JP2008057119A - Waterproof construction method for concrete floor slab for road bridge - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a percolation-type waterproof construction method for a concrete floor slab for a road bridge, which shortens a construction time, and which can form a waterproof layer with sufficient strength. <P>SOLUTION: In this waterproof construction method for the concrete floor slab for the road bridge, a waterproof layer is formed on the concrete floor slab. The waterproof layer comprises a resin adhesive layer which is obtained by applying a resin adhesive onto the concrete floor slab for the road bridge and hardening the resin adhesive in the state of coating and impregnating the floor slab with the resin adhesive, and an asphalt coating film which is applied onto the resin adhesive layer and hardened. Characteristically, after the concrete floor slab is coated and impregnated with an epoxy resin adhesive with a viscosity of 2,500 mPa s/20°C or less as the resin adhesive, a heated asphalt waterproof material is applied onto an epoxy resin adhesive-coated surface which is formed by applying the epoxy resin adhesive onto the concrete floor slab, and the epoxy resin adhesive and the asphalt waterproof material are hardened. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a waterproofing method for a road deck concrete floor slab, and more specifically, an epoxy resin adhesive layer applied and cured on a road bridge concrete floor slab, and an epoxy resin adhesive layer applied on the epoxy resin adhesive layer. The present invention relates to a waterproof construction method for a concrete floor slab for road bridges, in which a waterproof layer composed of an asphalt coating film cured by heating is formed on the concrete floor slab.

  In concrete bridge slabs for road bridges that are constantly exposed to dynamic and static loads and rainwater, cracks occur due to repeated physical actions such as drying shrinkage and tensile stress. It has been a problem in the past that rainwater that has entered in combination with the above-mentioned physical action accelerates deterioration of the slab.

  In order to prevent the concrete floor slab from deteriorating in this way, a waterproofing method (waterproofing) in which a waterproof layer is provided on the concrete floor slab to prevent rainwater from entering the floor slab has been conventionally employed. The waterproof construction method is a sheet system in which a waterproof sheet made by impregnating synthetic fiber nonwoven fabric with asphalt and spraying mineral powder on the surface of this synthetic fiber nonwoven fabric is stuck on the floor slab. Waterproofing method, heating type coating type waterproofing method in which waterproofing material such as fluidized synthetic rubber, asphalt or synthetic resin is applied on the floor slab to form a waterproof coating on the floor slab, and asphalt The water-permeable mixture is paved on the base layer of the pavement, and it is roughly classified into three types of waterproofing methods such as an asphalt pavement type waterproofing method in which this pavement layer is a waterproof layer for the floor slab.

  In the concrete floor slab waterproofing method when a new road bridge is newly constructed, a method of exhibiting a high waterproof function is required first, but in the case of repairing an existing road bridge, the floor slab waterproofing method requires a cutting machine. Construction is completed in as short a time as possible so that high workability can be obtained for the uneven surface of the floor slab surface generated by removing the pavement, and traffic congestion caused by traffic regulations accompanying the repair work is alleviated. It is required to do.

  In the case of such repair work, as a result of the occurrence of the uneven surface, it is difficult to form a waterproof layer by attaching a sheet having a predetermined thickness to the uneven surface in the sheet-based waterproof method. Also, in the above-mentioned pavement waterproofing method, it is difficult to ensure a uniform thickness for the waterproof layer paved on the uneven surface. There is a problem that land adjustment work is required, and therefore the construction time is prolonged.

  Therefore, in the case of repair work, there is a tendency that the above-described heating-type asphalt coating-type waterproofing method, which allows a predetermined waterproof layer to be applied to a non-land surface in a short time, is preferentially adopted. However, even in the case of this coating-based waterproofing method, the waterproof performance is actually inadequate, water leakage is frequently observed, and it is difficult to heat the asphalt to an appropriate temperature in accordance with the timing of waterproofing. In this respect, there is a problem with quality control.

  Further, in any of the above waterproofing methods, the waterproof layer made thereby is formed on the concrete floor slab and has a boundary surface in contact with the floor slab. When this occurs, there is a problem that it is difficult to avoid a situation in which the slab is deteriorated due to rainwater entering the concrete floor slab along the boundary surface from the chipped portion or crack, or from the side end face of the waterproof layer.

  Therefore, when installing a new road bridge, in order to infiltrate the concrete floor slab itself and give it a waterproof function, and when repairing an existing road bridge, infiltrate cracks in the concrete floor slab. In order to reinforce the floor slab, an acrylic resin composition is applied to the concrete floor slab, and the resin composition is impregnated into the floor slab and cured in the applied state to thereby cure the resin in the concrete floor slab. Japanese Patent Application Laid-Open Publication No. 2004-228667 discloses a penetrating waterproofing method in which a waterproof layer formed integrally with the composition and the resin composition of the coating layer is provided.

  The waterproof layer formed by the permeation waterproof method is an acrylic resin composition cured in the impregnated and applied state, and an asphalt waterproofing coating applied on the acrylic resin composition layer. In order to enhance the adhesive force between the acrylic resin composition and the asphalt waterproofing coating, the application surface of the acrylic resin composition is heated before the heated asphalt waterproofing material is applied. A surface modifier such as softening type resin granules is dispersed.

A structure of a waterproof layer made by applying such a conventional waterproof method to a concrete slab is shown in a vertical side view as shown in FIG.
The waterproofing method for forming the waterproof layer shown in FIG. 2 is performed as follows.
In FIG. 2, the acrylic resin composition as a permeable waterproofing material is applied onto the concrete floor slab A to allow the acrylic resin composition to permeate into the concrete floor slab A. An acrylic resin composition-impregnated portion 1′b impregnated with an acrylic resin composition is formed in the interior of the resin, and then the acrylic resin composition layer 1′a staying on the concrete floor slab A and the resin composition A surface modifier 1 ″ for enhancing the adhesive force with the asphalt coating 2 coated on the physical layer 1′a is sprayed on the surface of the acrylic resin composition layer 1′a.

  The acrylic resin composition layer 1'a and the acrylic resin are cured by curing the resin of the acrylic resin composition layer 1'a and the acrylic resin composition impregnated portion 1'b. After forming the acrylic resin composition waterproofing layer 1 ′ integrated with the composition impregnated portion 1′b, the heated asphalt waterproofing material is applied on the dispersed surface modifying agent 1 ″. Thus, the asphalt coating film 2 is formed, and thus a waterproof layer composed of the acrylic resin composition waterproof layer 1 ′ and the waterproof asphalt coating film 2 is formed.

After forming the asphalt coating film 2, the silica sand 3 is spread | dispersed on it, and the asphalt pavement 4 is given on it, and a waterproofing construction method is completed.
In such a conventional waterproofing method, work time for applying the surface modifier is required in addition to the curing time for curing the resin.
Therefore, there is room for improvement in shortening the construction time even with such a permeation waterproofing method.
JP 2005-344341 A

  The main object of the present invention is to further shorten the construction time in the above-described penetration waterproofing method.

The inventor has conducted various studies to solve the above problems,
In the above-mentioned penetration waterproofing method applied to a concrete slab for a road bridge, the adhesive for applying to the slab is an epoxy resin adhesive, and the viscosity of the epoxy resin adhesive is 2500 mPa · s / 20. The epoxy resin adhesive is applied to and impregnated into concrete floor slabs, and the epoxy resin adhesive applied surface formed by the application is applied to the heat-resistant asphalt coating waterproofing material (hereinafter simply asphalt). Applying and curing these epoxy resin adhesives and waterproofing materials for heated asphalt coatings will increase the adhesion between the epoxy resin adhesive and the waterproofing materials for heating asphalt coatings. Epoxy resin adhesive and waterproofing material for heating type asphalt coating without spraying the surface modifier to the epoxy resin adhesive application surface In addition to being able to form a waterproof layer with a sufficient waterproof strength on a concrete floor slab for road bridges, the work required for spraying can be saved, so the entire waterproofing method can be installed. The time is significantly shortened compared to the above-mentioned conventional waterproofing method by penetration,
I found out.

The present invention was invented based on such knowledge,
1. A resin adhesive is applied to a concrete floor slab for road bridges, the resin adhesive is impregnated into the floor slab, and the resin adhesive layer cured in the applied state is applied to the resin adhesive layer and cured. An epoxy resin having a viscosity of 2500 mPa · s / 20 ° C. or less as the resin adhesive in a waterproofing method for a concrete floor slab for road bridges, wherein a waterproof layer composed of an asphalt coating film is formed on the concrete floor slab. After applying and impregnating the adhesive to the concrete floor slab, apply the heated asphalt waterproofing material to the epoxy resin adhesive application surface formed by the application, and cure these epoxy resin adhesive and asphalt waterproofing material The waterproof construction method, and

2. A waterproof structure for a concrete slab for a road bridge, comprising a waterproof layer formed by the waterproofing method of 1 above,
It is related to.

  According to the present invention, since a permeable epoxy resin adhesive is used as a waterproofing material in the waterproofing method, the epoxy resin adhesive penetrates into the concrete floor slab when a road bridge is newly installed. The epoxy resin adhesive can penetrate into cracks in the floor slab and reinforce the floor slab when the existing road bridge is repaired. In order for the adhesive of the epoxy resin adhesive layer formed on the floor slab and the epoxy resin adhesive that has penetrated into the floor slab to cure together, this epoxy resin adhesive provides a strong waterproof layer In addition, a sufficient adhesion strength can be obtained between the epoxy resin adhesive layer and the asphalt waterproofing film formed on the epoxy resin adhesive layer. As the intensity, the waterproof layer can be formed for road bridge concrete deck particularly excellent in adhesion strength and waterproof property.

  Further, according to the present invention, immediately after the epoxy resin adhesive is applied, without giving the epoxy resin adhesive a curing time for curing the epoxy resin adhesive applied to the concrete floor slab, Since the heated asphalt waterproofing material is applied directly to the coating surface, that is, without spraying a material such as the surface modifying agent in the prior art, it is applied compared to the permeable waterproofing method according to the prior art. Time can be shortened.

  Further, in the present invention, when a two-component mixed type epoxy resin adhesive substantially free of a volatile solvent such as toluene, xylene, methyl ethyl ketone, methyl isobutyl ketone, butanol or isopropanol is used as the epoxy resin adhesive. Such a problem that the environment is polluted by the volatile solvent or the health of the worker is impaired can be avoided.

In the present invention, the epoxy resin adhesive is adopted as the resin adhesive because the epoxy resin adhesive exhibits excellent resistance to the alkalinity of the concrete, and has strong adhesiveness, low shrinkage, and rapid strength development. The viscosity of the epoxy resin adhesive is limited to 2500 mPa · s / 20 ° C. or less when the adhesive becomes highly viscous. The penetration of the epoxy resin adhesive that penetrates into the narrow cracks of the resin deteriorates, the waterproofness due to this adhesive is reduced, and the workability is also reduced due to the high viscosity. This is because it is difficult to obtain a coating film having a uniform thickness.
This viscosity can be measured using a B-type viscometer.

  Examples of the epoxy resin constituting the epoxy resin adhesive include epoxy resins such as bisphenol A type epoxy resin, bisphenol F type epoxy resin, polyglycol type epoxy resin, novolac type epoxy resin, and glycidylamine type epoxy resin. Of these, it is preferable to use either a bisphenol A type epoxy resin or a bisphenol F type epoxy resin, or a combination thereof.

  Further, since the lower the viscosity, the greater the permeability to the concrete floor slab. Therefore, the lower the viscosity, the more advantageous it is to improve the permeability. As a result, the adhesive once filled in the crack gap is washed away into the deep part of the crack, or penetrates into the concrete, resulting in a gap in the crack. Since the water stop effect by the epoxy resin adhesive is lowered, the value is preferably 100 mPa · s / 20 ° C. or higher.

  The epoxy resin adhesive may be any type of epoxy resin adhesive as long as it has the above-mentioned viscosity and permeability, and among them, the epoxy resin adhesive as described above, and mixed with this. A main component that is liquid at room temperature mainly composed of a reactive diluent that lowers the viscosity of the epoxy resin adhesive, and a curing agent that is liquid at room temperature to cure the epoxy resin, and toluene, xylene, A two-component mixed epoxy resin adhesive substantially free of volatile solvents such as methyl ethyl ketone, methyl isobutyl ketone, butanol or isopropanol is preferably used.

  Hereinafter, the prescription by the main agent (A agent) and the hardening | curing agent (B agent) of the epoxy resin adhesive used by the waterproofing method of this invention is described.

  Examples of the main agent include 65 to 75% by weight of the above epoxy resin, butyl glycidyl ether, cresyl glycidyl ether, alkyl glycidyl ether having 8 to 14 carbon atoms, neopentyl glycol diglycidyl ether, 1, 4 Containing 25-35% by weight of a reactive diluent such as butanediol diglycidyl ether, 1,6-hexanediol diglycidyl ether, or trimethylolpropane polyglycidyl ether, and the balance of these is coupling agent and surface tension The main agent occupied by components such as a reducing agent is used.

Specific examples of the composition of the main agent are as follows.
19.8% by weight of bisphenol A type epoxy resin, 49.5% by weight of bisphenol F type epoxy resin, 29.7% by weight of reactive diluent having two epoxy groups, and 1.0% by weight of silane coupling agent Let the mixture obtained by mixing be A agent.

  As a hardening | curing agent used in order to harden said main ingredient, the amine compound, amide amine, polyisocyanate, and mercaptan compound which react with an epoxy resin and produces | generates hardened | cured material are mentioned, for example.

  Among these two-component mixed epoxy resin adhesives composed of a main agent and a curing agent, the epoxy resin is bisphenol A type epoxy resin, bisphenol F type epoxy resin, neopentyl glycol diglycidyl ether, 1,4-butanediol di It is an epoxy resin such as glycidyl ether or 1,6-hexanediol diglycidyl ether, and the curing agent contains one or both of an aliphatic polyamine and an alicyclic polyamine and a tertiary amine as active ingredients. A low-viscosity solventless epoxy resin adhesive is preferably used in the present invention.

  Examples of the aliphatic polyamine include diethylenetriamine, triethylenetetramine, and tetraethylenepentamine, and examples of the alicyclic polyamine include mensendiamine, isophoronediamine, and N-aminoethylpiperazine, and Tertiary amines include, for example, benzyldimethylamine, dimethylaminomethylphenol and trisdimethylaminomethylphenol.

  Specific examples of the composition of the curing agent include a mixture obtained by mixing 55.4% by weight of aliphatic polyamine and 9.9% by weight of tertiary amine with 34.7% by weight of alkylphenol as a diluent (agent B). ).

  Two-component mixed type epoxy resin adhesives each composed of the above components are generally commercially available for various uses. For example, “ADOX 1380w” manufactured by Japan Adox Co., Ltd. ".

In the present invention, the epoxy resin adhesive is applied at a viscosity of 2500 mPa · s / 20 ° C. or less, and the application amount is preferably 0.15 to 0.40 kg / m ² . The epoxy resin adhesive can be applied using a brush, a roller, a squeegee, an airless spray, a trowel, a spatula, or the like according to the environment in which the epoxy resin adhesive is applied and the application area.

  As the asphalt waterproofing material used in the present invention, any waterproofing material that has been conventionally used as a waterproofing material in general may be composed of, for example, asphalt, rubber, and a polymer elastomer. For example, a commercially available product such as “Tough Seal” manufactured by Toa Road Industry Co., Ltd. or “Cello Seal SS-B” manufactured by Nichireki Co., Ltd. may be used.

  In the present invention, since the heated asphalt waterproofing material can be applied without waiting for curing by curing of the epoxy resin adhesive after being applied, this also shortens the construction time.

  FIG. 1 of the drawings is a longitudinal section showing the structure of a waterproof layer formed on a concrete floor slab by the waterproofing method of the present invention when a road bridge is newly constructed and when an existing road bridge is repaired, similar to FIG. It is a side view.

The waterproofing method for forming the waterproof layer shown in FIG. 1 is performed as follows.
In FIG. 1, an epoxy resin adhesive as a permeable waterproof material is applied on the concrete floor slab A to allow the epoxy resin adhesive to permeate into the concrete floor slab A. Then, an epoxy resin adhesive impregnated portion 1b impregnated with an epoxy resin adhesive is formed.

Immediately after the epoxy resin adhesive is applied on the concrete floor slab A as described above, a heated asphalt waterproofing material is applied to form the asphalt coating film 2, and then silica sand 3 is sprayed thereon, and then on it. Asphalt pavement 4 is applied to complete the waterproofing method.
Thus, the epoxy resin adhesive waterproofing layer 1 cured in a state where the layered epoxy resin adhesive 1a staying on the concrete floor slab A and the epoxy resin adhesive impregnated portion 1b are integrally bonded, and the waterproofing A waterproof layer comprising a waterproof asphalt coating 2 coated on the layer 1 is formed.

  Therefore, in such a waterproofing method according to the present invention, the surface modifier is sprayed, and the epoxy resin adhesive is cured during the operations of applying the epoxy resin adhesive and applying the asphalt waterproofing material. Therefore, it is not necessary to provide time for the construction, so that the construction time can be shortened as compared with the above-described penetration type waterproofing method according to the prior art.

When a two-component mixed epoxy resin adhesive is used, the viscosity when applied to the concrete floor slab of the adhesive after the two components are mixed is 2500 mPa · s / 20 ° C. or less, and the surface tension is 38 to 38 48 mN / m, when the coating amount is 0.15 to 0.40 kg / m ² , for example, even when the temperature is 3 ° C. and the surface temperature of the concrete slab is 5 ° C. The layered epoxy resin adhesive 1a and the epoxy resin adhesive impregnated portion 1b can be appropriately formed.

  The following examples are intended to specifically illustrate preferred examples for practicing the present invention, and are not intended to limit the invention to these examples.

Example 1
69.3% by weight of a bisphenol type epoxy resin as an epoxy resin, 29.7% by weight of a bifunctional alkyl glycidyl ether as a reactive diluent, and a silane coupling agent as an auxiliary additive component Main component (first solution) which is liquid at normal temperature containing 1.0% by weight, 55.4% by weight of aliphatic polyamine as curing agent, 9.9% by weight of tertiary amine and 34 of alkylphenol (diluent) 250 parts by weight of a main agent corresponding to a ratio that is a chemical equivalent of a curing reaction of a two-component mixed type epoxy resin adhesive composed of a curing agent (second liquid) that is liquid at room temperature and containing 7% by weight; When the mechanical strength of the cured epoxy resin adhesive obtained by mixing 100 parts by weight of the curing agent and curing the mixture was measured, the results shown in Table 1 below were obtained. It was.

  When the viscosity of the epoxy resin adhesive immediately after mixing was measured with a B-type viscometer, the value was 340 mPa · s at 20 ° C., and when the surface tension was similarly measured by the hanging ring method, the value was 20 It was 44 mN / m at ° C.

[Table 1]
┌───────┬────────────────┬───────┐
│ │ Curing conditions │ │
│ Type ├───────┬────────┤ Test method │
│ │ 20 ℃, 7 days │ 160 ℃, 3 hours │ │
├─┬─────┼┼───────┼────────┼───────┤
│ │Compressive strength │ 111.5 │ 78.1 │ JIS K 7208 │
│ │ (N / mm ² ) │ │ │ │
│ ├─────┼───────┼────────┼───────┤
│ Trial │ Compression modulus │ 2617 │ 2170 │ JIS K 7208 │
│ │ (N / mm ² ) │ │ │ │
│ ├─────┼───────┼────────┼───────┤
│Experiment │Tensile strength │ 70.3 │ 61.5 │ JIS K 7113 │
│ │ (N / mm ² ) │ │ │ │
│ ├─────┼───────┼────────┼───────┤
│ │ Tensile modulus │ 2556 │ 2026 │ JIS K 7113 │
│ │ (N / mm ² ) │ │ │ │
│ ├─────┼───────┼────────┼───────┤
│ Eye │ Elongation │ 2.99 │ 3.78 │ JIS K 7113 │
│ │ (%) │ │ │ │
│ ├─────┼───────┼────────┼───────┤
│ │Bending strength │ 81.8 │ 76.1 │ JIS K 7203 │
│ │ (N / mm ² ) │ │ │ │
└─┴─────┴┴───────┴────────┴───────┘
However, the compressive strength was the breaking point and the tensile strength was the breaking point.

Example 2
What is the permeability of the epoxy resin adhesive used as a permeable waterproofing agent in the present invention to form a waterproof layer integrated with at least a part of the base material of the concrete slab against cracks in the concrete slab? Were tested for

This epoxy resin adhesive is a two-component mixed epoxy resin adhesive having the same composition as that of the adhesive of Example 1 and containing substantially no volatile solvent, and has a viscosity of 300 mPa · s and a tensile strength. strength 48N / mm ^2, and a tensile modulus of 2000N / mm ^2.

The epoxy resin adhesive uses a roller with a viscosity of 2500 mPa · s / 20 ° C., a surface tension of 40.0 to 48.0 dynes / cm at 20 ° C., and a coating amount of 0.15 to 0.40 kg / m ^2. It applied to the specimen.

The central part of a concrete prism made of JIS A 1106.3 and having a size of 100 × 100 × 400 mm is broken to divide the prism into two, and a 0.1 mm wide penetration is made between the two divided prisms. These two prisms are fixed so as to cause cracks, and used as test specimens. The above epoxy resin adhesive having a viscosity of 200 mPa · s / 20 ° C. at normal temperature is applied to the top surface of the test specimens at 0.4 kg / m ² . It apply | coated with the application quantity and the epoxy resin adhesive was osmose | permeated in the crack of a test piece from the upper surface.

  The epoxy resin adhesive thus applied to the upper surface of the specimen is allowed to cure at room temperature for 1 hour, while the epoxy resin adhesive that has entered the cracks of the specimen is further kept at room temperature, about 70 ° C. for 10 minutes. As a result of curing at 150 ° C. and measuring the penetration depth of the epoxy resin adhesive that had penetrated into the specimen as a result, the depth was 10 mm or more in all cases.

Example 3
An adhesion strength test and a waterproof performance test for examining the adhesion strength and waterproof performance obtained when the waterproof method of the present invention was applied to an existing concrete slab were carried out as follows.

In order to produce a specimen by applying the waterproofing method of the present invention to an existing concrete floor slab, a waterproof layer was provided on the floor slab according to the following procedure.
As the epoxy resin adhesive, a two-component mixed epoxy resin adhesive having a viscosity of 830 mPa · s / 20 ° C. and a surface tension of 44.0 mN / m at 20 ° C. satisfying the requirements defined in the present invention, that is, “ADOX1380w” manufactured by Nippon Adox Co., Ltd. was used, and this was applied to an existing concrete floor slab at an application amount of 0.2 kg / m ² at a temperature of 9.5 ° C.

As the asphalt waterproofing material applied on the epoxy resin adhesive, “Tough Seal” manufactured by Toa Road Industry Co., Ltd. is used, heated to a temperature of 210 ° C., and applied in an amount of 1.5 kg / m ^2. By applying on the epoxy resin adhesive layer, a waterproof layer was formed on the floor slab with an epoxy resin adhesive and an asphalt waterproof material.
Subsequently, No. 4 silica sand was spread on the asphalt waterproofing material at a spread rate of 1.0 kg / m ² , and paved with ordinary asphalt mixture.

The adhesion strength test was performed according to the following procedure.
1) Cut both the composite material and floor slab obtained by coring from the pavement on site constructed as above with a diamond cutter,
2) After drying the three specimens 1, 2 and 3 obtained from the pavement on site by the coring described above, a steel jig for tensile testing was bonded onto these specimens with an adhesive. And
3) In a thermostat kept at 23 ° C, the specimen to which the above jig is bonded is cured for one day, the resin adhesive is cured, and the cured specimen is tensioned by an autograph. The adhesion strength between the concrete floor slab, the waterproof layer and the asphalt pavement in the specimen was measured by this autograph using (tensile speed: 10 mm / min).

The obtained test results are shown in Table 2 below.
[Table 2]
┌────┬──────┬─────┬──────┬─────────┐
│ │ Cross-sectional area │ Maximum load │ Adhesive strength │ Destruction condition │
├────┼──────┼─────┼──────┼─────────┤
Specimen ¹ │ 7,838 mm ² │ 7,420 N │ 0.95 N / mm ² │ B: 90% A: 10% │
├────┼──────┼─────┼──────┼─────────┤
│Specimen 2│ 7.838 mm ² │ 7,370 N │ 0.94 N / mm ² │ B: 90% A: 10% │
├────┼──────┼─────┼──────┼─────────┤
│Specimen 3│ 7.838 mm ² │ 8,200 N │ 1.05 N / mm ² │ B: 90% A: 10% │
├────┼──────┼─────┼──────┼─────────┤
│Average value │ ─── │ 7,663 N │ 0.98 N / mm ² │ ──── │
└────┴──────┴─────┴──────┴─────────┘
A: Destruction ratio of concrete slab B: Destruction ratio of waterproof layer

The bond strength obtained in this test was stipulated in Appendix-2, published by the Japan Road Association, "Design and construction data for road bridge reinforced concrete floor slab waterproof layer, January 1987" for all three specimens. The standard value of 0.6 N / mm ² or more was satisfied.

  In this test, the breakage occurred in the three specimens was as follows, and the breakage of these specimens was also good.

The waterproof performance test was conducted according to the following procedure.
1) Cut both the composite material and floor slab obtained by coring from the pavement on site constructed as described above with a diamond cutter,
2) by the coring a sample obtained from a paving site, JH waterproof manual (waterproofing performance test method specified in Draft) (JHERI 410 -10 _-2001) to process three subjected pursuant Make a specimen,

3) in accordance with the waterproof performance test method (JHERI 410 -10 _-2001) as defined in the above JH waterproof Manual (draft), i.e., water pressure; under 0.5 N / mm ² (uranine dissolved water) After pressurizing for 24 hours, each specimen was split at the center, and the surface of the split was irradiated with black light to inspect for water leakage, thereby evaluating the waterproof performance.

  In such a waterproof performance test, a water leakage amount of 0.2 ml was observed in any of the three specimens. As a result, the water leakage was determined to be “none”, and the waterproof performance in this test was good.

  As is clear from the above description, the waterproof method of the present invention can achieve a sufficient tensile strength in the waterproof layer applied to the concrete slab, and as a result, has excellent waterproof performance in this concrete slab. Therefore, it can be widely used under advantageous performance when a new road bridge is constructed and when an existing road bridge is repaired.

It is a vertical side view which shows the structure of the waterproof layer formed in the concrete floor slab of a road bridge by the waterproofing construction method of this invention. It is a vertical side view which shows the structure of the waterproof layer formed in the concrete floor slab of a road bridge by the waterproofing method by a prior art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Epoxy resin adhesive waterproof layer 1a Epoxy resin adhesive layer 1b Epoxy resin adhesive impregnation part 1 'Acrylic resin composition waterproof layer 1'a Acrylic resin composition layer 1'b Acrylic resin composition impregnation part 1 " Surface modifier 2 Asphalt coating 3 Silica sand 4 Asphalt paving A Concrete floor slab

Claims (7)

A resin adhesive is applied to a concrete floor slab for road bridges, and this resin adhesive is applied to the floor slab, and the resin adhesive layer cured in the impregnated state and the resin adhesive layer are applied onto the resin adhesive layer. An epoxy resin having a viscosity of 2500 mPa · s / 20 ° C. or less as the resin adhesive in a waterproofing method for a concrete floor slab for road bridges, wherein a waterproof layer composed of a cured asphalt coating is formed on the concrete floor slab. After applying and impregnating the resin adhesive to the concrete floor slab, apply the heated asphalt waterproofing material to the epoxy resin adhesive application surface formed by the application, and apply these epoxy resin adhesive and asphalt waterproofing material. The said waterproofing method characterized by making it harden | cure. The waterproofing construction method according to claim 1, wherein the epoxy resin adhesive has a viscosity of 100 mPa · s / 20 ° C. or higher. The epoxy resin adhesive is substantially composed of a volatile solvent consisting of a main agent that is liquid at room temperature mainly composed of an epoxy resin and a reactive diluent, and a curing agent that is liquid at room temperature for curing the epoxy resin. The waterproofing construction method according to claim 1 or 2, which is a two-component mixed epoxy resin adhesive that is not included. The waterproofing construction method according to claim 3, wherein the epoxy resin adhesive is a bisphenol-based epoxy resin adhesive. The curing agent is an aliphatic polyamine, an aromatic polyamine, an alicyclic polyamine, and one or more polyamines of a modified polyamine obtained by modifying any one of these polyamines by an epoxy resin or a Mannich reaction. The waterproofing construction method according to claim 3 or 4, which is a curing agent that is liquid at room temperature and contains tertiary amine as an active ingredient. The amount of the epoxy resin adhesive applied when the epoxy resin adhesive is applied to the concrete floor slab is 0.15 to 0.40 kg / m ² . Waterproof construction method. A waterproof structure for a concrete floor slab for a road bridge, comprising a waterproof layer formed by the waterproof construction method according to claim 1.

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