JPH1179868A - Alkali recovery of neutralized concrete - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for recovering the alkalinity of neutralized concrete capable of making an alkali recovering agent reach the deep part and to control moss, etc., growing on the surface and in the interior of cracks of concrete body. SOLUTION: This alkali recovery of neutralized concrete comprises pressing an alkali recovering agent into cracks produced in a concrete body or made joints. In the operation, the surface of the concrete body except an infection part may be coated with a film forming agent. At least the alkali recovering agent or the film forming agent is mixed with titanium oxide. Sodium silicate is used as the film forming agent.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for recovering alkalinity of neutralized concrete, and more particularly, to a method of alkaline recovery of neutralized concrete in which an alkalinity recovery agent injected from the surface of a concrete body can reach a deep part. Related to the recovery method. Further, the present invention relates to a method for recovering the alkalinity of neutralized concrete, which is capable of suppressing moss and the like growing on the surface of the concrete frame and inside the crack.

[0002]

2. Description of the Related Art Reinforced concrete, after many months,
It reacts by absorbing acid gas such as carbon dioxide gas and sulfur dioxide gas in the air, and neutralization progresses from the surface to neutralize until it reaches a deep part. Due to this neutralization, the reinforcing steel is no longer protected by the alkalinity and corrodes and expands, causing cracks or breaks in the concrete. In order to prevent such deterioration of concrete, application and impregnation of an alkali recovery agent such as alkali silicate has conventionally been performed, and various types of such alkali recovery agents are known.
Specifically, water-soluble silicate compounds (Japanese Patent Publication No. 57-11 / 1982)
988), blast furnace water granulation, Portland cement clinker powder, a mixture of gypsum, expansive material and siliceous fine powder (JP-A-2-175647), an alcohol such as an alkali metal alkoxide, benzoate or cinnamate. Solutions (Japanese Patent Publication No. 5-35699, Japanese Patent Publication No. 5-35699) and the like are known.

[0003]

However, the method for recovering the alkali of concrete using the above-mentioned alkaline recovery agent is carried out by coating the surface of the concrete with cracks with the alkaline recovery agent. However, there is a problem that the concrete does not penetrate from the surface to the depth sufficiently, and thus the neutralization has progressed from the surface to the depth. Therefore, the present inventors, for such problems, in order to infiltrate the alkaline recovery agent from the surface, after various studies on the method of forcibly penetrating, by press-fitting the alkaline recovery agent from the surface,
The present inventors have found that it is possible to penetrate deep into concrete, and have reached the present invention.

Accordingly, a first object of the present invention is to provide a method for recovering alkalinity of neutralized concrete in which an alkalinity recovery agent can reach a deep part. A second problem to be solved by the present invention is that the alkalinity-restoring agent can reach a deep part and neutralized concrete capable of suppressing moss and the like growing on the surface and inside of the concrete frame. Another object of the present invention is to provide an alkaline recovery method.

[0005]

The above objects of the present invention are achieved by the following inventions.

(1) A method for recovering alkalinity of neutralized concrete, wherein an alkali recovery agent is injected into cracks generated in the concrete body or into joints prepared. (2) The method for recovering alkalinity of neutralized concrete as described in (1) above, wherein a coating agent is applied to the surface of the concrete body except for the injection part. (3) The method for recovering alkalinity of neutralized concrete as described in (1) above, wherein titanium oxide is mixed with at least an alkali recovery agent or a coating agent.

[0007] The present invention is a method for recovering the alkalinity of neutralized concrete, which comprises injecting an alkalinity recovery agent into cracks generated in the concrete body or into joints made by the method. It is possible to penetrate the alkalinity restoring agent from the concrete surface deep into the concrete, and to restore the alkalinity of the neutralized concrete.

Further, in the present invention, by applying a coating agent to the surface of the concrete skeleton, the pressurized alkalinity recovery agent permeates deep inside without leaking from the surface, thereby recovering the alkalinity. Furthermore, in the alkali recovery method for neutralized concrete of the present invention, moss or the like that grows on the surface and inside the crack of the concrete body can be suppressed by further mixing titanium oxide with the alkali recovery agent or the coating agent. .

[0009]

Embodiments of the present invention will be described below, but the present invention is not limited thereto. The alkaline recovery method for neutralized concrete of the present invention is characterized in that an alkaline recovery agent is injected into cracks or joints produced in a concrete skeleton, and as the alkalinity recovery agent, conventionally known alkaline recovery agents are used. Used
Water-soluble silicate compounds as described above (JP-B-57-119)
No. 88), blast furnace water granulation, a mixture of Portland cement clinker powder, gypsum, expansive material and siliceous fine powder (see JP-A-2-175647).
Alcohol solution such as alkali metal alkoxide, benzoate or cinnamate (Japanese Patent Publication No. 5-35699,
Japanese Patent Publication No. 5-35699).

[0010] The alkaline recovery method of the present invention is carried out by injecting an alkaline recovery agent from the concrete surface. As the press-fitting means, various press-fitting means are used, and specific examples thereof include a pneumatic method, a rubber elasticity method, a spring method and the like, but are not limited to these press-fitting methods. The pneumatic method includes a method of injecting with air compressed in a pressure tank and a method of injecting with air pressure from a compressor connected by an outer cylinder and a tube. The rubber elasticity method is a method in which a plate in which a rubber sheet is fixed with a frame is adhered on a crack and injected by the restoring force of rubber, a method of injecting using a pressurized rubber provided outside the cylinder, a rubber balloon And a method of injecting with the internal pressure generated inside the balloon.

The pressure at which the alkaline recovery agent is injected is as follows:
Although it varies depending on the type of the alkaline recovery agent, its viscosity, the state of the press-fit portion, and the like, it is preferably 0.3 kg / cm ² to ² kg / cm ² . If the injection pressure is less than 0.3 kg / cm ² , the alkaline recovery agent does not penetrate to a sufficient depth. Further, even if the press-fitting pressure exceeds 2 kg / cm ² , there is not much difference in the effect, which is not economically preferable.

Further, in the present invention, an alkaline recovery agent is press-fitted into cracks generated in the concrete skeleton or the joints made. The joints made between the concrete and the portions where holes are made in the concrete are inserted into the joints. Preferably, a hole or a slit is formed in the concrete surface positively, and an alkaline recovery agent is preferably injected through the hole or the slit. After the press-fitting, it goes without saying that these holes or slits are filled with cement or mortar.

In the present invention, a coating agent is applied to the surface of the concrete body. As the coating agent, water glass is preferable, and a dense coating of the coating agent is formed on the concrete surface. In addition, the alkaline recovery agent injected from the coating does not leak. Therefore, the alkalinity restorer can penetrate deep from the surface to restore alkalinity. In addition, as the coating agent, a permeable waterproofing agent or the like can be used instead of water glass. This coating method of the coating agent may be applied to the entire surface of the concrete surface or may be applied while avoiding cracks, holes or slits.

When the coating agent is applied to the entire surface of the concrete surface, the coating agent may not be applied to these portions depending on the form of cracks, holes, slits, etc.
Such a coating method can be positively performed. When there is no coating on cracks, holes, slits, etc., injection from these cracks, holes, slits, etc., which is an injection portion, is performed favorably.

Further, the present invention is characterized in that titanium oxide is further mixed with an alkaline recovery agent or a film-forming agent, and any of titanium oxide and titanium dioxide can be used as titanium oxide. Further, a mixture thereof may be used. As the crystal form, any of anatase type titanium dioxide powder and rutile type titanium dioxide powder can be used, and anatase type titanium dioxide powder is preferable. By adding these titanium oxides to the alkaline recovery agent or the coating agent, moss or the like that grows on the surface of the concrete frame and inside the cracks by the action of ultraviolet rays can be suppressed. The amount of the titanium oxide used in the present invention is 5 to 50 parts by weight, preferably 5 to 50 parts by weight, based on 100 parts by weight of the alkaline recovery agent.
Parts by weight to 30 parts by weight, more preferably 5 parts by weight to
20 parts by weight. Furthermore, the growth of moss and the like can be further suppressed by using the titanium oxide in combination with a metal such as silver or copper.

(Action) In the alkaline recovery method for neutralized concrete according to the present invention, an alkaline recovery agent is forcibly introduced into the concrete surface to be forced deep into the concrete surface. It can restore alkalinity. Further, by applying a coating agent to the surface of the concrete, it is covered with a dense layer of the coating, so that the injected alkaline recovery agent does not leak from the concrete surface and can penetrate deeply.

Further, in the present invention, by adding titanium oxide to an alkaline recovery agent and / or a coating agent,
Not only the alkalinity of the concrete can be recovered, but also the moss and the like growing on the surface and inside the cracks can be suppressed by the action of titanium oxide, and the aesthetic appearance of the concrete surface can be maintained.

[0018]

EXAMPLES The present invention will be described in more detail with reference to examples of the present invention, but the present invention is not limited to these examples.

Examples 1-3 Water cement ratio 60%, fine aggregate ratio (S / a) 42%, cement amount 300 kg / m ³
Was packed in a 10 × 10 × 20 cm formwork and molded to prepare a test body. The test specimen was left in carbon dioxide gas and neutralized to a position 15 mm from the surface.
Then, a methyl alcohol solution having a concentration of 5% by weight of sodium lithium methoxide benzoate was prepared as an alkalinity recovery agent, and the solution was applied to the neutralized specimen. In the application example, in the comparative example, it was applied to the surface of the test body, and in Examples 1 and 2, press-fitting was performed by a rubber method, and in Example 3, press-fitting was performed by an air method. The injection pressure was 1 kg / cm ² . After 7 days from the test, 1% of phenolphthalene was added to the cross section of the test specimen.
A concentrated aqueous solution was sprayed, and the discolored area was defined as the depth of alkali recovery. Table 1 shows the obtained results.

[0020]

[Table 1]

Examples 4 to 6 Neutralized test specimens were prepared in the same manner as described in Example 1, and a sodium silicate solution was applied to the surface of the test specimen at a coating amount of 100 g / m ^2. After one day, a 5% by weight methyl alcohol solution of lithium methoxide sodium benzoate was injected at an injection pressure of 0.5 kg /
cm ² and 1 kg / cm ² respectively. Determination of the depth of the alkali recovery of the test specimen after the test,
It carried out like Example 1 and the result was shown in Table 2.

[0022]

[Table 2]

[Examples 7 and 8] Water-cement ratio 60%, fine aggregate ratio (S / a) 42%, cement amount 300 kg / m ³
Was packed in a mold frame of 30 × 30 × 5 cm and molded to prepare a test body. The test specimen was left in carbon dioxide gas and neutralized to a position 15 mm from the surface. Then, sodium silicate was used as a coating agent, and titanium oxide fine powder (specific surface area: 50 m ² /
g) was added to prepare a 5% by weight solution (concentration). Further, a methyl alcohol solution having a concentration of 5% by weight of sodium lithium methoxide benzoate was prepared as an alkalinity recovery agent. First, a coating agent was applied at a coating amount of 100 g / m ² on the surface of the test specimen, left for one day, and then an alkaline recovery agent was injected at 1 kg / cm ² from the surface by a pneumatic method.
In Comparative Example 2, a neutralized test body was used without any treatment. These specimens were exposed outdoors for 3 months, and the surface stains were observed. Table 3 shows the obtained results.

[Table 3]

[0024]

According to the method for recovering alkalinity of neutralized concrete according to the present invention, the alkalinity recovering agent is deeply penetrated from the concrete surface by pressing the alkalinity recovering agent into cracks generated in the concrete skeleton or the joints produced. It can be infiltrated and can restore the alkalinity of neutralized concrete. Further, in the present invention, by applying a coating agent to the surface of the concrete skeleton, the pressurized alkalinity recovery agent penetrates deeply into the interior without leaking from the surface, thereby recovering alkalinity. Furthermore, in the alkali recovery method for neutralized concrete of the present invention, moss or the like that grows on the surface and inside the crack of the concrete body can be suppressed by further mixing titanium oxide with the alkali recovery agent or the coating agent. .

Continued on the front page (72) Inventor Toshikatsu Inoue 1-297 Kitabukuro-cho, Omiya-shi, Saitama Mitsubishi Materials Corporation Cement Research Institute

Claims (3)

[Claims] An alkaline recovery method for neutralized concrete, characterized by injecting an alkaline recovery agent into cracks generated in a concrete body or into joints produced. 2. The method for recovering neutrality of neutralized concrete according to claim 1, wherein a coating agent is applied to the surface of the concrete body. 3. The method for recovering neutrality of neutralized concrete according to claim 1, wherein titanium oxide is mixed with at least an alkaline recovery agent or a coating agent.