JP6829417B2 - Primer for repairing concrete structure floor slab and concrete structure floor slab repair method using the primer - Google Patents

Description

The present invention relates to a primer for repairing a concrete structure floor slab, and more particularly to a primer for repairing a floor slab used for thickening repair of a concrete floor slab and a method for repairing a concrete structure floor slab using the primer.

For existing concrete structures, especially road bridges, the continuous application of the load of the traveling automobile causes the concrete slab to deteriorate, and the steel material of the road bridge also deteriorates, resulting in such deterioration. Peeling and cracking of concrete structures due to corrosion have become problems, and it is urgently necessary to take reinforcement measures against fatigue damage to the floor slab.

Reinforcement of the existing floor slab of a reinforced concrete structure is roughly divided into a top surface reinforcement method for reinforcing the floor slab from the upper surface and a bottom surface reinforcement method for reinforcing the floor slab from the lower surface. The bottom surface thickening method is a thickening method that increases the cross section of the above.

In this bottom surface thickening method, since the floor slab is reinforced from the bottom surface, it is not necessary to block the road traffic of the car, and even if the floor slab is partially reinforced and a step is generated, it does not hinder the passage. It is used advantageously in operation.

In general, the bottom surface thickening method is, for example, a method of arranging reinforcing bars at the reinforcing points on the bottom surface of an existing floor slab of an existing concrete structure and reinforcing the reinforcing bars with mortar, concrete, or the like as a thickening material. Long-term adhesive strength is required between mortar or concrete, which is a thickening material, and existing concrete.

In order to secure such adhesive strength, an adhesive is applied between the existing concrete structure and the thickening material mortar or concrete which is a reinforcing material, or a primer is applied to enhance the adhesive strength. There is. Specifically, for example, a method of applying a thickening interface primer or the like is used.

As a method for reinforcing the lower surface of a concrete floor slab by integrating the floor slab of an existing concrete structure with reinforcing bars for additional reinforcement and mortar, which is a thickening material, to enhance the adhesive force, for example, Japanese Patent Application Laid-Open No. 2002-167977. (Patent Document 1) states that concrete in a portion requiring reinforcement of an existing concrete floor slab is removed from at least both ends of the reinforcing portion to the back side of the reinforcing bar to expose the reinforcing bar, and the exposed reinforcing bar is reinforced with a connecting tool. Short fiber reinforced mortar or concrete is a high toughness fiber reinforced cement composite material (high) in the lower surface thickening reinforcement method of reinforced concrete floor slab that joins reinforcing bars and sprays short fiber reinforced mortar or concrete on this reinforcing part to thicken it. A method for thickening and reinforcing the lower surface of a reinforced concrete floor slab, which is a tough FRC material), is disclosed.

Further, Japanese Patent Application Laid-Open No. 2015-129393 (Patent Document 2) describes a method for constructing a concrete structure, which is a method for constructing a concrete slab and a concrete structure having a pavement layer on top of the concrete slab. A step of applying an epoxy resin-based adhesive to the upper surface of a concrete floor slab, a step of forming a fiber-reinforced cement composite material (FRCC) layer on the upper surface of the adhesive, and a step of forming the fiber-reinforced cement composite material (FRCC) layer. A step of forming an asphalt layer as the pavement layer on the upper surface is provided, and the fiber reinforced cement composite material (FRCC) layer is formed on the concrete floor slab without installing a waterproof layer to reinforce the fiber. A method for constructing a concrete structure is disclosed, wherein the cement composite material (FRCC) layer prevents water from penetrating the concrete slab.

Further, in JP-A-10-7750 (Patent Document 3) as a method for reinforcing a concrete structure and as a primer used for the method, a radically polymerizable primer composition is applied to the surface of the concrete structure, and then a fiber base is used. A method for reinforcing a concrete structure in which a material and a radical polymerization curable resin-forming composition are impregnated and applied, polymerized and cured to form a composite material layer of the fiber base material and the curable composition on the surface of the concrete structure. The fiber base material is a carbon fiber base material, and the radically polymerizable primer composition and the radical polymerization cured resin-forming composition are the following components (a) to (c), (a). ) Polymerizable unsaturated monomer (b) Vinyl ester resin (c) A method for reinforcing a concrete structure containing a radical polymerization initiator is described.

However, these conventional repair methods relate to the selection of a primer for adhering an existing concrete structure and a reinforcing material. For example, a cross-section repair material having toughness to which a polymer or fiber is added can be used as a concrete floor slab or the like. When applied to a part where bending fatigue occurs, the bending behavior of the existing concrete structure and the cross-section repair material (repair material) are different, so stress may be concentrated at the interface and peeling may occur from the part. There was a problem that there was.

Japanese Unexamined Patent Publication No. 2002-167977 JP-A-2015-129393 Japanese Unexamined Patent Publication No. 10-7750

An object of the present invention is a primer for repairing a concrete structure plate bridge and the primer capable of solving the above-mentioned problems and effectively suppressing peeling and cracking of an interface portion between an existing concrete structure and a repair material. Is to provide a concrete structure plate bridge repair method using.

The present inventors have a specific range of hardness even when a cross-section repair material having toughness to which a polymer or fiber is added is applied as a repair material to a portion where bending fatigue occurs such as a concrete floor slab. We have found that the use of a primer can effectively suppress the peeling of the cross-section repair material from the interface portion where the stress of the concrete floor slab can occur, and have arrived at the present invention.

The primer for repairing a concrete structure floor slab according to claim 1 is a primer for adhering an existing concrete structure to a mortar or a concrete repair material, and is a primer according to the Japan Rubber Association standard (SRIS 0101). hardness measured a cured product is 80 to 100 (Asker C) der is, in flexural strength by the following test 6.0 N / mm ² or more, rather than interfacial breakdown in and tensile strength 4.0 N / mm ² or more mortar It is a primer for repairing floor slabs of concrete structures, which is characterized by breaking due to coagulation failure .
(Bending strength)
JIS mortar was placed in a 4 x 4 x 16 cm mold so as to have a thickness of 2.5 cm, and after 14 days of age, after applying 150 g / m ^{2 of} primer , the thickness was increased. An ultrafast hard mortar is placed so as to have a thickness of 1.5 cm, and the mortar is cured for another 14 days, and the bending strength of the mortar specimen is measured according to JIS R 5201 as a mortar specimen for a bending strength test.
As the ultrafast hard mortar, the one having the following composition is used.
Cement: Calcium aluminumate-based quick-hardening cement (manufactured by Sumitomo Osaka Cement Co., Ltd.)
.. 25 parts by mass
Fine aggregate: JIS standard sand: 75 parts by mass
Polymer: Acrylic polymer dispersion
.. 1.25 parts by mass (as solid content)
Water: 7.5 parts by mass of tap water (including water contained in the above polymer dispersion)
(Tensile strength)
The loaded portion of the mortar specimen to which the load of 85% of the bending strength is applied three times is cut into a width of 4 cm to manufacture a mortar specimen for a tensile strength test of 4 × 4 × 4 cm. Tensile strength test mortar A jig is attached to both sides of the specimen, and a Kenken-type tensile strength tester is used to measure the tensile strength, which is the strength at which the specimen breaks.

The concrete structure floor slab repair primer according to claim 2 is the concrete structure floor slab repair primer according to claim 1, wherein the hardness is 85 to 95 (Asker C). It is a primer for repairing plate bridges.

In the method for repairing a concrete structure floor slab according to claim 3, the primer according to claim 1 or 2 is applied to the surface of an existing concrete structure floor slab to be repaired, and then mortar or a concrete repair material is applied. It is a repair method for concrete structure floor slabs, which is characterized by hardening and thickening the concrete structure to reinforce the concrete structure.

The method for repairing a concrete structure floor slab according to claim 4 is the method for repairing a concrete structure floor slab according to claim 3, wherein the thickening is characterized in that the upper surface of the concrete structure floor slab is thickened. It is a repair method for concrete structure floor slabs.

The primer for repairing a floor slab of a concrete structure of the present invention can firmly bond an existing concrete structure and a reinforcing material, has sufficient bending strength and tensile strength at the interface, and peels off the repaired portion. , Cracks, peeling, etc. can be effectively prevented.
In particular, even if the bending behavior of the existing concrete structure and the repair material are different, it is possible to effectively suppress the peeling of the repair material from the interface portion where the stress is concentrated.

Further, the concrete structure floor slab repair method of the present invention can effectively repair the concrete structure floor slab, and can also repair both the upper surface and the lower surface of the concrete structure floor slab. It is possible to use a construction method that effectively prevents peeling, cracking, peeling, etc.

The present invention will be described with reference to the following preferred embodiments, but the present invention is not limited thereto.
The primer for repairing concrete structure floor slabs of the present invention has a hardness of 80 to 100 (Asker C) measured as a cured primer according to the Japan Rubber Association standard (SRIS 0101), and is for repairing concrete structure floor slabs. It is a primer.
Particularly preferably, the hardness is 85 to 95 (Asker C).

Here, Asker C is a kind of durometer (spring type hardness tester) defined in SRIS0101 (Japan Rubber Association standard), and indicates a measuring instrument for measuring hardness. For example, 20 in Asker C means that the value measured by the Asker C hardness tester is 20, and the larger the number, the harder the material.
For example, in order to measure the hardness, as another hardness measuring instrument, a JIS K6253 durometer (JIS A durometer or the like), an Asker F or the like can be exemplified.
The JIS A durometer is the same as the shore A durometer, and Asker C is a hardness tester preferably used when measuring a material that is harder than that measured by a needle insertion test and softer than the JIS A durometer.

By adjusting the hardness of the primer of the present invention within the above range, the stress concentration at the interface portion can be relaxed, the stress load between the members can be optimized, and interface peeling and cracking can be suppressed. ..
Conventionally, since the elastic modulus of the existing concrete structure and the repair material are different, the primer at the interface is loaded and peeling or the like occurs, but the primer of the present invention keeps the hardness within the above range. By adjusting, it is possible to relax the stress at the interface and suppress interfacial peeling and cracking.

As long as the primer of the present invention can be adjusted so that the hardness measured according to the Japan Rubber Association standard (SRIS 0101) is 80 to 100 (Ascar C), the component thereof is not particularly limited, and any commercially available adhesive resin is used. And a curing agent can be used in combination.
For example, as the main agent constituting the primer, bisphenol A type liquid epoxy resin, bisphenol F type liquid epoxy resin and the like can be exemplified, and as the curing agent, aliphatic polyamine, polythiol, aliphatic amine, modified silicone, first A tertiary amine and the like can be exemplified.

In the above-mentioned primer of the present invention, the primer of the present invention for repair is applied between an existing concrete structure, for example, a repair portion of a floor slab of a road bridge and a repair material such as mortar or concrete, and the existing concrete is used. By adhering the structure and the repair material, it is possible to alleviate the stress concentration at the interface and optimize the stress load between the members to suppress interfacial peeling and cracking.

The method for repairing the floor slab of an existing concrete structure is not particularly limited, and the primer of the present invention can be applied to any known method for repairing a floor slab of a concrete structure.
For example, in the method for repairing a concrete structure floor slab of the present invention, the above-mentioned primer of the present invention is applied to the surface of an existing concrete structure floor slab to be repaired, and then mortar or a concrete repair material is applied and cured. It is a repair method that repairs the concrete structure floor slab by increasing the thickness and reinforcing the concrete structure.

For example, after scraping the deteriorated part of the concrete structure, the primer of the present invention is applied to the chipped part, a formwork is provided, the above repair material is filled, and the concrete structure is thickened and repaired. Can be done. This method can improve workability even in a large area.

In the repair method for the concrete structure floor slab, the repaired portion of the thickened concrete floor slab may be the upper surface or the lower surface of the concrete structure floor slab, and is applied to the repair of any surface. It is possible.
Further, the concrete structure to be applied may be a reinforced concrete structure in which reinforcing bars such as reinforcing bars are embedded, and particularly for damage due to corrosion of steel materials in road bridge members and increase in traffic volume due to large vehicles. Examples thereof include concrete structure floor slabs in which damage such as fatigue damage, salt damage and frost damage caused by spraying a snow melting agent, exposure of reinforcing bars due to insufficient cover, peeling of cover concrete and generation of free lime are observed.

Next, the concrete structure floor slab to be repaired is lifted out, for example, and the primer of the present invention is applied thereto, but the method of application is not particularly limited, and known means and methods can be used.

For example, the primer can be applied uniformly using a roller or a brush, but the part where the primer is sucked into the base and the coating film is not sufficiently formed is reapplied, and the entire repaired part is applied as evenly as possible. It is desirable to do so.
The coating amount is not particularly limited as long as the primer can be applied to the repaired portion, but for example, by setting the primer to 100 to 500 (g / m ² ), the above-mentioned effect of the present invention can be more effectively exhibited. Become.

After applying the primer of the present invention to the repaired part of the concrete structure floor slab, the repair material is applied to the repaired part, and the repair material is used for repairing the floor surface of a known concrete structure. Any material can be used as long as it is a material.
For example, mortar and concrete can be exemplified, and a fiber reinforced cement composite material containing reinforcing fibers may be used. As a result, even when a tough repair material to which a polymer or fiber is added is applied to a part where bending fatigue occurs such as a concrete floor slab, the bending behavior of the existing concrete structure and the repair material is different. It is possible to effectively suppress peeling due to concentrated stress at the interface.

The thickness of the thickening work is not particularly limited and can be determined by the thickness to be repaired and thickened, but is usually 20 mm to 200 mm, preferably 50 mm to 150 mm.

In addition, the composition of the repair material can change depending on the purpose of use, the site of use, cost effectiveness, etc., and the amount of water is used in consideration of the construction form, amount of aggregate, workability, durability, etc. Is used in consideration of the construction form and workability, and is not limited.

The present invention will be described below with reference to a suitable example.
Each primer was prepared by using each main agent and each curing agent shown in Table 1 below in the blending ratios shown in Table 1.
Specifically, just before applying the primer to the repaired part of the floor slab of a road bridge, which is a concrete structure, the main agent and the curing agent in Table 1 are mixed to prepare each primer. is there.

Each of the above primers A to F was poured into a mold having a size of 10 cm × 10 cm × 1 cm and cured at room temperature to prepare each cured product test piece.
The specific gravity of each of the obtained cured products was measured according to JIS K 7112. The results are shown in Table 1 above.
The compressive strength of each cured product was measured according to JIS K 7208, and the results are shown in Table 1 above.

(Measurement of hardness of each primer cured product)
The hardness of each primer cured product test body was measured using an Asker hardness tester C type manufactured by Asker Co., Ltd. in accordance with the Japan Rubber Association Standard (SRIS).
The results are shown in Table 2 below.

(Measurement of bending strength of mortar specimen)
JIS mortar was placed in a 4 x 4 x 16 cm mold so as to have a thickness of 2.5 cm, and 14 days after the age of the material, 150 g / m ² of each primer A to F in Table 1 was applied. An ultrafast hard mortar was placed on the mortar so as to have a thickness of 1.5 cm, and the mortar was cured for another 14 days as a mortar specimen for each bending strength test, and the bending strength of each mortar specimen was JIS R. It was measured according to 5201.
The results are shown in Table 2.

As the above-mentioned ultrafast hard mortar, the one having the following composition was used.
Cement: Calcium aluminumate-based quick-hardening cement (manufactured by Sumitomo Osaka Cement Co., Ltd.)
・ ・ 25 parts by mass Fine aggregate: JIS standard sand ・ ・ ・ 75 parts by mass Polymer: Acrylic polymer dispersion
.. 1.25 parts by mass (as solid content)
Water: 7.5 parts by mass of tap water (including water contained in the above polymer dispersion)

(Tensile strength of mortar specimen)
The loaded portion of each mortar specimen to which a load of 85% of the bending strength was applied three times was cut into a width of 4 cm to manufacture a mortar specimen for each tensile strength test of 4 × 4 × 4 cm.
Jugs were attached to both sides of each tensile strength test mortar specimen, and the tensile strength, which is the breaking strength of each of the specimens, was measured using a Kenken-type tensile strength tester.
The results are shown in Table 2 below.
Each fractured specimen was visually observed, and the results of the fractured state are also shown in Table 2 below.

(Judgment method)
Evaluation was made according to the following criteria, and those with both the above bending strength and tensile strength of the mortar specimen evaluated as ○ were evaluated as ○, and those with at least one evaluation of × were evaluated as ×.
The results are also shown in Table 2.
Bending strength: 6.0 N / mm ² or more is ○, 6.0 N / mm less than ² is ×
Tensile strength: 4.0 N / mm ² or more is ○, 4.0 N / mm less than ² is ×

As described above, the primer for repairing the floor slab of the concrete structure of the present invention has sufficient bending strength and tensile strength at the interface by being applied between the existing concrete structure and the reinforcing material. , It is possible to prevent peeling, cracking, peeling, etc. of the repaired part.
Therefore, the method for repairing the concrete structure floor slab of the present invention is a method for effectively repairing the concrete structure floor slab and preventing peeling, cracking, peeling, etc. of the repaired portion.

The primer for repairing a floor slab of a concrete structure of the present invention can be effectively applied to thickening repair of the upper surface and the lower surface of a floor slab of an existing concrete structure such as a road bridge or a railway bridge which is a concrete structure.

Claims (4)

A primer for adhering an existing concrete structure to mortar or concrete repair material, and the hardness of the cured primer measured according to the Japan Rubber Association standard (SRIS 0101) is 80 to 100 (Asker C). Ah is, in flexural strength by the following test 6.0 N / mm ² or more and the tensile strength is characterized in that the break in the mortar cohesive failure rather than interfacial fracture with 4.0 N / mm ² or more, the concrete structure floor Plate repair primer.
(Bending strength)
JIS mortar was placed in a 4 x 4 x 16 cm mold so as to have a thickness of 2.5 cm, and after 14 days of age, after applying 150 g / m ^{2 of} primer , the thickness was increased. An ultrafast hard mortar is cast so as to have a thickness of 1.5 cm, and the mortar is cured for another 14 days, and the bending strength of the mortar specimen is measured according to JIS R 5201 as a mortar specimen for a bending strength test.
As the ultrafast hard mortar, the one having the following composition is used.
Cement: Calcium aluminumate-based quick-hardening cement (manufactured by Sumitomo Osaka Cement Co., Ltd.)
.. 25 parts by mass
Fine aggregate: JIS standard sand: 75 parts by mass
Polymer: Acrylic polymer dispersion
.. 1.25 parts by mass (as solid content)
Water: 7.5 parts by mass of tap water (including water contained in the above polymer dispersion)
(Tensile strength)
The loaded portion of the mortar specimen to which the load of 85% of the bending strength is applied three times is cut into a width of 4 cm to manufacture a mortar specimen for a tensile strength test of 4 × 4 × 4 cm. Tensile strength test mortar A jig is attached to both sides of the specimen, and a Kenken-type tensile strength tester is used to measure the tensile strength, which is the strength at which the specimen breaks. The primer for repairing a concrete structure floor slab according to claim 1, wherein the hardness is 80 to 90 (Asker C). The primer according to claim 1 or 2 is applied to the surface of a repaired portion of an existing concrete structure floor slab, and further, a mortar or a concrete repair material is applied and hardened to thicken the concrete structure. A repair method for floor slabs of concrete structures, which is characterized by. In the method for repairing a concrete structure floor slab according to claim 3, the thickening is a method for repairing a concrete structure floor slab, characterized in that the upper surface of the concrete structure floor slab is thickened.