JP2016029339A - Method for extracting concrete pore solution - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for extracting a concrete pore solution that readily extracts a pore solution from concrete having a low water-to-cement ratio.SOLUTION: A method for extracting a concrete pore solution includes: a first step S101 of soaking concrete to be evaluated in water to add water pressure; and, after the first step S101, a second step S102 of adding pressure on the concrete taken out of water to extract a pore solution from the concrete.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for extracting a pore solution of concrete, for example, a method for extracting a pore solution of concrete produced by centrifugal compaction.

  In general, it is known that the pH of pore solution in concrete decreases with time due to the influence of carbon dioxide gas in the atmosphere. For example, concrete is maintained in a high pH state (alkaline) by calcium hydroxide contained in the concrete, but when calcium hydroxide reacts with carbon dioxide in the atmosphere, calcium carbonate is generated. Calcium hydroxide is reduced and pH is lowered.

  The decrease in pH of the pore solution of concrete, that is, the neutralization of the pore solution, is one phenomenon of the concrete deterioration process. In particular, in reinforced concrete used for construction and civil engineering, corrosion of the reinforcing bar is prevented because the concrete is alkaline, so that the corrosion of the reinforcing bar starts when the pH of the pore solution decreases.

As described above, since the deterioration of the concrete progresses as the pH of the pore solution in the concrete decreases, the degree of deterioration of the concrete can be known by examining the pH of the pore solution in the concrete.
As a method for evaluating the neutralization of concrete, for example, the phenolphthalein method using a color reaction with phenolphthalein as a neutralization indicator is known as the most general and simple method.

  However, the phenolphthalein method is a method that utilizes the properties of phenolphthalein, which is colorless at pH ≦ 7.8 and shows a bright red color at pH ≧ 10.0, so know the specific pH value. I can't.

  Instead of the phenolphthalein method, a concrete method for measuring the pH value of the pore solution in concrete is to attach a pressure extraction jig to the compression test device (pressure extraction device), Methods for extracting the pore solution and measuring the pH of the pore solution with a pH meter are disclosed in Non-Patent Document 1 and Non-Patent Document 2, for example.

Ai Murakami, Seiji Nimura, Yoshinao Inui, “Effects of differences in reactive minerals on alkali-silica reaction on chemical composition of pore solution”, Annual report on concrete engineering, Vol. 20, no. 2, 1998. Shimabukuro, Takashi Sasaki, Hideyoshi Oshita, “Experimental study on the effect of pH transition on the adsorption and desorption properties of chloride ions”, Annual report on concrete engineering, Vol. 26, no. 1, 2004.

  As described above, in the conventional methods described in Non-Patent Documents 1 and 2, it is necessary to extract a pore solution of concrete with a compression test apparatus in order to measure a specific pH value. However, when measuring the pH value of concrete having a small water-cement ratio, it is difficult to extract the pore solution of the concrete. Details will be described below.

  For example, concrete produced by centrifugal compaction, which is one of the concrete production methods, is produced by rotating the concrete and squeezing out water, so it is compared with concrete produced by general vibration compaction. Thus, the water-cement ratio becomes very small. Here, the “water cement ratio” is one of indices indicating the strength of concrete, and represents the ratio of the water weight to the cement weight at the time of cement kneading.

  For example, a general concrete manufactured by vibration compaction or the like has a water cement ratio of 50% or more, whereas a concrete manufactured by centrifugal compaction has a water cement ratio of about 26 to 29%. is there. Therefore, in the case of general concrete, it is possible to extract a pore solution of about 1 to 2% of the concrete weight by a compression test apparatus. However, in the case of concrete manufactured by centrifugal compaction, the same procedure as in the past is used. Even when trying to extract the pore solution, it was difficult to extract an amount sufficient to measure the pH value.

  The present invention has been made in view of the above problems, and an object of the present invention is to make it possible to easily take out a pore solution from concrete having a small water-cement ratio.

  The method for extracting a pore solution of concrete according to the present invention includes a first step (S101) in which concrete to be evaluated is immersed in water and water pressure is applied, and the concrete taken out from the water is added after the first step. And a second step (S102) of extracting a pore solution from the concrete by pressing.

  In the method for extracting a pore solution of concrete, the first step is a step of applying water pressure using a water permeability tester (100) having a container for containing water and a sample and capable of adjusting water pressure in the container. May be included.

  In the method for extracting a pore solution of concrete, the first step may include a step of roughly pulverizing the concrete to be evaluated and then immersing it in water.

  In the above description, the reference numerals with parentheses merely exemplify what are included in the concept of the constituent elements with the reference numerals in the drawings.

  According to the present invention, it is possible to easily take out the pore solution from the concrete having a small water-cement ratio.

FIG. 1 is a flowchart for explaining a method for extracting a pore solution of concrete according to an embodiment of the present invention. FIG. 2 is a diagram schematically showing the configuration of a water permeability tester used in the method for extracting a pore solution of concrete according to an embodiment of the present invention. FIG. 3 is a flowchart showing a specific processing procedure of the step of applying water pressure to the concrete to be evaluated in FIG. FIG. 4 is a diagram schematically showing a configuration of a compression test apparatus used in the method for extracting a pore solution of concrete according to an embodiment of the present invention. FIG. 5 is a flowchart showing a detailed processing procedure of the step of extracting the pore solution from the concrete in FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a flowchart for explaining a method for extracting a pore solution of concrete according to an embodiment of the present invention.
Each process shown in the figure represents a process for extracting the pore solution from the concrete when, for example, evaluating the deterioration degree of the concrete by measuring the pH value of the pore solution of the concrete. In the present embodiment, a case where the concrete to be evaluated is concrete having a small water-cement ratio manufactured by centrifugal compaction will be described as an example.

  As shown in FIG. 1, first, concrete to be evaluated is immersed in water and water pressure is applied (S101). Next, the pore solution is extracted from the concrete by pressurizing the concrete taken out from the water (S102). Through the above steps, the pore solution can be easily extracted from the concrete having a small water-cement ratio. Hereinafter, each step in the above method will be described in more detail.

First, step S101 will be described.
Step S101 is performed by, for example, putting a concrete piece cut out from the concrete to be evaluated as a test piece into a water permeability tester.

FIG. 2 is a diagram schematically showing the configuration of a water permeability tester used in the method for extracting a pore solution of concrete according to an embodiment of the present invention.
As shown in the figure, the water permeability tester 100 is a device having a container for containing water and a sample and capable of adjusting the water pressure in the container, for example, for performing a pressure water permeability test of concrete. Device. Specifically, the water permeability tester 100 includes a sample unit 101 as a container for containing a sample and water, and a pressure driving unit 102 for adjusting the water pressure in the sample unit 101. In the water permeability tester 100, the concrete piece 10 to be evaluated is immersed in the sample portion 101 filled with water, and water pressure is applied to the sample portion 101 to promote water absorption of the concrete piece 10. In addition, the shape of the concrete piece 10 is not limited to the shape shown by FIG.

FIG. 3 is a flowchart showing a specific processing procedure of the step of applying water pressure to the evaluation target concrete in FIG. 1 (S101).
In step S101, first, a concrete piece 10 to be evaluated is put into a sample portion 102 filled with water (H ₂ O) 103 (S1011). Next, a predetermined water pressure is applied to the concrete piece 10 for a predetermined period so that the weight of the concrete piece 10 is increased by 2% or more than the weight before being immersed in water by the pressure driving unit 102 (S1012). .

In step S1012, the magnitude of the water pressure and the period during which the water pressure is applied are suitably set according to the water-cement ratio of the concrete to be evaluated so that the rate of increase in the weight of the concrete due to water absorption of the concrete is 2% or more. . The reason for this will be described in detail later, but in order to extract a sufficient amount of pore solution from the concrete to measure the pH value, the weight of the concrete is increased by 2% or more due to water absorption. Because it becomes.
For example, when a concrete piece produced by centrifugal compaction and having a water cement ratio of about 26% is left for 96 hours with a water pressure of 1 MPa applied, the moisture on the surface of the concrete piece taken out of the water is wiped off and the weight is measured. Then, an experimental result has been obtained that the weight of the concrete piece is increased by 2.30% from the initial weight (weight before being immersed in water). On the other hand, as a comparative example of the above experimental results, after immersing a concrete piece similar to the above in water and leaving it to stand at normal pressure for 35 days, the moisture on the surface of the concrete piece taken out from the water was wiped off and the weight was measured. Experimental results show that the weight of the piece increases only 0.85% over the initial weight. According to these experimental results, it is understood that the water absorption by the concrete is promoted by immersing the concrete in the pressurized water.

  In addition, in step S1011, the concrete piece 10 to be evaluated may be roughly crushed into the sample portion 102 of the water permeability tester 100. For example, the concrete piece 10 is roughly crushed with a hammer or the like, and the crushed concrete piece is put into the sample portion 102 of the water permeability tester 100. According to this, in step S1012, absorption of moisture by the concrete can be further promoted.

Next, step S102 will be described.
Step S102 is performed by pressurizing the concrete taken out from the water permeability tester by, for example, a compression test apparatus.

FIG. 4 is a diagram schematically showing a configuration of a compression test apparatus used in the method for extracting a pore solution of concrete according to an embodiment of the present invention.
A compression test apparatus (pressure extraction apparatus) 200 shown in the figure is an apparatus for extracting moisture contained in a sample by pressurizing the sample. The compression test apparatus 200 includes a support part 201, a pressure extraction jig 202 supported by the support part 201, a pressure bar 203, a support part 204 that supports the pressure bar 203, an extraction tube 205, and an extraction liquid. And a container 206 for storing 207.

  The pressure extraction jig 202 is provided with a pressurizing chamber 2020 for placing a sample therein. The pressure bar 203 is a component for applying pressure to the sample placed in the pressure chamber 2020. One end of the discharge pipe 205 is connected to a hole provided in the bottom surface of the pressurizing chamber 2020, and guides the extract (pore solution) 207 exuded from the sample in the pressurizing chamber 2020 into the container 206. is there.

FIG. 5 is a flowchart showing a detailed processing procedure of the step (S102) of extracting the pore solution from the concrete in FIG.
In step S102, first, the concrete piece 10 taken out from the water permeability tester 100 is roughly pulverized (S1021). For example, the concrete piece 10 is finely pulverized by a jaw crusher or the like. Next, the crushed concrete piece 11 is put into the pressurizing chamber 2020 of the pressure extraction jig 202 (S1022). Next, the concrete piece 11 in the pressurizing chamber 202 is pressurized by the pressurizing rod 203 for a predetermined period (S1023). For example, pressurization is performed at about 785 N / mm ² for about 5 minutes. Thereby, the extract 207 oozes out from the concrete piece 11 and accumulates in the container 206. Thereafter, the extract 207 accumulated in the container 206, that is, the pore solution 207 is collected (S1024).

Experimental results by the method according to the present embodiment are shown below.
Here, a concrete piece (circular length l = about 15 cm, height h = about 15 cm, and thickness t = about 5 cm) produced by centrifugal compaction and having a water cement ratio of about 26% is used as a test piece. The result of having performed the experiment which takes out a pore solution with the compression test apparatus 200 is shown.
As test pieces, (1) a concrete piece not immersed in water, (2) a concrete piece immersed in water at atmospheric pressure for 35 days, and (3) a water pressure of 1 MPa was applied by the method according to the present embodiment. Concrete specimens left for 96 hours in a state, (4) Four test pieces were used which were coarsely crushed by the method according to this embodiment and then left for 96 hours in a state where a water pressure of 1 MPa was applied. In the above (4), the concrete pieces were roughly crushed to a size of about 5 cm × 5 cm × 5 cm with a hammer or the like, and these concrete pieces were used as test pieces.

  As a result of the experiment, the pore solution could not be extracted from the concrete piece of (1) and the concrete piece of (2). On the other hand, about 1.3 g of pore solution was able to be extracted from the concrete piece of the above (3) with respect to the weight of concrete of about 1900 g. This amount of about 1.3 g is an amount sufficient to measure the pH value with a pH meter capable of measuring a trace amount of solution.

  Moreover, from the concrete piece of said (4), about 2.7g pore solution was able to be extracted with respect to the concrete weight of about 1600g. From the experimental results of (3) and (4) above, the pore solution can be obtained without coarse pulverization, but in order to obtain a larger amount, the coarse pressure is applied and then water pressure is applied. Can be determined to be effective. The measured value of the pH of the pore solution extracted from the concrete piece of (4) was 12.46. This value is within the range of the normal concrete pH value, and it can be determined that the measurement result of the pH value using the method according to the present embodiment is appropriate.

  When water is poured into the concrete from the outside by the method according to the present embodiment, the calcium hydroxide contained in the concrete is dissolved by the water that has entered the concrete by pressurization, so that the equilibrium state is obtained, and as a result, the water is submerged. It is considered that the pH value of the pore solution in the concrete before and after becomes almost the same value. Therefore, by measuring the pH value of the pore solution after injecting water into the concrete from the outside, the deterioration state of the concrete can be accurately measured in the same way as when measuring the pH value of the pore solution before injecting water. It becomes possible to evaluate well.

  As described above, according to the method for extracting a pore solution of concrete according to the present embodiment, the concrete to be evaluated is immersed in pressurized water, and then the concrete is pressurized. However, the pore solution can be easily extracted. This is particularly effective when extracting pore solutions from concrete used for reinforced concrete poles, reinforced concrete piles, and the like manufactured by centrifugal compaction.

  In the method for extracting a pore solution of concrete according to the present embodiment, it is possible to efficiently inject water into the concrete by using a water permeability tester.

  In addition, when the concrete is immersed in pressurized water, it is sufficient for pH measurement by adjusting the magnitude of the water pressure and the period during which the water pressure is applied so that the weight increase rate of the concrete due to water absorption is 2% or more. An amount of pore solution can be extracted.

  Although the invention made by the present inventors has been specifically described based on the embodiments, it is needless to say that the present invention is not limited thereto and can be variously modified without departing from the gist thereof. Yes.

  For example, in the said embodiment, although the case where a water permeability tester was used was illustrated, as long as it is an apparatus which can inject | pour water into concrete of evaluation object by applying a hydraulic pressure, another apparatus may be sufficient.

  DESCRIPTION OF SYMBOLS 10 ... Concrete piece, 11 ... Ground concrete piece, 100 ... Permeability test machine, 101 ... Sample part, 102 ... Pressure drive part, 103 ... Water, 200 ... Compression test apparatus, 201 ... Support part, 202 ... Pressure extraction Jig, 2020 ... pressurizing chamber, 203 ... pressurizing rod, 204 ... support part, 205 ... extraction tube, 206 ... container, 207 ... extraction liquid (pore solution).

Claims (3)

A first step of immersing the concrete to be evaluated in water and applying water pressure;
After the first step, there is a second step of extracting the pore solution from the concrete by pressurizing the concrete taken out of the water. A method for extracting the pore solution of concrete. The method for extracting a pore solution of concrete according to claim 1,
The first step includes a step of adding water pressure using a water permeability tester having a container for containing water and a sample, and the water pressure in the vessel being adjustable. Extraction method. The method for extracting a pore solution of concrete according to claim 1,
The first step includes a step of coarsely crushing the concrete to be evaluated and then immersing it in water. A method for extracting a pore solution of concrete, wherein:

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