JP2017031718A - Reinforced concrete structure repair method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve durability of a reinforced concrete structure by repairing the same in a manner that increases rigidity thereof.SOLUTION: In a reinforced concrete structure repair method, reaction accelerator 10 consisting primarily of calcium nitrite is sprayed or applied on a surface 20a of a reinforced concrete structure 20, and a silicate surface modifier 12 is sprayed or applied after the reaction accelerator 10 permeates a gap and a crack 26 in concrete 22. Then, the reaction accelerator 10, calcium in the concrete 22, and silicic acid in the surface modifier 12 rapidly react and turn into a gel and thereby enabling surface layer concrete 22' to be densified and a large gap such as the crack 26 to be filled. In addition, permeation of a deterioration factor can be curbed and nitrite ions are permeated around a reinforcing bar 24 to produce a rust prevention effect thereon, thereby enabling the reinforcing bar 24 to be protected from corrosion. Thus, the reinforced concrete structure repair method can improve durability of the reinforced concrete structure 20 by repairing the same in a manner that increases rigidity thereof.SELECTED DRAWING: Figure 1

Description

  In particular, the present invention relates to a repair method for a reinforced concrete structure, which is applied to a reinforced concrete structure in which deterioration or deformation has become apparent.

  Conventionally, surface modifiers mainly composed of silane, siloxane, alkali silicate, etc. have been widely used for repairing concrete structures (for example, see Patent Document 1). Among these, silicate-based surface modifiers are mainly composed of sodium silicate, potassium silicate, lithium silicate, or a mixture of two or more of these silicates. It is impregnated inside and combined with calcium in the concrete to form a gel, thereby filling and densifying the voids in the concrete to improve the concrete surface layer and improve the durability.

JP 2011-16664 A

  However, when using the above-mentioned silicate-based surface modifier for neutralized concrete with a low calcium concentration in concrete or concrete using mixed cement such as blast furnace cement, the expected performance is sufficient. There are times when it is difficult to grant. In addition, it is difficult to sufficiently fill the silicate surface modifying material with respect to excessive voids such as cracks, and it is considered that the blocking effect is low. Further, for example, as shown in FIG. 2, in a reinforced concrete structure 20 in a particularly severe environment such as a coastal area, when cracks 26 and the like are generated, deterioration factors such as chloride ions from the cracks 26 (dotted arrows in the figure). The risk of corrosion of the reinforcing bars 24 increases. For this reason, some kind of measures to suppress corrosion of the reinforced steel material are applied to such a reinforced concrete structure.

  The present invention has been made in view of the above problems, and the object of the present invention is not only to improve the surface layer quality, but also to provide a rust-preventing effect on cracked portions and reinforcing the reinforcing bars, thereby further improving the reinforced concrete structure. It is to repair firmly and improve durability.

(Aspect of the Invention)
The following aspects of the present invention exemplify the configuration of the present invention, and will be described separately for easy understanding of various configurations of the present invention. Each section does not limit the technical scope of the present invention, and some of the components of each section are replaced, deleted, or further while referring to the best mode for carrying out the invention. Those to which the above components are added can also be included in the technical scope of the present invention.

  (1) A reaction accelerator mainly composed of calcium nitrite is sprayed or applied to the surface of a reinforced concrete structure, and is infiltrated into the voids of the reinforced concrete structure. A repair method for a reinforced concrete structure, which is dispersed or applied to the surface of the reinforced concrete structure so as to penetrate into the voids of the reinforced concrete structure (claim 1).

  The repair method for a reinforced concrete structure described in this section is to apply a reaction accelerator mainly composed of calcium nitrite before applying or applying a silicate surface modifier to the surface of the reinforced concrete structure. It is sprayed or applied to the surface of the structure. When the reaction accelerator mainly composed of calcium nitrite is sprayed or applied to the surface of the reinforced concrete structure, it penetrates into the voids inside the reinforced concrete structure from the surface. Furthermore, the reaction accelerator reaches the reinforcing bar portion inside the reinforced concrete structure depending on the deterioration state of the reinforced concrete structure and the distance (cover) from the reinforcing bar to the concrete surface. In this case, nitrite ions contained in the reaction accelerator accumulate in the reinforcing bar portion where the reaction accelerator has reached.

  On the other hand, the silicate-based surface modifier that is sprayed or applied after the reaction accelerator penetrates from the surface into the voids inside the reinforced concrete structure, like the reaction accelerator. As a result, the reaction accelerator calcium that has permeated earlier and the calcium originally contained in the concrete and the surface modifying material silicic acid that have permeated later rapidly react and gel. Further, the same reaction occurs even in a large gap, and the gap is filled with the gel compound. As a result, the surface concrete portion of the reinforced concrete structure is densified and a large gap is closed. In addition, the penetration of deterioration factors such as chloride ions from large voids is suppressed, and the rust prevention effect is imparted to the rebar part where the reaction accelerator has reached by the accumulated nitrite ion. Is suppressed. For this reason, a reinforced concrete structure is repaired more firmly and durability is improved.

  Furthermore, the repair method for reinforced concrete structures described in this section is applied to reinforced concrete structures including concrete with low calcium concentration, such as neutralized concrete and concrete using mixed cement such as blast furnace cement. Is also good. That is, even in such a reinforced concrete structure, since a reaction accelerator mainly composed of calcium nitrite is sprayed or applied before spraying or applying a silicate-based surface modifier, concrete Calcium is replenished to the surface and voids. Therefore, the reaction between calcium and silicic acid is promoted and the expected repair performance is satisfied.

(2) In the above item (1), the reaction promoter is made to reach the reinforcing bar in the reinforced concrete structure through the crack, targeting the reinforced concrete structure in which the crack is generated. A repair method for a reinforced concrete structure that imparts a rust prevention effect (Claim 2).
The repair method for reinforced concrete structures described in this section is intended for reinforced concrete structures where cracks have occurred, and not only in small voids but also during cracks, reaction accelerators and surface modifiers Infiltrate. Then, the reaction accelerator sprayed or applied previously reaches the rebar portion inside the reinforced concrete structure through cracks, and nitrite ions contained in the reaction accelerator accumulate in the rebar portion. Thereby, the rust prevention effect will be provided with respect to the reinforcing bar part of a reinforced concrete structure. Furthermore, since the surface modifying material to be sprayed or applied later reacts with the reaction accelerator that has penetrated into the cracks, the cracks are filled with the gel compound. Thereby, in addition to the provision of a rust-preventing effect, the penetration of deterioration factors such as chloride ions from cracks is suppressed, so that the corrosion of reinforcing bars is suppressed. As described above, even when cracks are generated, the reinforced concrete structure is repaired more firmly and durability is improved.

(3) In the above paragraphs (1) and (2), after the silicate surface modifying material is sprayed or applied, the repair method for a reinforced concrete structure in which water is sprayed on the surface of the reinforced concrete structure (claim 3). ).
The repair method for a reinforced concrete structure described in this section is to spray or apply a reaction accelerator and a surface modifier and then spray the surface of the reinforced concrete structure to clean the surface of the reinforced concrete structure or to remove moisture. Is to replenish. That is, if a silicate surface modifying material is sprayed or applied, the surface of the reinforced concrete structure becomes white and the appearance may be damaged. Is. Furthermore, when the surface of a reinforced concrete structure dries due to direct sunlight, the reaction accelerator and calcium in the concrete and the surface modifier silicic acid are less likely to react. Maintains reactivity and repairs more reliably.

(4) A repair method for a reinforced concrete structure according to (1) to (3) above, wherein a surfactant is added as an additive to the reaction accelerator (claim 4).
The repair method for reinforced concrete structures described in this section is to penetrate the reaction accelerator into the concrete or crack by adding a surfactant as an additive to the reaction accelerator mainly composed of calcium nitrite. It enhances sex. As a result, the reaction accelerator can easily reach the reinforcing bar portion, so that the rust preventing effect is more surely imparted to the reinforcing bar portion, and the reaction accelerator can easily penetrate into the concrete, so that a reactive gel compound is generated. As a result, the reinforced concrete structure is repaired more firmly.

  Since the present invention is configured as described above, it not only improves the surface layer quality, but also provides a rust prevention effect on the cracks and rebars, thereby repairing the reinforced concrete structure more firmly and improving the durability. It becomes possible to make it.

It is image sectional drawing of the reinforced concrete structure for demonstrating the repair mechanism by the repair method of the reinforced concrete structure which concerns on embodiment of this invention. It is image sectional drawing of a reinforced concrete structure for demonstrating a deterioration factor, such as a chloride ion osmose | permeating with respect to a deteriorated reinforced concrete structure, and corroding a reinforcing bar.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the accompanying drawings. Note that the same portions are denoted by the same reference numerals throughout the drawings.
FIG. 1 shows how a reinforced concrete structure 20 is repaired by a repair method for a reinforced concrete structure according to an embodiment of the present invention. Reinforced concrete structure 20 is constructed in a position where there is a concern about corrosion of steel bars due to salt damage or neutralization, such as harbor facilities such as jetty, coastal facilities such as revetments, bridges and concrete floorboards in coastal areas, etc. It is. In the example of FIG. 1, the reinforced concrete structure 20 has a crack 26 that reaches the reinforcing bar 24 inside the concrete 22 from the surface 20 a.

  For the reinforced concrete structure 20 as described above, according to the repair method for the reinforced concrete structure according to the embodiment of the present invention, first, the reaction accelerator 10 mainly composed of calcium nitrite is sprayed or applied to the surface 20a. To do. It is preferable to add a surfactant to the reaction accelerator 10 in advance to improve the permeability to the concrete 22. When the reaction accelerator 10 is sprayed or applied, as shown in FIG. 1A, the reaction accelerator 10 penetrates from the surface 20a into the voids of the concrete 22 near the surface 20a and into the cracks 26. The reaction accelerator 10 that has penetrated through the crack 26 reaches the rebar 24 inside the concrete 22 and adheres to the periphery of the rebar 24.

Next, similarly to the reaction accelerator 10, the silicate-based surface modifier 12 is sprayed or applied to the surface 20 a of the reinforced concrete structure 20. As the surface modifying material 12, a surface modifying material that has been conventionally used is mainly composed of sodium silicate, potassium silicate, lithium silicate, or a mixture of any two or more thereof. be able to. When the surface modifying material 12 is sprayed or applied, as shown in FIG. 1A, the surface modifying material 12 penetrates into the voids of the concrete 22 near the surface 20a from the surface 20a and penetrates into the crack 26. To do. Then, not only the calcium originally contained in the concrete 22 and the silicic acid contained in the surface modifier 12 react, but also the calcium contained in the reaction accelerator 10 that has penetrated earlier, and the surface modification. The silicic acid contained in the material 12 reacts to become a reactive gel compound.
Further, after the surface modifier 12 is sprayed or applied, the surface 20a of the reinforced concrete structure 20 is sprinkled to clean the surface 20a and replenish moisture.
The repair method for a reinforced concrete structure according to the embodiment of the present invention is to repair the reinforced concrete structure 20 by the procedure as described above.

  Now, according to the embodiment of the present invention configured as described above, the following operational effects can be obtained. That is, in the repair method for a reinforced concrete structure according to the embodiment of the present invention, as shown in FIG. 1 (a), the silicate surface modifying material 12 is sprayed or applied to the surface 20a of the reinforced concrete structure 20. Before the reaction, the reaction accelerator 10 mainly composed of calcium nitrite is sprayed or applied to the surface 20 a of the reinforced concrete structure 20. When the reaction accelerator 10 containing calcium nitrite as a main raw material is sprayed or applied to the surface 20 a of the reinforced concrete structure 20, it penetrates into the voids of the concrete 22 from the surface 20 a. Further, the reaction accelerator 10 penetrates through the crack 26 generated in the reinforced concrete structure 20 and reaches the reinforcing bar 24. As a result, nitrite ions contained in the reaction accelerator 10 accumulate around the reinforcing bars 24 that the reaction accelerator 10 has reached.

  On the other hand, the silicate-based surface modifier 12 dispersed or applied after the reaction accelerator 10 penetrates into the voids of the concrete 22 from the surface 20 a in the same manner as the reaction accelerator 10. Then, the calcium of the reaction accelerator 10 that has permeated earlier and the calcium originally contained in the concrete 22 and the silicic acid of the surface modifier 12 that has permeated later rapidly react and gel. . The same reaction occurs in the crack 26, and the crack 26 is filled with the gel compound 14 as shown in FIG. Thereby, the surface concrete portion 22 ′ of the reinforced concrete structure 20 can be densified, and a large gap such as the crack 26 can be closed. Furthermore, penetration of deterioration factors such as chloride ions (indicated by dotted arrows in FIG. 1B) from large voids such as cracks 26 can be suppressed, and the reinforcing bar 24 reached by the reaction accelerator 10 has been reached. Since the accumulated nitrite ions can provide a rust-preventing effect, the corrosion of the reinforcing bars 24 can be suppressed. For this reason, it becomes possible to repair the reinforced concrete structure 20 more firmly and to improve durability.

  Furthermore, the repair method for a reinforced concrete structure according to the embodiment of the present invention is applied to a reinforced concrete structure 20 including a concrete having a low calcium concentration, such as a neutralized concrete or a concrete using a mixed cement such as a blast furnace cement. Applicable. That is, even in such a reinforced concrete structure 20, before the silicate-based surface modifier 12 is sprayed or applied, the reaction accelerator 10 mainly composed of calcium nitrite is sprayed or applied. Therefore, calcium is replenished to the surface and voids of the concrete 22. Therefore, the reaction between calcium and silicic acid can be promoted, and the expected repair performance can be satisfied.

  Further, the repair method for a reinforced concrete structure according to the embodiment of the present invention is to spray or apply the reaction accelerator 10 and the surface modifier 12, and then spray water on the surface 20a of the reinforced concrete structure 20, The surface 20a of the reinforced concrete structure 20 may be washed or replenished with moisture. That is, if the silicate surface modifying material 12 is sprayed or applied, the surface 20a of the reinforced concrete structure 20 becomes white and the aesthetic appearance may be impaired. Can be suppressed. Furthermore, when the surface 20a of the reinforced concrete structure 20 is dried by direct sunlight or the like, the reaction accelerator 10 and the calcium in the concrete 22 and the silicic acid of the surface modifier 12 are difficult to react with each other. It is possible to maintain the reactivity by replenishing and to repair more reliably.

Furthermore, in the repair method for a reinforced concrete structure according to the embodiment of the present invention, a surfactant is added as an additive to the reaction accelerator 10 containing calcium nitrite as a main raw material, so that the concrete of the reaction accelerator 10 Permeability into 22 and crack 26 may be increased. As a result, the reaction accelerator 10 can easily reach the rebar 24, so that the rust prevention effect can be more reliably imparted to the rebar 24, and the reaction accelerator 10 can easily penetrate into the concrete 22. The range where the property gel compound 14 is generated increases, and the reinforced concrete structure 20 can be repaired more firmly.
In addition, the repair method of the reinforced concrete structure according to the embodiment of the present invention is not only for the reinforced concrete structure 20 in which the deterioration or deformation is actualized as described above, but also for the newly reinforced concrete structure 20, Applicable for preventive maintenance.

  10: Reaction accelerator, 12: Surface modifier, 20: Reinforced concrete structure, 20a: Surface of reinforced concrete structure, 24: Reinforcing bar, 26: Cracked

Claims (4)

  A reaction accelerator mainly composed of calcium nitrite is sprayed or applied to the surface of the reinforced concrete structure and allowed to penetrate into the voids of the reinforced concrete structure, and then the silicate-based surface modifier is added to the reinforced concrete. A repair method for a reinforced concrete structure, characterized by being sprayed or applied to the surface of the structure and permeating the voids of the reinforced concrete structure.   Targeting the reinforced concrete structure in which cracks are generated, the anti-rust effect is imparted to the reinforcing bars by allowing the reaction accelerator to reach the reinforcing bars in the reinforced concrete structure through the cracks. The repair method for a reinforced concrete structure according to claim 1.   The method for repairing a reinforced concrete structure according to claim 1 or 2, wherein water is sprayed on the surface of the reinforced concrete structure after the silicate surface modifying material is sprayed or applied. The repair method for a reinforced concrete structure according to any one of claims 1 to 3, wherein a surfactant is added as an additive to the reaction accelerator.

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