waterproof sheet 100. The thickness of the waterproof sheet 100 is smaller than that of the waterproof sheet 100, A convex portion 112 is protruded at the center of the seating surface which is the surface of the seating portion 110 and a center portion of the bottom of the seating portion 120 corresponding to the convex portion 112 is inserted A recessed portion 122 is recessed and formed; The seating part 110 and the hook part 120 are respectively formed with wedge shaped dimples 114 and 124 on the front and bottom surfaces thereof and thermoplastic elastomer is filled in the wedge shaped dimples 114 and 124. The thermoplastic elastomer is 300 to 1000 kV And the waterproof sheet 100 overlaps within 50 mm. In order to increase the strength, elasticity, and waterproofing property of the overlapped portion, the waterproof sheet 100 should be used in a state in which the glass fiber- Layers 116 and 126 are interposed so as to be locally contained on the seating portion 110 and the hooking portion 120 to have a layered structure and the glass fiber has a length of 50 to 60 mm to increase tensile force as well as strength And 0.5 mL of polyester polyol and sodium aluminate per 10 m 2 of the waterproof sheet 100 are added to the waterproof sheet 100 except for the overlapping 50 mm of the waterproof sheet 100, 130 is heated to higher temperatures to provide a concrete or asphalt pavement, and that the adhesive Mitu for concrete and asphalt road construction waterproof characterized far polymer reflection Crack resistant elastic sheet.

According to the present invention, it is possible to completely catch catch even after repairing the waterproof sheet immediately after it is not removed from the damaged surface of the asphalt pavement due to cracks such as turtles and the like, It is possible to obtain the effect of ensuring ease of installation, shortening of construction time, and the like.

Particularly, it is self-adhered on the road surface which is wide and damaged, can be easily installed, has a high destructive point, has good durability, reduces the possibility of crack fracture, reduces road surface fatigue and load strength, Prevent road surface cracks.

In addition, since it is eco-friendly with OHS, it does not require solvent or heating during construction, it is possible to install it on a narrow repair surface or a large maintenance surface, and it can be installed quickly on the asphalt surface due to quick installation, It can be used on the surface of concrete or asphalt pavement at a temperature of 130 ° C or higher, which is a concrete or afphalite installation temperature. It has a merit of being easy to break due to high tensile strength.

1 is an exemplary view showing a waterproof sheet material according to a preferred embodiment of the present invention.
2 is an exemplary view showing an example of installing a waterproof sheet according to an embodiment of the present invention.
3 is a cross-sectional view illustrating the structure of a waterproof sheet according to an embodiment of the present invention.

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

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

As shown in FIGS. 1 and 2, the waterproof sheet 100 according to the present invention is installed not only on a construction surface 200 such as a turtle-type concrete structure and an asphalt road, but also on an asphalt road, It is used for laying.

This waterproof sheet 100 uses a sheet material M made of a polymeric polymer for asphalt impregnated with a non-permeable primer as shown in Fig.

The waterproof sheet 100 is manufactured by press molding the sheet material M into a sheet. The waterproof sheet 100 has a thickness of 1.5 mm, a melting point (ASTM D276) of 400 ° C or more, (ISO 4603) of not less than 40,000 N / m, a longitudinal direction tensile strength (ISO 4603) of not less than 24,000 N / m, a longitudinal elongation (ISO 4606) of 2%, a transverse elongation (ISO 4606) 1.6%, adhesion to asphalt (ASTM D1000) 75%, and Shore A hardness (ASTM D 2240) 70.

In particular, the waterproof sheet 100 has a peculiar structure in the overlapping surface with the waterproof sheet, so that the waterproof sheet 100 is structured so as to eliminate the problem of detachment and separation in overlapping portions when two or more sheets are overlapped.

3, one end of the waterproof sheet 100 forms a seat 110 having a thickness smaller than the surface of the waterproof sheet 100, and the other end of the waterproof sheet 100 (120).

A convex portion 112 protrudes from the center of the seating surface which is a surface of the seating portion 110 and a concave portion 122 corresponding to the convex portion 112 is formed at the center of the seating surface, Is formed.

In addition, the seating part 110 and the hooking part 120 have wedge-shaped dimples 114 and 124 formed on the surface and a bottom surface thereof, respectively. The wedge-shaped dimples 114 and 124 are filled with a thermoplastic elastomer.

Particularly, the thermoplastic elastomer should be used in a state where the electron beam is irradiated at a voltage of 300 to 1000 kv. This is because the radicals are generated through the crosslinking of the electron beams, the radicals thus obtained have high reactivity, The bonding property and the surface strength can be further increased.

Further, in order to increase the strength, elasticity and waterproofing property of the overlapped portions when overlapping, it is preferable that the glass fiber-containing superabsorbent polymer layers 116 and 126 are included on the seating portion 110 and the hooking portion 120 And has a layered structure, but is configured to be included locally.

This is because when the sheet material M is press-molded, the superabsorbent polymer constituting the superabsorbent polymer layers 116 and 126 is arranged in a partially sprinkled manner locally while being pressed at the first target thickness, (M) and then pressing it to the final target thickness.

At this time, the glass fiber reinforces not only the strength but also the tensile strength. It is preferable to use long fibers having a length of 50 to 60 mm.

It is furthermore preferred that the sheet material M further comprises metallic fibers of 2-3 mm in length, carbon fibers of 3-5 mm in length, and general vegetable fibers of 4-6 mm in length, For the purpose of increasing the tensile strength.

In addition, the superabsorbent polymer (SAP) rapidly swells when it comes into contact with water to increase the watertightness. Examples of such superabsorbent polymers include polyacrylonitrile graft polymer hydrolyzate, polyacrylic acid soda, methyl (Meth) acrylic acid-vinyl acetate copolymer hydrolyzate, a polyvinyl alcohol crosslinked polymer, a polyacrylonitrile crosslinked hydrolyzate, a polyethylene oxide crosslinked polymer, a polyacrylamide crosslinked polymer, an acrylamide-acrylic acid crosslinked copolymer, a sulfoalkyl Methacrylic acid acrylic acid crosslinked polymer, isobutylene-maleic anhydride crosslinked polymer, and the like can be used.

In addition, a small amount of polyester polyol is added to both ends of the waterproof sheet 100, that is, except for the overlapping 50 mm, thereby increasing the fluidity at the time of curing, thereby increasing the adhesiveness and shortening the curing time. can do.

It is preferable to add about 0.5 ml of each of these superabsorbent polymers, polyester polyols and other additives per 10 m 2 of the waterproof sheet 100.

The waterproof sheet 100 having such a configuration is used as follows.

First, the concrete surfaces or asphalt roads must be cleaned up. The construction surface cleanup consists of removing grease, and repairing cracked areas with empty spaces.

When the construction of the concrete structure or the asphalt road is completed, the non-permeable primer is uniformly sprayed on the construction surface with a standard of 1 liter per 8 m 2, and then cured for 20 minutes.

Thereafter, the waterproof sheet 100 according to the present invention is spread in parallel to the longitudinal direction of the construction surface.

At this time, it is possible to obtain a good installation surface by pressing the sheet by using a straight rod so as to prevent wavy or bubble or wrinkle from being generated.

When the first waterproof sheet is laid, when the second waterproof sheet is laid, the ends are arranged so as to overlap each other by 50 mm.

In this case, the seating portion 110 and the engaging portion 120 should be aligned with each other so as to be in contact with each other.

When the waterproof sheet is completely laid on the concrete structure or the asphalt road surface, the asphalt is installed on the waterproof sheet 100. The ultra-temperature should be maintained within the range of 110 ° C. to 150 ° C. , It is highly desirable to maintain at least 130 ° C or higher in the best state while consuming the optimum energy.

This is because when the temperature is lower than 110 ° C to 120 ° C, the reactivity of the non-permeable primer deteriorates and the adhesive strength is weak. Therefore, the temperature must be maintained at a higher temperature. In addition, when the temperature is higher than 150 캜, the adhesive force is not increased as compared with a ratio consuming energy, so there may be a problem that the consumption of heat energy is considerably increased.

Particularly, in the overlapped edge portion, the thermoplastic elastomer in the dimple that has been irradiated with the electron beam reacts to further increase the binding force in the up and down direction, maximizing the water tightness but also increasing the elastic absorption power, thereby increasing the bonding performance as well as the waterproof function.

As described above, according to the present invention, since the waterproof sheet 100 different from the conventional one is realized, excellent construction characteristics and shortening of the construction time can be obtained even when the packaging surface is re-constructed and newly constructed.

100: waterproof sheet 110: seat part
120:

Claims (1)

The waterproof sheet 100 is formed in the longitudinal direction by press molding the sheet material M made of a polymeric polymer for asphalt impregnated with a Bitumen primer, wherein the waterproof sheet 100 which has been press- , A melting point (ASTM D276) of 400 ° C or higher, a longitudinal tensile strength (ISO 4603) of 40,000 N / m or more with respect to the longitudinal direction, a transverse tensile strength (ISO 4603) of 24,000 N / (ISO 4606) of 2%, transversal elongation (ISO 4606) of 1.6%, adhesion to asphalt (ASTM D1000) of 75% and Shore A hardness (ASTM D 2240) 70;
One end of the waterproof sheet 100 is a seat 110 having a thickness smaller than the surface of the waterproof sheet 100. The thickness of the waterproof sheet 100 is smaller than that of the waterproof sheet 100, 120,
A convex portion 112 is protruded at the center of the seating surface which is the surface of the seating portion 110 and a concave portion 122 is inserted at the center of the concave surface of the concave portion 120 corresponding to the convex portion 112 Lt; / RTI > The seating part 110 and the hook part 120 are respectively formed with wedge shaped dimples 114 and 124 on the front and bottom surfaces thereof and thermoplastic elastomer is filled in the wedge shaped dimples 114 and 124. The thermoplastic elastomer is 300 to 1000 kV And the waterproof sheet 100 overlaps within 50 mm. In order to increase the strength, elasticity, and waterproofing property of the overlapped portion, the waterproof sheet 100 should be used in a state in which the glass fiber- Layers 116 and 126 are interposed so as to be locally contained on the seating portion 110 and the hooking portion 120 to have a layered structure and the glass fiber has a length of 50 to 60 mm to increase tensile force as well as strength And 0.5 mL of polyester polyol and sodium aluminate per 10 m 2 of the waterproof sheet 100 are added to the remaining portions of the waterproof sheet 100 except for the overlapping 50 mm,
The waterproof sheet 100 is heated to a temperature of 130 ° C or higher and bonded to a concrete or asphalt pavement surface,
It is preferable to further include a metallic fiber having a length of 2-3 mm, a carbon fiber having a length of 3-5 mm and a general vegetable fiber having a length of 4-6 mm in order to reinforce the strength and increase the tensile strength of the super absorbent polymer layers (116, 126) Concrete structures and asphalt non - returnable polymeric polymeric anti - reflective and anti - cracking elastomeric waterproofing sheets for asphalt road construction.

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