JP2018016948A - Concrete repair method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a concrete repair method that can give stable repair effect to the repair target concrete.SOLUTION: This invention relates to a method for repairing concrete including a deterioration part, the method including the step of injecting, into the deterioration part, a concrete repair material containing alkali metal silicate, and an auxiliary material containing a calcium component, nitrite, and an aluminum component.SELECTED DRAWING: None

Description

  The present invention relates to a method for repairing concrete including a deteriorated portion.

  It is known that concrete widely used for civil engineering and building structures deteriorates in structural performance due to various causes such as neutralization, salt damage, acid, etc. with aging. In concrete structures that require watertightness, various measures against water stoppage are taken. In order to suppress and prevent the intrusion of deterioration factors such as water and carbon dioxide into concrete, there are various methods for improving the durability of concrete, such as using waterproofing, water-stopping materials, and protective materials. Proposed.

  Conventionally, a method of repairing concrete cracks by applying or injecting an organic material such as an epoxy resin is generally used (for example, Patent Document 1).

Moreover, there is a surface impregnation method as one of the repair methods for concrete structures, and its use is rapidly increasing in recent years due to ease of construction and economy. As one of them, there is a silicate surface impregnation method using a silicate surface impregnation material mainly composed of an alkali metal silicate which is one of the surface impregnation materials (for example, Non-Patent Document 1). This method is a method that utilizes the reaction between concrete and a silicate surface impregnating material to form a C—S—H bond. Specifically, a silicate surface impregnating material is impregnated from the concrete surface. By allowing the voids on the concrete surface to react with the solidified material or calcium component (calcium oxide) in the concrete and filling with so-called C—S—H (CaO.SiO ₂ .H ₂ O) bonded gel, It is intended to improve durability. For example, Patent Document 2 discloses a method of reinforcing concrete using a reaction accelerator for promoting the reaction between a silicate surface impregnating material and concrete and a silicate surface impregnating material.

  On the other hand, when a structural member of a concrete structure deteriorates, there is a repair method in which a mortar composition is applied after removing the deteriorated portion. For example, in Patent Document 3, a primer layer is formed by applying a synthetic resin emulsion diluted with water on the inner wall surface of a recess formed by removing a portion including a deteriorated portion, and mortar is further formed in the recess. A repair method for filling the composition is disclosed.

JP 2014-234510 A Japanese Patent No. 5751499 JP2013-203559A

Published by Japan Society of Civil Engineers “Concrete Library 137 Design and Construction Guidelines for Silicate Surface Impregnation Method (Draft)”

However, in the concrete repair method using an organic resin such as an epoxy resin, the organic resin deteriorates in a few years, and the epoxy resin cannot be used in a leaked portion of a cracked portion. It was. In addition, silicate surface impregnated materials can be used even at leak locations, but the repair effect depends on the reaction with calcium ions in the concrete, so the concrete repair effect is not sufficient and there is room for improvement. was there.
In general, the epoxy resin has a high viscosity (100 to 1000 Pa · s), and it is difficult to inject the material to the deep part of the crack. In addition, conventional silicate surface impregnating materials have a lower viscosity than epoxy resins and are easy to apply and inject into cracks, but the gel formed is small and there is a tendency that sufficient repair effect is not obtained. It was.

  Under such circumstances, an object of the present invention is to provide a concrete repair method capable of providing a stable repair effect to the concrete to be repaired.

  As a result of intensive studies to solve the above problems, the present inventor has found that the following inventions meet the above object, and have reached the present invention.

That is, the present invention relates to the following inventions.
<1> A method for repairing concrete including a deteriorated portion, wherein a concrete repair material containing an alkali metal silicate salt and an auxiliary material containing a calcium component, a nitrite and an aluminum component are injected into the deteriorated portion. Concrete repair method including process.
<2> A method for repairing concrete including a deteriorated portion, wherein a concrete repair material containing an alkali metal silicate salt and an auxiliary material containing a calcium component, a nitrite and an aluminum component are applied to the deteriorated portion. Concrete repair method including process.
<3> A method for repairing a concrete including a deteriorated portion, wherein a concrete repair material containing an alkali metal silicate salt and a calcium component are formed on the inner wall surface of a recess formed by removing a portion including a deteriorated portion of the concrete. A method for repairing concrete, comprising a step of applying an auxiliary material containing nitrite and an aluminum component.
<4> The method for repairing concrete according to any one of <1> to <3>, wherein the deteriorated portion is a deteriorated portion including a crack.
<5> The concrete repair method according to any one of <1> to <4>, wherein the concrete repair material and the auxiliary material are mixed and used before construction.
<6> The concrete according to any one of <1> to <5>, wherein the auxiliary material includes 0.05% by weight to 1% by weight of an aluminum component when the auxiliary material is 100% by weight. Repair method.
<7> The concrete repair method according to any one of <1> to <6>, wherein the auxiliary material has a pH of 10 or more.
<8> A two-component mixed liquid composed of a concrete repair material containing an alkali metal silicate salt and an auxiliary material containing a calcium component, a nitrite and an aluminum component.

  ADVANTAGE OF THE INVENTION According to this invention, the concrete repair method which can provide the stable repair effect with respect to the concrete of repair object is provided.

It is a figure which shows an example of the repair method of the concrete of this invention. It is a figure which shows an example of the repair method of the concrete of this invention. 2 is a photograph showing the state of introduction of cracks in the specimen used in Example 1. FIG. 2 is a photograph of a water permeability test apparatus used for evaluation of Example 1. FIG. It is a figure showing the result of the crack water permeability test of Example 1, Comparative Example 1, and Comparative Example 2.

  DESCRIPTION OF EMBODIMENTS Embodiments of the present invention will be described in detail below. However, the description of constituent elements described below is an example (representative example) of an embodiment of the present invention, and the present invention is described below unless the gist thereof is changed. It is not limited to the contents. In addition, when using the expression “to” in this specification, it is used as an expression including numerical values before and after that.

<1. Concrete repair method>
The present invention relates to a concrete repair material containing an alkali metal silicate (hereinafter sometimes referred to as “the concrete repair material of the present invention” or simply “concrete repair material”), a calcium component, a nitrite, and an aluminum component. A concrete repair method using an auxiliary material (hereinafter, sometimes referred to as “auxiliary material of the present invention” or simply “auxiliary material”). It is classified into an embodiment and a third embodiment.

  A first aspect of the concrete repair method of the present invention is a concrete repair method including a deteriorated portion, wherein the deteriorated portion contains a concrete repair material containing an alkali metal silicate, a calcium component, and nitrite. A concrete repairing method including a step of injecting an auxiliary material containing an aluminum component.

  A second aspect according to the concrete repair method of the present invention is a concrete repair method including a deteriorated portion, wherein the deteriorated portion contains a concrete repair material containing an alkali metal silicate, a calcium component, and nitrite. It is a concrete repairing method including a step of applying an auxiliary material containing an aluminum component.

  A third aspect of the concrete repairing method of the present invention is a concrete repairing method including a deteriorated part, wherein the part including the deteriorated part of the concrete is suspended and formed on the inner wall surface of the recess. A concrete repair method including a step of applying a concrete repair material containing an acid-alkali metal salt and an auxiliary material containing a calcium component, a nitrite and an aluminum component.

  Hereinafter, the first to third aspects according to the present invention are collectively referred to as “the repair method of the present invention”.

One of the features of the repair method of the present invention is to use a concrete repair material containing an alkali metal silicate salt and an auxiliary material containing a calcium component, a nitrite and an aluminum component. In the repair method of the present invention, the concrete, the concrete repair material, and the auxiliary material are reacted on the inner wall surface of the recess formed by removing the concrete-degraded portion or the portion including the concrete-degraded portion, thereby producing a CS. -H-bonded gel is formed.
When a silicate-based surface impregnated material mainly composed of an alkali metal silicate and concrete react with each other to form a gel, calcium ions must be present at the reaction site. This calcium ion may be derived from concrete, but since there is also concrete made of cement with a low calcium concentration such as blast furnace cement, this calcium ion may be insufficient and the gel may not be sufficiently formed. In the repair method of the present invention, by using a concrete repair material containing an alkali metal silicate salt and an auxiliary material containing a calcium component, a nitrite and an aluminum component, concrete, an alkali metal silicate salt, calcium ion Can coexist and it is easy to form a gel.

  In addition, the gel formed in the repair method of the present invention has an excellent repair effect compared to the gel formed when a conventional silicate surface impregnating material is used. It is presumed that, in addition to the metal salt and calcium ion, nitrite and an aluminum component coexist so that the formed gel is large and resistant to drying. In addition, since the formed gel is difficult to shrink in volume, it is presumed that the gel is hardly dried and shrinks even after a long time, and the repair effect is sustained.

  Further, in the repair method of the present invention, when deterioration such as cracks reaches around the reinforcing bar, a gel is also formed in the vicinity of the reinforcing bar due to the reaction between the concrete, the concrete repairing material, and the auxiliary material. The formed gel suppresses intrusion of deterioration factors such as chloride ions and carbon dioxide from the outside, and the rebar is less likely to rust. That is, not only a repair effect but also a rust prevention effect can be imparted to the reinforcing bars.

  As described above, according to the present invention, not only a stable repair effect on concrete but also an intrusion of a new deterioration factor (water, carbon dioxide, etc.) from the outside and an antirust effect can be imparted to the reinforcing bar. Moreover, since the repair method of this invention can also repair the water leak location of a crack part, it can repair the concrete structure of various uses, and can be used especially for water stop.

Concrete to be repaired by the repair method of the present invention is concrete of existing concrete structures such as bridge piers, beams, walls, floors, ceilings, mounts, dams, sabo dams, tunnels, buildings, etc., and includes deteriorated parts. .
The deteriorated portion may be concrete deteriorated by any deterioration mechanism, and may include not only aged deterioration but also an initial defect due to a construction failure, and the concrete structure may be newly established or existing.

  Specific examples include concrete in which cracks, floats, and detachment have occurred, concrete including a porous portion caused by chemical corrosion, concrete in which jumpers are generated, and the like.

  One of the suitable repair objects of the repair method of the present invention is concrete containing cracks. The concrete repair material of the present invention has a lower viscosity than organic epoxy resins (100 to 1000 Pa · s) generally used for repairing concrete, penetrates deep into cracks, and reacts with concrete. It is easy to form a gel. In addition, the gel formed is large and strong, and hardly shrinks in volume over time. For this reason, the repair method of the present invention tends to provide a sufficient repair effect in repairing concrete containing cracks.

Concrete is not particularly limited, ordinary concrete, pavement concrete, AE concrete, fluidized concrete (concrete with improved workability using a fluidizing agent), cellular concrete (mixed with a large amount of air bubbles using a foaming agent, Lightweight concrete), fly ash concrete (concrete mixed with high quality fine ash produced by the combustion of fine coal in a thermal power plant), blast furnace cement concrete, and the like.
In the present specification, “concrete” includes mortar, and “concrete structure” includes not only concrete but also a structure partially including mortar.

  Even if the concrete has no deteriorated part, when the concrete repair material of the present invention and the auxiliary material of the present invention are applied to the concrete surface, a gel is formed on the concrete surface. Invasion of deterioration factors can be suppressed. Therefore, the concrete repair material of this invention and the auxiliary material of this invention can also be apply | coated for the purpose of protection of concrete to the surface of concrete without a degradation part, or the surface of the concrete after repair.

  In the repair method of the present invention, the concrete to be repaired, the concrete repair material of the present invention, and the auxiliary material of the present invention react to form a gel so that the concrete can be repaired. Accordingly, the concrete repair material of the present invention and the auxiliary material of the present invention may be constructed separately, or the concrete repair material of the present invention and the auxiliary material of the present invention are mixed before construction and constructed as a mixed liquid. May be.

  When applying concrete repair material and auxiliary material separately, either concrete repair material or auxiliary material may be applied first, but in order to further improve the repair effect, it is preferable to construct the auxiliary material first. .

  In this specification, “construction” refers to applying the concrete repair material of the present invention and the auxiliary material of the present invention to the deteriorated part, or the concrete repair material of the present invention and the auxiliary material of the present invention to the deteriorated part. Or the concrete repair material of the present invention and the auxiliary material of the present invention are applied to the inner wall surface of the recess formed by suspending and forming the portion including the deteriorated portion.

  When concrete repair material and auxiliary material are constructed separately, the amount of concrete repair material and auxiliary material to be constructed is determined appropriately depending on the composition and purpose of use of the repair target, but the ratio of concrete repair material and auxiliary material is The weight ratio is preferably 10/1 to 1/10, more preferably 5/1 to 1/5, and more preferably 2/1 to 1/2. Further preferred.

<2. Concrete repair materials and auxiliary materials>
Hereinafter, the concrete repair material and auxiliary material common to the third to third aspects according to the concrete repair method of the present invention will be described in more detail. Each mode will be described later in <3. First aspect of the concrete repair method of the present invention>, <4. Second aspect of the concrete repair method of the present invention>, <5. The third embodiment according to the concrete repair method of the present invention will be described in detail.

[Concrete repair material]
The concrete repair material used in the repair method of the present invention is a liquid composition containing an alkali metal silicate salt. The concrete repair material plays a role of repairing concrete by reacting with concrete and forming a gel of C—S—H bonds.

  As the alkali metal silicate salt, specifically, at least one alkali metal silicate salt selected from lithium silicate, sodium silicate, or potassium silicate is generally used. The metal salt is preferably a sodium salt or a potassium salt.

The main component of the concrete repair material of the present invention is an alkali metal silicate, but may contain additives and subcomponents in addition to the alkali metal silicate within a range not impairing the object of the present invention.
Additives appropriately added to the concrete repair material of the present invention include surfactants such as lower alcohols such as ethanol and dodecyltrimethylammonium chloride that improve impregnation properties, reaction retarders such as boron, and freezes such as potassium carbonate. Examples thereof include a resistance agent, a functional additive added for the purpose of improving water resistance, acid resistance, wear resistance, and the like, calcium nitrate, and the like.

  In addition, as a secondary component of the concrete repair material of the present invention, alkylalkoxysilane, polyorganosiloxane for imparting water repellency, colloidal silica for improving the filling rate, vinyl acetates for strengthening coating curing And polymer emulsions such as acrylic copolymers.

  As the solvent for the concrete repair material of the present invention, generally, the alkali metal silicate salt, additive, subcomponents and the like are selected from those dissolved or dispersed in water, and the concrete to be repaired is: Since civil engineering buildings are often exposed to the natural environment, water with a low risk of polluting the natural environment is often used.

  The composition of the concrete repair material of the present invention is adjusted depending on the purpose of use of the concrete, but when the entire concrete repair material is 100% by weight, the dry solid content is preferably 10% by weight or more. Preferably it is 15 weight% or more. The upper limit is appropriately adjusted in consideration of workability and the like, but is 50% by weight or less, preferably 35% by weight or less. The “dry solid content” is obtained by removing the solvent component from the concrete repair material, and is obtained from the solid content when the concrete repair material is dried and the weight change with time is almost eliminated.

In addition, the concrete repair material of the present invention has a low viscosity as compared with organic epoxy resins (100 to 1000 Pa · s) generally used for concrete repair, and easily penetrates into the surface and inside of the concrete. It is easy to fill the deteriorated part.
In particular, when the concrete repair material and the auxiliary material are separately applied to repair the concrete containing cracks, the viscosity of the concrete repair material of the present invention is 10 mPa · s or less in order to further improve the repair effect. preferable. When it is larger than 10 mPa · s, it is difficult to penetrate into the concrete surface and internal cracks, and the repair effect tends to be lowered. Since the viscosity of the concrete repair material of the present invention is 10 mPa · s or less, it can penetrate and close into the finer cracks (for example, fine cracks of 0.2 mm or less), so a more excellent repair effect Can be demonstrated.

  In addition, the viscosity of the concrete repair material of this invention can be measured by methods, such as a vibration viscometer and a rotational viscometer. In order to adjust the concrete repair material of the present invention to a desired viscosity, in addition to preparing the concrete repair material so as to achieve the desired viscosity, the concrete repair material having a low viscosity is concentrated after the preparation, or the viscosity is high. The concrete repair material may be diluted with a solvent after preparation.

[Auxiliary material]
The auxiliary material used in the repair method of the present invention is a liquid composition containing a calcium component, a nitrite, and an aluminum component and playing a role of promoting the reaction between the above-described concrete repair material and concrete.
In the auxiliary material of the present invention, the calcium component, nitrite, and aluminum component may be completely dissolved, or may be mixed in a dispersed state, or these components may be mixed at a high concentration. Although it may be in the form of a slurry, it is preferably used as a solution in which a calcium component, a nitrite, and an aluminum component are dissolved or dispersed from the viewpoint of workability. As a solvent, water is generally the main component.
Further, the main components of the auxiliary material of the present invention are a calcium component, a nitrite, and an aluminum component. However, as long as the object of the present invention is not impaired, a dispersant, a pH adjuster, a viscosity adjuster, etc. May be contained.

(Calcium component)
The auxiliary material of the present invention contains a calcium component. This calcium component is generally adjusted in a state in which the calcium component is dissolved or dispersed in an aqueous solution, like nitrite. As the calcium component, for example, calcium nitrite can be used as a nitrite, a reagent such as Ca (OH) ₂ can be used, or a calcium component derived from cement eluate can be used. In general, a raw material used for a concrete structure containing a calcium component has low solubility even when it is dispersed in water, and the dissolved calcium ion concentration may not be high. For this reason, the calcium solution used for the auxiliary material of the present invention may be used as a saturated calcium solution to be dissolved, or as a dispersed calcium solution (dispersion) that is not completely dissolved. Alternatively, the dispersed liquid may be allowed to stand for a while, and the supernatant may be used as a solution containing a calcium component.

(Nitrite)
The auxiliary material of the present invention contains nitrite. The nitrite contained in the auxiliary material of the present invention is a salt of nitrous acid and a light metal such as an alkali metal or alkaline earth metal. Specifically, lithium nitrite, potassium nitrite, and calcium nitrite are included. Illustrated. The concentration of nitrite in the auxiliary material is determined by reacting with the concrete repair material of the present invention on the concrete surface or inside, considering the composition of the concrete repair material, the calcium concentration in the concrete, the combination of nitrite, etc. It adjusts suitably so that a gel can be obtained. However, if the concentration is too low, the reaction may not be sufficiently promoted. Therefore, as the concentration in the auxiliary material of the present invention, the concentration of nitrite is preferably 0.5 mmol / L (0.5 × 10 ⁻³ mol). / L) or more, more preferably 1.0 mmol / L or more. The upper limit of the concentration of nitrite is not particularly limited and may be a saturated solution, but may be 0.2 mol / L or less, and the reaction can be sufficiently promoted even at 0.1 mol / L or less. Further, depending on the type and concentration of nitrite, the time required for the reaction, the structure of the gel, the density of the resulting gel, etc. vary.

(Aluminum component)
The auxiliary material of the present invention contains an aluminum component. By containing the aluminum component, the gel generation rate can be adjusted, and the gel can be formed in a shorter time. Furthermore, it is possible to form a gel having a large volume, and the formed gel is unlikely to deteriorate due to shrinkage over time.

  The aluminum component contained in the auxiliary material of the present invention is not particularly limited as long as it can be dissolved or dispersed in the auxiliary material, and examples thereof include aluminum hydroxide and alumina. The aluminum component contained may be one type or may contain two or more different components.

  Further, the content of the aluminum component contained in the auxiliary material can be appropriately determined in consideration of the strength of the gel formed, the gel formation speed, workability, etc. within the range that does not impair the object of the present invention. When the content is 100% by weight, the aluminum component is preferably contained in an amount of 0.05 to 1% by weight, more preferably 0.05 to 0.5% by weight.

  The auxiliary material of the present invention is adjusted so that the pH becomes alkaline. Since the auxiliary material of the present invention can adjust the reaction time and the performance and size of the gel formed by adjusting the pH, adjusting the pH according to the place of use and the purpose of use provides a more stable repair effect. Can be obtained. When it is necessary to quickly form a gel, such as when instantaneously leaking at a water leakage point, the gel is easily formed in a short time if the pH of the auxiliary material is adjusted to about 8. In order to form a denser and stronger gel and further enhance the repair effect on the concrete, the pH is preferably 8 or more, more preferably 10 or more, and even more preferably 11.5 or more.

[Mixed liquid of the concrete repair material of the present invention and the auxiliary material of the present invention]
Moreover, in the repair method of this invention, a concrete repair material and an auxiliary material can be mixed and used before construction. That is, a two-component mixed liquid mixture (hereinafter referred to as “mixed liquid of the present invention” or an auxiliary material containing a calcium component, a nitrite and an aluminum component) or a concrete repair material containing an alkali metal silicate salt. It may be simply referred to as “mixed solution”).
By using the mixed liquid of the present invention, the concrete, the concrete repair material, and the auxiliary material can react more efficiently. Therefore, it is easy to improve the repair effect by using the mixed liquid for repairing concrete including relatively large cracks. Moreover, the construction process can be simplified.

  When concrete repair materials and auxiliary materials are mixed and used before construction, the pH and viscosity of each of the concrete repair materials and auxiliary materials and the content of each component are considered within the range where the object of the present invention is not impaired. What is necessary is just to adjust a liquid mixture.

  The mixing ratio of the concrete repair material and the auxiliary material is adjusted within a range not impairing the object of the present invention, and the ratio of the concrete repair material and the auxiliary material is preferably 10/1 to 1/10 as a weight ratio. / 1 to 1/5 is more preferable, and 2/1 to 1/2 is further preferable.

  The mixing method in the case where the concrete repair material and the auxiliary material are mixed before use is not particularly limited as long as the object of the present invention can be achieved. For example, a method of mixing the concrete repair material and the auxiliary material includes a method of mixing with a hand mixer or a static mixer, and the concrete repair material and the auxiliary material can be used for the construction while being mixed with the mixer or the like.

  In addition, the liquid mixture of the present invention is applied not only to concrete repair but also to the surface of the concrete having no deteriorated part, so that a gel layer is formed, and the intrusion of deterioration factors from the outside into the concrete is suppressed. Can also be protected. For this reason, the liquid mixture of this invention can also be used as a protective material for protecting concrete.

  Hereinafter, the first to third aspects according to the concrete repair method of the present invention will be described in more detail.

<3. First aspect according to concrete repair method of the present invention>

The 1st aspect which concerns on the concrete repair method of this invention is a concrete repair method including the process of inject | pouring a concrete repair material and an auxiliary material into a deteriorated part.
By injecting the concrete repair material and the auxiliary material into the deteriorated part, it is easier to form the gel in the deteriorated part more efficiently. Further, when the deteriorated portion is cracked, the concrete repair material and the auxiliary material are likely to penetrate to the deep crack portion.
Not only is the gel repaired at the deteriorated part, but the concrete around the deteriorated part is also densified, suppressing the diffusion of internal deterioration factors and the intrusion of external deterioration factors, resulting in an excellent repair effect. It is done.

  It is possible to inject concrete repair material and auxiliary material directly into the deteriorated part near the surface of the concrete, but for concrete where cracks extend deep inside, or concrete containing deteriorated parts such as voids inside the concrete. It is preferable that the deteriorated portion is drilled from the surface of the concrete to provide an injection hole, and the concrete repair material and the auxiliary material are injected from the injection hole.

  The method for injecting the concrete repair material, the auxiliary material, or the mixed liquid of the concrete repair material and the auxiliary material can be applied by appropriately combining known methods within a range not impairing the object of the present invention. For example, if the object to be repaired is a crack, the conventional injection method as specified in the concrete crack investigation, repair / reinforcement guidelines, etc. can be used. It will be changed as appropriate according to the purpose and location of the concrete.

  In general, the injection is performed under pressure, and the pressure is appropriately determined within a range that does not impair the object of the present invention. There are two methods for injecting under pressure: a method using a high pressure and a method using a low pressure. When injection is performed at a high pressure, it is preferable to perform injection at an injection pressure of 0.5 to 24 MPa, and injection at a low pressure. When performing, it is preferable to inject | pour with the injection pressure of 0.01-0.5 Mpa.

  Since the concrete repair material of the present invention, the auxiliary material of the present invention, or the mixed liquid in which the concrete repair material and the auxiliary material are mixed can provide a sufficient repair effect even at low viscosity, it is injected at an injection pressure of 0.5 to 24 Mpa. More preferably. By injecting at a high pressure of 0.5 to 24 Mpa, the concrete repair material and the auxiliary material can be injected into the deteriorated portion inside the concrete in a shorter time, so that the construction time can be shortened. In particular, the concrete repair material and the auxiliary material are injected up to the crack deep part and gel is easily formed.

  Moreover, the concrete repair material, the auxiliary material, or the mixed liquid can be used even in a wet state, and the concrete repair material and the auxiliary material of the present invention can be injected even when the inside of the crack is wet. Moreover, even when water is flowing out from the crack, the concrete repair material and auxiliary material of the present invention can be injected. For this reason, it is possible to repair concrete structures of various uses quickly.

  Further, another process may be provided before and after the process of injecting the concrete repair material and the auxiliary material into the deteriorated portion.

An example of a method for injecting a concrete repair material and an auxiliary material into the deteriorated portion is shown in FIG. In FIG. 1, first, an injection hole is drilled from the concrete surface of a portion where no crack is generated into the crack at a predetermined angle with respect to the crack of the concrete. Next, an injection plug with a check valve is attached to the injection hole. Next, pressure is applied using a compressor to inject the mixed liquid of the concrete repair material and the auxiliary material into the crack until a predetermined amount is reached.
Concrete can be repaired by injecting a mixed liquid of concrete repair material and auxiliary material into cracks in the concrete and then curing until the concrete repair material is cured.

  In FIG. 1, the concrete repair material and the auxiliary material may be injected separately.

<4. Second aspect of the concrete repair method of the present invention>
The 2nd aspect which concerns on the concrete repair method of this invention is a concrete repair method including the process of apply | coating a concrete repair material and an auxiliary material to a deteriorated part.

  Such an aspect is suitable when the object to be repaired is concrete with surface degradation. Examples of concrete having deteriorated surface include concrete in which cracks, peeling, and floating have occurred on the concrete surface, concrete made porous by chemical corrosion, concrete in which initial defects such as junkers have occurred, and the like.

  By applying a concrete repair material and an auxiliary material to the surface of the concrete whose surface has deteriorated, the concrete can be repaired by forming a gel in the deteriorated portion as described above. In addition, a gel layer is also formed on the portion where the concrete surface is not deteriorated, and the invasion of deterioration factors from the outside into the concrete can be further suppressed, so that an excellent repair effect can be obtained.

  The method of applying the concrete repair material, the auxiliary material, or the mixed liquid of the concrete repair material and the auxiliary material can be appropriately selected within a range not impairing the object of the present invention, and is not particularly limited. For example, methods such as spraying, roller coating, and brush coating can be used. The application amount is appropriately changed according to the purpose of use and the use location of the concrete to be repaired.

Moreover, you may provide another process before and after the process of apply | coating a concrete repair material and an auxiliary material to a deteriorated part.
For example, before the step of applying the concrete repair material and the auxiliary material onto the concrete, protrusions and deposits on the concrete surface may be removed so that the application surface becomes flat to some extent.
Moreover, in order to accelerate | stimulate the formation reaction of the gel of a CHS bond, you may perform drying processes and watering processes, such as natural drying and heat processing, after application | coating.

<5. Third Aspect According to Concrete Repair Method of the Present Invention>
Further, the third aspect of the concrete repair method of the present invention is a concrete repair material containing an alkali metal silicate salt on the inner wall surface of the recess formed by scraping and forming a portion including a deteriorated portion of the concrete, A concrete repairing method including a step of applying an auxiliary material containing a calcium component, a nitrite, and an aluminum component.

  In general, the method of forming a concave portion by scratching a part including a deteriorated portion, then forming a primer layer on the inner surface of the concave portion, and further applying a cement composition or the like is known as a cross-sectional repair method. The concrete repair material and auxiliary material of the invention can be used as a material for forming a primer layer in a cross-sectional repair method.

  By setting it as such an aspect, C-H-S gel is formed on the inner wall surface of a recessed part, and the penetration | invasion of the degradation factor from the outside can be suppressed. In addition, it is possible to repair a crack that may occur when the portion including the deteriorated portion is removed, and an excellent repair effect can be obtained.

  The method of applying the concrete repair material, the auxiliary material, or the mixed liquid of the concrete repair material and the auxiliary material can be appropriately selected within a range not impairing the object of the present invention, and is not particularly limited. For example, methods such as spraying, roller coating, and brush coating can be used. The application amount is appropriately changed according to the purpose of use and the use location of the concrete to be repaired.

Further, another step may be provided before and after the step of applying the concrete repair material and the auxiliary material on the inner wall surface of the concave portion formed by removing the portion including the deteriorated portion of the concrete.
For example, after applying the concrete repair material and the auxiliary material, the concave portion may be filled with a cement composition or the like. In the case where the cement composition or the like is filled in the concave portion to which the concrete repair material and the auxiliary material are applied, the concrete repair material can also function as an adhesive that bonds the concrete on the inner wall of the concave portion to the cement composition.
As the cement composition, a composition containing polymer cement mortar, Portland cement, non-shrink mortar, or the like can be used.

  An example is shown in FIG. In FIG. 2, first, a deteriorated part is specified by appearance observation or the like, and a region including the deteriorated part is picked up to form a recess. Next, a concrete repair material and an auxiliary material are separately applied onto the inner wall surface of the recess. Further, the concrete composition is repaired by filling and curing the cement composition in the concave portion where the concrete repair material and the auxiliary material are applied.

  EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited to a following example, unless the summary is changed.

<Example 1>
<1> Adjustment of concrete repair material (1) and auxiliary material (1) [concrete repair material (1)]
As a concrete repair material (1) containing an alkali metal silicate, an aqueous sodium silicate solution (manufactured by Wako Pure Chemical Industries, Ltd.) was used.

[Auxiliary material (1)]
A saturated aqueous calcium hydroxide solution was used as the calcium component. A 0.2 mol / L calcium nitrite aqueous solution and a 0.2 mol / L lithium nitrite aqueous solution were used as nitrites. Aluminum hydroxide was used as the aluminum component. Moreover, sodium hydroxide aqueous solution was used as a pH adjuster.
First, 264 ml of an aqueous calcium hydroxide solution, 6 ml of an aqueous calcium nitrite solution, 12 ml of an aqueous lithium nitrite solution, and 18 ml of an aqueous sodium hydroxide solution were mixed to obtain a solution A.
Further, 0.3 g of aluminum hydroxide was dissolved in the solution A to obtain an auxiliary material (1).
The pH of the auxiliary material (1) was 12.82.

<2> Evaluation Cracking water permeability according to JSCE-K 572-2012 “Test method for silicate surface impregnated material (draft)” described in “Design and construction guidelines for silicate surface impregnation method (draft)” The test was conducted.

[Preparation of specimen]
A φ100 mm × 200 mm cylindrical mortar was prepared by blending OPC shown in Table 1 below. Cylinder mortar that had undergone water curing for 28 days was placed in a PVC pipe, and epoxy resin was poured into the gap to ensure the adhesion between the concrete and the PVC pipe. After the epoxy resin was solidified, the specimen A was cut with a concrete cutter at intervals of 50 mm, and split by a universal test as shown in FIG. 3 to obtain a specimen A in which cracks of 0.2 mm or less were introduced.

[Repair of concrete (specimen)]
Under the conditions of temperature 20 and humidity 60%, the auxiliary material (1) was applied with 0.1 g / cm ² with a brush only on the surface opposite to the side to be pressurized in the water permeability test of the specimen, and dried for one day.
Next, 0.05 g / cm ² of the concrete repair material (1) was applied to the same surface as the surface to which the auxiliary material (1) was applied with a brush. Then, watering treatment once a day was performed 3 times, and the specimen (1) which performed the repair method of this invention was obtained.

[Permeability test]
As a crack water permeability test apparatus, the one shown in FIG. 4 having a water head difference of 1 m was used as the pressure for allowing water to permeate.
The specimen (1) was attached to a crack permeability test apparatus so that the opposite side of the surface to which the concrete reinforcing material was applied was a pressure face, and a crack permeability test was conducted for 7 days. The results are shown in FIG.

<Comparative Example 1>
The specimen A produced in Example 1 was used as it was without being repaired, and a water permeability test was conducted in the same manner as in Example 1.

<Comparative example 2>
A specimen (2) was prepared in the same manner as in Example 1 except that the solution A (liquid before dissolving aluminum hydroxide) was used instead of the auxiliary material (1) of Example 1, and the water permeability was determined. The test was conducted. The results are shown in FIG.

  As shown in FIG. 5, Comparative Example 1 (the specimen not subjected to repair) had a water permeability of about 1000 g / day, whereas in Example 1, the water permeability could be significantly suppressed. Even when compared with Comparative Example 2, it was confirmed that in Example 1, water permeability could be suppressed more quickly. In Example 1, it was confirmed that the water permeation amount decreased with time.

  The repair method of the present invention can repair a leaked portion of a cracked portion that could not be repaired by a conventional technique using an epoxy resin, and can repair concrete structures for various uses. Therefore, it is expected as a useful means for water stoppage of concrete structures that require watertightness. In addition, the repair method of the present invention applies the technology of surface impregnating material which has already been used in the field of concrete repair in recent years, and this result is expected to have a high ripple effect.

Claims (8)

A method for repairing concrete including deteriorated parts,
A method for repairing concrete comprising a step of injecting a concrete repair material containing an alkali metal silicate into the deteriorated portion and an auxiliary material containing a calcium component, a nitrite and an aluminum component. A method for repairing concrete including deteriorated parts,
A method for repairing concrete comprising a step of applying a concrete repair material containing an alkali metal silicate to the deteriorated portion and an auxiliary material containing a calcium component, a nitrite and an aluminum component. A method for repairing concrete including deteriorated parts,
A concrete repair material containing an alkali metal silicate salt and an auxiliary material containing a calcium component, nitrite and aluminum component are applied to the inner wall surface of a recess formed by removing a portion including a deteriorated portion of concrete. Repair method of concrete including the process to do.   The method for repairing concrete according to any one of claims 1 to 3, wherein the deteriorated portion is a deteriorated portion including a crack.   The concrete repair method according to any one of claims 1 to 4, wherein the concrete repair material and the auxiliary material are mixed and used before construction.   6. The method for repairing concrete according to claim 1, wherein the auxiliary material contains 0.05% by weight or more and 1% by weight or less of an aluminum component when the auxiliary material is 100% by weight.   The method for repairing concrete according to any one of claims 1 to 6, wherein the auxiliary material has a pH of 10 or more. Concrete repair material containing alkali metal silicate,
A two-component mixed liquid mixture comprising an auxiliary material containing a calcium component, a nitrite, and an aluminum component.