JP7070957B1 - Confirmation sheet and evaluation method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sheet for confirming whether an alkaline silicic acid-based concrete protective material is attached to a concrete structure in an appropriate adhering amount, and an evaluation method using this sheet.
A confirmation sheet is a base sheet impregnated with an acidic substance, and the acidic substance is a composition containing a heteropolyacid and a hue changing agent that changes the hue of the composition containing the heteropolyacid. The heteropolyacid is a reaction product of either one or both of molybdenum acid and tungsten acid and silicic acid, and the desired amount of adhesion of the concrete protective material to be attached to the concrete structure 1 m ² . When is defined as the reference adhesion amount, the acid substance changes its hue when the concrete protective material of the reference adhesion amount is attached to the confirmation sheet 1 m ² , while the acidic substance is the reference on the confirmation sheet 1 m ² . The hue does not change even if an amount of concrete protective material that is smaller than the amount of adhesion is attached.
[Selection diagram] Fig. 1

Description

The present invention relates to a confirmation sheet and an evaluation method, specifically, a confirmation sheet used when protecting a concrete structure with a concrete protective material, and an evaluation method using the confirmation sheet.

Recently, in order to prevent the concrete structure from deteriorating due to salt damage, neutralization, frost damage, alkaline aggregate reaction, etc., that is, in order to protect the concrete structure, the concrete protective material is added to the concrete structure. Is applied, sprayed, or impregnated (hereinafter, these are collectively referred to as adhering concrete protective material). Various studies have been made on concrete protective materials for protecting concrete structures, and Patent Document 1 proposes a concrete protective material containing a silicate containing an alkali metal and alkaline electrolyzed water. Silicic acid-based concrete protective materials as proposed in Patent Document 1 have been widely used in recent years because of their high protective effect. By the way, the silicic acid-based concrete protective material has a characteristic that its appearance does not change significantly when it is attached to a concrete structure. Therefore, it is difficult to visually confirm whether the concrete structure is sufficiently protected with the concrete protective material, that is, whether the target amount of the concrete protective material is attached to the concrete structure. In the situation. It should be noted that it is generally confirmed whether or not the concrete protective material is used based on the entire construction surface or the amount of the concrete protective material used for each construction unit.

Patent Document 2 proposes a sealing material for detecting that an alkaline concrete modifier (corresponding to a concrete protective material) is applied to the surface of a concrete structure. The sealing material proposed in Patent Document 2 has a reaction layer that changes color by quantitatively reacting with an alkali contained in a concrete modifier. Patent Document 2 describes that the pH of the indicator contained in the reaction layer is 3 to 11. In the sealing material proposed in Cited Document 2, there remains a problem in detection when a concrete modifier (concrete protective material) having a pH of 12 or higher is used. The silicic acid-based concrete protective material is generally strongly alkaline.

Patent Document 3 proposes a tester for detecting that a chemical is applied or sprayed on the surface of a concrete structure. The tester proposed in Patent Document 3 is impregnated with a dye or pigment, and has a qualitative detection unit capable of eluting the dye or pigment by a qualitative reaction with a drug, and a dye or pigment eluted from the qualitative detection unit. It has a confirmation part that is colored by. According to the tester proposed in Patent Document 3, an appropriate amount of concrete surface protective material was applied to the surface of the concrete structure even for concrete surface protective materials other than silicate-based materials whose construction quality control is difficult. It is said that it can be visually confirmed easily, reliably and objectively. Cited Document 3 describes that it is colored by a dye or pigment eluted from the qualitative detection unit, but when a silicic acid-based concrete protective material is used, the reaction elution is carried out by what mechanism. I don't know.

Special Table 2018-52815 Gazette Japanese Unexamined Patent Publication No. 2007-178210 Japanese Unexamined Patent Publication No. 2012-173283

The present invention provides a confirmation sheet that can easily and surely confirm whether an alkaline silicic acid-based concrete protective material is attached to a concrete structure in an appropriate amount of adhesion, and an evaluation method using the confirmation sheet. The main issue is to provide.

The confirmation sheet according to the embodiment of the present invention is for confirming whether or not the amount of the concrete protective material adhered is appropriate in the construction in which the alkaline silicate-based concrete protective material is attached to the concrete structure. The confirmation sheet is a sheet in which a base material sheet is impregnated with an acidic substance, and the acidic substance changes the hues of a composition containing a heteropolyacid and a composition containing the heteropolyacid. The heteropolyacid is a reaction product with one or both of molybdenum acid and tungsten acid and silicic acid, and the hue changing agent is a reducing agent for the heteropolyacid. When the target adhesion amount of the concrete protective material to be adhered to the concrete structure 1m ² is defined as the reference adhesion amount, the acidic substance is applied to the confirmation sheet 1m ² with the reference adhesion amount of the concrete. The hue changes when the protective material is attached, while the acidic substance does not change the hue even when the concrete protective material is attached to the confirmation sheet 1 m ² in an amount smaller than the standard adhesion amount. Is.
The confirmation sheet according to the embodiment of the present invention is a confirmation sheet for confirming whether or not the amount of the concrete protective material adhered is appropriate in the construction in which the alkaline silicate-based concrete protective material is attached to the concrete structure. The confirmation sheet is obtained by impregnating a base material sheet with an acidic substance, and the acidic substance changes the hue of a composition containing a heteropolyacid and a composition containing the heteropolyacid. The heteropolyacid is a reaction product of either one or both of molybdenum acid and tungsten acid and silicic acid, and the hue changing agent is ascorbic acid, sorbic acid, and catechin. , One or more selected from the group of dibutylhydroxytoluene, tocopherol, and butylhydroxyanisole, and the target adhesion amount of the concrete protective material to be adhered to the concrete structure 1 m ² is defined as the reference adhesion amount. When the acidic substance is attached to the confirmation sheet 1m ² with the concrete protective material having the reference adhesion amount, the color of the acidic substance changes, while the acidic substance is attached to the confirmation sheet 1m ² . Even if the concrete protective material is attached in an amount smaller than the standard adhesion amount, the hue does not change.

In the above confirmation sheet, the number of moles of silicon contained in the concrete protective material with the reference adhesion amount may be any one within the range of 0.05 mol or more and 0.1 mol or less.
In the above confirmation sheet, the reference adhesion amount may be any one within the range of 100 ml / m ² or more and 150 ml / m ² or less.
In the above confirmation sheet, the hue changer may be ascorbic acid or sorbic acid.

The evaluation method of one embodiment of the present invention is an evaluation method for evaluating whether or not the amount of the concrete protective material adhered is appropriate in the construction of adhering the concrete protective material to the concrete structure, and is a confirmation sheet for the concrete structure. Based on the step of attaching the concrete protective material to the concrete structure including the area where the confirmation sheet is fixed, and the change in the hue of the confirmation sheet when the concrete protective material is attached. The concrete protective material was an alkaline silicate-based concrete protective material, and the confirmation sheet impregnated the base sheet with an acidic substance, including a confirmation step for evaluating whether the construction was properly performed. The acidic substance is a reaction product of a composition containing a heteropolyacid and a hue-changing agent that changes the hue of the composition containing the heteropolyacid, and the heteropolyacid is molybdenum acid and tungsten acid. It is a reaction product of either one or both of the above and silicic acid, the hue changing agent is a reducing agent of the heteropolyacid, and is the object of the concrete protective material to be adhered to the concrete structure 1 m ² . When the adhering amount is defined as the standard adhering amount, the color of the acidic substance changes when the concrete protective material of the standard adhering amount is adhered to the confirmation sheet 1 m ² , while the acidic substance is used. Even if the concrete protective material is attached to the confirmation sheet 1 m ² in an amount smaller than the standard adhesion amount, the hue does not change. In the confirmation step, when the hue of the acidic substance changes, the said. Evaluate that the amount of concrete protective material attached is appropriate.
The evaluation method of one embodiment of the present invention is an evaluation method for evaluating whether or not the amount of the concrete protective material adhered is appropriate in the construction of adhering the concrete protective material to the concrete structure, and is a confirmation sheet for the concrete structure. Based on the step of attaching the concrete protective material to the concrete structure including the area where the confirmation sheet is fixed, and the change in the hue of the confirmation sheet when the concrete protective material is attached. The concrete protective material was an alkaline silicate-based concrete protective material, and the confirmation sheet impregnated the base sheet with an acidic substance, including a confirmation step for evaluating whether the construction was properly performed. The acidic substance is a reaction product of a composition containing a heteropolyacid and a hue-changing agent that changes the hue of the composition containing the heteropolyacid, and the heteropolyacid is molybdenum acid and tungsten acid. One or both of the above, which is a reaction product of silicic acid, and the hue changing agent is selected from the group of ascorbic acid, sorbic acid, catechin, dibutylhydroxytoluene, tocopherol, and butylhydroxyanisole. When the target adhesion amount of the concrete protective material to be adhered to the concrete structure 1m ² is defined as the reference adhesion amount, the acidic substance is present on the confirmation sheet 1m ² with the reference adhesion amount. The hue changes when the concrete protective material is attached, while the acidic substance has a hue even if the concrete protective material is attached to the confirmation sheet 1 m ² in an amount smaller than the standard adhesion amount. It does not change, and in the confirmation step, when the hue of the acidic substance changes, it is evaluated that the amount of adhesion of the concrete protective material is an appropriate amount.

In the above evaluation method, the number of moles of silicon contained in the concrete protective material with the reference adhesion amount may be any one within the range of 0.05 mol or more and 0.1 mol or less.
In the above evaluation method, the reference adhesion amount may be any one within the range of 100 ml / m ² or more and 150 ml / m ² or less.

According to the confirmation sheet and the evaluation method of the present invention, it can be easily and surely confirmed whether or not the alkaline silicic acid-based concrete protective material is attached to the concrete structure in an appropriate adhesion amount.

It is a schematic sectional drawing which shows an example of the confirmation sheet of one Embodiment. It is a schematic sectional drawing which shows an example of the confirmation sheet with a release paper of one Embodiment. It is a schematic sectional drawing which shows an example of the base material sheet with a release paper of one Embodiment.

Hereinafter, the confirmation sheet of the present invention and the evaluation method of the present invention will be described. The present invention is not construed as being limited to the description of the embodiments exemplified below.

<< Confirmation sheet >>

The confirmation sheet of the present invention is used when an alkaline silicate-based concrete protective material is attached to a concrete structure to confirm whether the amount of the concrete protective material adhered is appropriate. The confirmation sheet of the present invention is a base sheet impregnated with an acidic substance.

In the confirmation sheet of the present invention, when an alkaline concrete adhering material is adhered to 1 m ² of an acidic substance impregnated in the confirmation sheet, when the adhering amount reaches the target adhering amount, The hue of an acidic substance changes. Hereinafter, the target adhesion amount to be attached to the concrete structure 1 m ² and the target adhesion amount to be attached to the acidic substance 1 m ² are referred to as a reference adhesion amount.

The standard adhesion amount is not limited and can be appropriately determined according to the target adhesion amount. As the reference adhesion amount, either one or both of the following (i) and (ii) can be exemplified. This standard adhesion amount is an example of the standard adhesion amount that can sufficiently reinforce a concrete structure.

(I) ... The number of moles of silicic acid contained in the alkaline silicate-based concrete protective material is in the range of 0.025 mol or more and 0.1 mol or less.
(Ii) ... The amount of the alkaline silicate-based concrete protective material adhered is either in the range of 100 ml / m ² or more and 250 ml / m ² or less, or in the range of 100 ml / m ² or more and 150 ml / m ² or less. One of them, for example, 100 ml / m ² or 150 ml / m ² .

When the reference adhesion amount is one or both of the above (i) and (ii), the confirmation sheet of the present invention is fixed to the concrete structure, and the concrete structure including the confirmation sheet is alkaline. It can be evaluated that the reinforcement of the concrete structure is completed at the timing when the hue of the acidic substance changes when the silicate-based concrete protective material is attached. In other words, it can be determined that the desired amount of the concrete protective material has been attached to the concrete structure.

As an example, the number of moles of silicic acid contained in the alkaline silicate-based concrete protective material having a standard adhesion amount is 0.05 mol or more and 1 mol or less.
As an example, the number of moles of silicic acid contained in the alkaline silicate-based concrete protective material having a standard adhesion amount is 0.05 mol or more and 0.075 mol or less.
As an example, the number of moles of silicic acid contained in the alkaline silicate-based concrete protective material having a standard adhesion amount is 0.05 mol or 0.075 mol.

Further, when the alkaline silicate-based concrete protective material is attached stepwise to the concrete structure for reinforcement, the adhering amount or the like at each step may be used as the standard adhering amount. That is, the reference adhesion amount may be an adhesion amount that cannot sufficiently reinforce the concrete structure. For example, when attaching 150 ml / m ² of an alkaline silicate-based concrete protective material to a concrete structure 1 m ² , 50 ml / m ² and 100 ml / m ² are attached in stages. The reference adhesion amount may be 50 ml / m ² or 100 ml / m ² .

(Concrete structure)
Concrete structures protected by concrete protective materials include bridges (ground coverings, floor slabs), bridge pedestals, pedestals, dam bodies, tunnels (hole walls), box calverts, harbor facilities, harbor structures, river structures, etc. Examples include bank protection structures, irrigation canals, tunnels, tunnels, water storage tanks, underground pits, multi-story parking lots, and secondary concrete products. Other concrete structures may be used.

(Concrete protective material)
The concrete protective material is an alkaline silicate-based concrete protective material. Examples of the silicic acid constituting the concrete protective material include potassium silicate, sodium silicate, lithium silicate and the like. Further, the silicic acid referred to in the present specification also includes anhydrous silicic acid such as silicate. An example concrete protective material is a colloidal solution containing at least one or more of the above silicic acids. As the solvent of the concrete protective material, water or the like can be exemplified. As an example, the pH of the concrete protective material is 11 or more and 14 or less. By adhering an appropriate amount of the concrete protective material having such a pH to the concrete structure, deterioration of the concrete structure can be further suppressed. In other words, the reforming effect of the concrete structure can be enhanced. Hereinafter, the alkaline silicate-based concrete protective material is abbreviated as a concrete protective material. Further, the concrete protective material may be read as a concrete reinforcing material.

As an example, in the concrete protective material, the number of moles of silicon contained in 1 liter (liter) of the concrete protective material is 0.3 mol or more and 0.7 mol or less, preferably 0.4 mol or more and 0.6 mol. It is less than or equal to, more preferably 0.45 mol or more and 0.55 mol or less.

As an example, concrete protective material can be neutralized, salt-damaged, frost-damaged, rebar corrosion-suppressed, alkaline aggregate reaction-suppressed, waterproof / waterproof, crack repair, and wear-resistant by adhering an appropriate amount to a concrete structure. It can impart effects such as sex, antifouling and anti-alkaline.

An example concrete protective material is a colloidal solution containing potassium silicate and sodium silicate. The mass of potassium silicate is 3% by mass or more and 10% by mass or less, and the mass of sodium silicate is 7% by mass or more and 40% by mass or less with respect to the total mass of the colloidal solution. As the particle size of potassium silicate and sodium silicate, the primary particle size of 1 nm or more and 2500 nm or less can be exemplified. As an example, the particle size of potassium silicate and sodium silicate is 1 nm or more and 50 nm or less in terms of primary particle size.

(Base sheet)
Examples of the material of the base material sheet include a paper base material such as filter paper (filter paper), a non-woven fabric base material, a gauze base material such as cotton gauze, and a resin base material such as a foamed resin base material. The base sheet may be any material as long as it can be impregnated with an acidic substance, and other materials may be used. Although the hue of the base sheet is not limited, the confirmation sheet of the present invention is used to confirm whether the amount of the concrete protective material adhered is appropriate based on the change in the hue of the acidic substance. The hue is preferably different from that of the acidic substance. As an example, the hue of the base sheet is white.

The thickness of the base sheet is not limited, and may be sufficient as long as it can be impregnated with an acidic substance. As an example, the thickness of the base material sheet is 0.7 μm or more and 750 μm or less. As an example, the thickness of the base material sheet is 150 μm or more and 250 μm or less.

(Acid substance)
An acidic substance as an example is a reaction product of a composition containing a heteropolyacid and a hue changer that changes the hue of the composition containing the heteropolyacid. As an example, the composition containing a heteropolyacid and the reaction product of the composition containing a heteropolyacid and a hue adjuster are liquid.

(Heteropolyacid)
As an example, the heteropolyacid is a reaction product of (i) molybdic acid and / or both of tungstic acid and (ii) silicic acid. As the silicic acid, those described in the above concrete protective material can be appropriately selected and used.

The preferred form of silicic acid is powder. By using powdered silicic acid, a concrete protective material can be attached to the confirmation sheet, and the rate of change in the hue of the acidic substance when the amount of this adhesion reaches the standard adhesion amount can be increased. In this form, it can be recognized at an early stage that the amount of the concrete protective material adhered has reached the standard adhered amount. Silicic acid, as an example, is powdered silica. As the particle size of silicic acid, a primary particle size of 1 nm or more and 2500 nm or less can be exemplified. As an example, the particle size of silicic acid is 1 nm or more and 100 nm or less in the primary particle size, and preferably silica having a primary particle size of 5 nm or more and 50 nm or less.

The silicic acid for obtaining a heteropolyacid may be one kind or two or more kinds. The amount of silicic acid to be blended is not limited, and may be an amount that can change the hue of the acidic substance when a concrete protective material having a standard adhesion amount or more is attached to the confirmation sheet. The same applies to the following amounts of molybdic acid and tungstic acid.

Examples of the molybdate include ammonium molybdate, molybdate, potassium molybdate, calcium molybdate, molybdenum trioxide and the like. Examples of tungstic acid include ammonium tungstic acid, tungstic acid, potassium tungstic acid, calcium tungstic acid, and tungsten trioxide.

The composition containing a heteropolyacid may contain only the heteropolyacid, or may contain various acids for adjusting the pH of the composition containing the heteropolyacid. Examples of various acids include hydrochloric acid, sulfuric acid, nitric acid, boric acid, oxalic acid and the like.

The pH of the composition containing the heteropolyacid is not limited, but is preferably 1 or more and 2 or less. As an example, the composition containing a heteropolyacid is a composition containing silicic acid, molybdic acid, and dilute sulfuric acid, and the hue of the composition is pale yellow.

The hue regulator is not limited, and examples thereof include ascorbic acid, sorbic acid, catechin, dibutylhydroxytoluene, tocopherol, butylhydroxyanisole, and mixtures thereof. Among these hue adjusting agents, ascorbic acid and sorbic acid sufficiently make the hue of the composition containing the heteropolyacid different from the hue of the acidic substance which is a reaction product of the composition containing the heteropolyacid and the hue adjusting agent. Can be preferred. Examples of ascorbic acid include L-ascorbic acid. As sorbic acid, erythorbic acid can be exemplified. An example hue adjuster is a reducing agent for a heteropolyacid . As an example, the acidic substance is a heteropolyacid composed of a composition containing silicic acid, molybdenum acid, and dilute sulfuric acid, which is reduced with L-ascorbic acid, and its hue is blue.

The following formula (1) shows a state in which an acidic substance is obtained by a reaction between a heteropolyacid and a hue regulator. In the following formula (1), silicate molybdic acid is used as the heteropolyacid, and ascorbic acid is used as the hue adjuster. The hue of the heteropolyacid is pale yellow, and the hue of the acidic substance obtained by the following formula (1) is blue.

In the present invention, the hue of the acidic substance changes when the concrete protective material having a standard adhesion amount is attached to the acidic substance. The clear mechanism by which the hue of the acidic substance changes is not always clear at this time, but it is presumed that the alkaline component of the concrete protective material reacts with the acidic substance to change the hue.

There is no limitation on the content of each component constituting the acidic substance, and the hue may be appropriately adjusted so that the hue changes when the amount of the concrete protective material adhered to the acidic substance reaches the standard adhering amount. For example, by adjusting the addition amount of silicic acid constituting the acidic substance, the hue of the acidic substance can be changed when the adhering amount of the concrete protective material reaches the above-mentioned standard adhering amount. In other words, the number of moles of silicon contained in the acidic substance may be adjusted. With or instead of the amount of silicic acid added, the amount of molybdic acid and tungstic acid added, the amount of hue changing agent added, and the like may be appropriately adjusted.

Instead of adjusting the amount of silicic acid added, or in addition to adjusting the amount of silicic acid added, the amount of impregnation of the acidic substance into the base sheet is adjusted, and the amount of the concrete protective material attached to the acidic substance is the standard adhesion. The hue can be changed when the amount is reached.

<< Evaluation method >>
The evaluation method of one embodiment of the present invention is an evaluation method for evaluating whether or not the amount of the concrete protective material adhered is appropriate in the construction of adhering the concrete protective material to the concrete structure, and is a confirmation sheet for the concrete structure. The construction is based on the process of fixing the concrete, the process of attaching the concrete protective material to the concrete structure including the area where the confirmation sheet is fixed, and the change in the hue of the confirmation sheet when the concrete protective material is attached. Including a confirmation step to evaluate whether it was performed properly, the concrete protective material is an alkaline silicate-based concrete protective material, and the confirmation sheet is a base sheet impregnated with an acidic substance, which is an acidic substance. Is a reaction product of a composition containing heteropolyacid and a hue-changing agent that changes the hue of the composition containing heteropolyacid, and the heteropolyacid is one or both of molybdenum acid and / or tungstate. When the target adhesion amount of the concrete protective material, which is a reaction product with silicic acid constituting the concrete protective material and is attached to the concrete structure 1 m ² , is defined as the standard adhesion amount, the acidic substance is the confirmation sheet 1 m ² . The hue changes when a standard amount of concrete protective material is attached to the confirmation sheet, while the hue of acidic substances changes even if a smaller amount of concrete protective material than the standard amount of concrete is attached to the confirmation sheet 1 m ² . In the confirmation step, when the hue of the acidic substance changes, it is evaluated that the amount of the concrete protective material adhered is an appropriate amount.

(Concrete protective material)
As the concrete protective material used in the evaluation method of one embodiment, the concrete protective material described in the above confirmation sheet can be appropriately selected and used.

(Confirmation sheet)
As the confirmation sheet used in the evaluation method of one embodiment, the confirmation sheet described above can be appropriately selected and used.

(Fixing process)
The fixing step is a step of fixing the confirmation sheet to the concrete structure. The confirmation sheet may be fixed directly to the concrete structure or indirectly. For example, an adhesive layer can be provided on the side of the confirmation sheet in contact with the concrete structure, and the confirmation sheet can be fixed to the concrete structure via the adhesive layer. Further, the confirmation sheet may be fixed to a support member, for example, a case, and the case may be fixed to a concrete structure.

FIG. 1 is a schematic cross-sectional view showing an example of the confirmation sheet 10. The confirmation sheet 10 in the form shown in FIG. 1 has a single-layer structure composed of a base sheet 1 impregnated with an acidic substance 3. FIG. 2 is a schematic cross-sectional view showing an example of the confirmation sheet 10A with a release paper. The confirmation sheet 10A with a release paper in the form shown in FIG. 2 has a laminated structure in which the release paper 5 and the confirmation sheet 10 are integrated. The confirmation sheet 10 can be separated from the release paper 5. The confirmation sheet 10A with a release paper in the form shown in FIG. 2 has an adhesive layer 2 provided on the surface of the base sheet 1 impregnated with the acidic substance 3 on the release paper 5 side. Examples of the components of the adhesive layer 2 include vinyl acetate, ethylene vinyl acetate, vinyl chloride-vinyl acetate copolymer, urethane, epoxy, and styrene. The adhesive layer may be read as an adhesive layer. In the confirmation sheet 10A with a release paper of this form, the confirmation sheet 10 can be peeled off from the release paper 5 and the confirmation sheet 10 can be fixed to the concrete structure by using the exposed adhesive layer 2. In other words, the confirmation sheet 10 can be attached to the concrete structure. The release paper may be read as a release film, a release paper, and a release film. The release paper may have a single-layer structure or a laminated structure. As an example, the release paper has a laminated structure in which a release layer is provided on a paper base material. Examples of the material of the release layer include silicone and the like.

In the form shown in each figure, a part of the base sheet 1 is impregnated with the acidic substance, but the whole part of the base sheet 1 may be impregnated with the acidic substance.

FIG. 3 is a plan view showing an example of the base sheet 20 with a release paper. The base sheet 20 with a release paper in the form shown in FIG. 3 has a laminated structure in which the release paper 5 and the base sheet 1 before being impregnated with an acidic substance are integrated, and the base sheet 1 is a release paper. It can be peeled off from 5. The base sheet 20 with a release paper in the form shown in FIG. 3 can be made into a confirmation sheet 10A with a release paper by impregnating the base sheet 1 with the acidic substance 3. The base sheet 20 with a release paper in the form shown in FIG. 3 is provided with a plurality of cut line portions on the base sheet 1, and the base sheet 1 can be divided into a plurality of parts along the cut line portions. There is. In this form, by impregnating the base sheet with an acidic substance, a plurality of confirmation sheets can be manufactured at once. The base sheet 20 with a release paper in the form shown in FIG. 3 is provided with an adhesive layer 2 on the surface of the base sheet 1 on the release paper 5 side. In the form shown in FIG. 3, one or both of the release paper and the adhesive layer may be excluded.

(Adhesion process)
The attachment step is a step of fixing the confirmation sheet to the concrete structure and then attaching the concrete protective material to the concrete structure including the area where the confirmation sheet is fixed. Adhesion as used herein includes any form in which a concrete protective material can be brought into contact with a concrete structure such as coating, spraying, and impregnation.

As an example, in the attachment step, 150 ml / m ² of the concrete protective material is attached to 1 m ² of the concrete structure. Next, 100 ml / m ² of the concrete protective material is attached onto the attached concrete protective material. When attaching such two-stage concrete protective material, prepare a confirmation sheet corresponding to each adhesion amount, and use one confirmation sheet for the attachment of the first-stage concrete protective material, 2 In the attachment of the concrete protective material at the stage, it is sufficient to evaluate whether or not the desired amount of the concrete protective material is attached to the concrete structure by using another confirmation sheet. In this example, the reference adhesion amount is 100 ml / m ² , and the confirmation sheet in which the hue of the acidic substance changes when the adhesion amount reaches the reference adhesion amount, and the reference adhesion amount is 150 ml / m ² . A confirmation sheet may be prepared and used in which the hue of the acidic substance changes when the amount reaches this standard adhesion amount.

Next, the present invention will be specifically described with reference to examples.

(Preparation of acidic substance 1)
181 parts of heteropolyacid and 19 parts of L-ascorbic acid having the following composition (CAS RN: 50-81-7 Hayashi Junyaku Kogyo Co., Ltd.)

(Heteropolyacid 1)
・ Silica (powder) 1 part (Leoloseal (registered trademark) CP-102 Tokuyama Corporation)
40 parts of ammonium molybdate (CAS RN: 12054-85-2 Hayashi Junyaku Kogyo Co., Ltd.)
・ 40 parts of dilute sulfuric acid

The hue of heteropolyacid 1 is pale yellow. The hue of the acidic substance 1 is blue. The pH of the heteropolyacid 1 is 1.84. The pH of the acidic substance 1 is 1.63. The pH was measured under the condition of a liquid temperature of 26.5 ° C. The following pH measurement conditions are the same.

(Preparation of acidic substance 2)
The acidic substance 2 was prepared in the same manner as the acidic substance 1 except that the heteropolyacid 2 in which only 1 part of silica in the above heteropolyacid 1 was changed to 1 part of calcium silicate (Florite R Tomita Pharmaceutical Co., Ltd.) was used. bottom. The hue of the acidic substance 2 is blue. The pH of the heteropolyacid 2 is 1.18 and the pH of the acidic substance 2 is 1.38.

(Preparation of acidic substance 3)
The same as the acidic substance 1 except that the heteropolyacid 3 obtained by changing only 1 part of ammonium molybdate of the above heteropolyacid 1 to 1 part of ammonium tungstate (Cat. No. 01331-01 Kanto Kagaku Co., Ltd.) was used. The acidic substance 3 was prepared. The hue of the heteropolyacid 3 is cloudy, and the hue of the acidic substance 3 is yellow. The pH of the heteropolyacid 3 is 1.17 and the pH of the acidic substance 3 is 1.07.

(Preparation of acidic substance 4)
The acidic substance 4 was prepared in the same manner as the acidic substance 1 except that 19 parts of L-ascorbic acid in the acidic substance 1 was changed to 19 parts of sodium erythobilenate (sodium erythobilenate Hachiho Shokusan Co., Ltd.). The hue of the acidic substance 4 is blue. The pH of the acidic substance 4 is 2.21.

(Preparation of acidic substance A)
The acidic substance A was prepared in the same manner as the acidic substance 1 except that ammonium molybdate was removed from the heteropolyacid 1. The hue of the acidic substance A is transparent (slightly turbid). The pH of the acidic substance A is 0.62.

(Preparation of acidic substance B)
The acidic substance B was prepared in the same manner as the acidic substance 1 except that L-ascorbic acid was removed from the acidic substance 1. The hue of the acidic substance B is pale yellow. The pH of the acidic substance B is 1.84.

(Example 1)
The acidic substance 1 was added dropwise to a filter paper having a thickness of 200 μm so that the impregnation amount per 1 m ² of the filter paper was 187.15 ml to obtain a confirmation sheet of Example 1. The number of moles of silicon in the acidic substance impregnated per 1 m ² of filter paper is 0.00075 mol.
In the confirmation sheet of Example 1, the standard adhesion amount of the concrete protective material is set to 150 ml / m ² , and the hue changes when the standard adhesion amount is adhered.
When 100 ml / m ² of an alkaline silicate-based concrete protective material (Super Shield Co., Ltd.) was attached to the confirmation sheet of Example 1, the hue of the acidic substance did not change, and the standard adhesion amount (150 ml). The hue of the acidic substance changed from blue to white (hue of filter paper) when attached at / m ² ). In other words, the blue color has disappeared.
The number of moles of silicon contained in the concrete protective material having a standard adhesion amount is 0.075 mol.

(Example 2)
A confirmation sheet of Example 2 was obtained by dropping the acid substance 1 so that the impregnation amount per 1 m ² of the filter paper was 126 ml. The number of moles of silicon in the acidic substance impregnated per 1 m ² of filter paper is 0.0005 mol.
In the confirmation sheet of Example 2, the standard adhesion amount of the concrete protective material is set to 100 ml / m ² , and the hue changes when the standard adhesion amount is adhered.
When 90 ml / m ² of an alkaline silicate-based concrete protective material (Super Shield Co., Ltd.) was attached to the confirmation sheet of Example 2, the hue of the acidic substance did not change, and the standard adhesion amount (100 ml). The hue of the acidic substance changed from blue to white (hue of filter paper) when attached at / m ² ).
The number of moles of silicon contained in the concrete protective material having a standard adhesion amount is 0.05 mol.

(Example 3)
A confirmation sheet of Example 3 was obtained in the same manner as in Example 1 except that the acidic substance 1 was changed to the acidic substance 2.
In the confirmation sheet of Example 3, the standard adhesion amount of the concrete protective material is set to 150 ml / m ² , and the hue changes when the standard adhesion amount is adhered.
When 100 ml / m ² of an alkaline silicate-based concrete protective material (Super Shield Co., Ltd.) was attached to the confirmation sheet of Example 3, the hue of the acidic substance did not change, and the standard adhesion amount (150 ml). The hue of the acidic substance changed from blue to white (hue of filter paper) when attached at / m ² ).

(Example 4)
A confirmation sheet of Example 4 was obtained in the same manner as in Example 1 except that the acidic substance 1 was changed to the acidic substance 3.
In the confirmation sheet of Example 4, the standard adhesion amount of the concrete protective material is set to 150 ml / m ² , and the hue changes when the standard adhesion amount is adhered.
When 100 ml / m ² of an alkaline silicate-based concrete protective material (Super Shield Co., Ltd.) was attached to the confirmation sheet of Example 4, the hue of the acidic substance did not change, and the standard adhesion amount (150 ml). The hue of the acidic substance changed from yellow to white (hue of filter paper) when attached at / m ² ).

(Example 5)
The acidic substance 1 was added dropwise to a filter paper having a thickness of 200 μm so that the impregnation amount per 1 m ² of the filter paper was 63 ml to obtain a confirmation sheet of Example 5.
In the confirmation sheet of Example 5, the standard adhesion amount of the concrete protective material is set to 50 ml / m ² , and the hue changes when the standard adhesion amount is adhered.
When 10 ml / m ² of an alkaline silicate-based concrete protective material (Super Shield Co., Ltd.) was attached to the confirmation sheet of Example 5, the hue of the acidic substance did not change, and the standard adhesion amount (50 ml) was not changed. The hue of the acidic substance changed from blue to white (hue of filter paper) when attached at / m ² ). The number of moles of silicon contained in the concrete protective material having a standard adhesion amount is 0.025 mol.

(Comparative Example 1)
A confirmation sheet of Comparative Example 1 was obtained in the same manner as in Example 1 except that the acidic substance 1 was changed to the acidic substance A.
Even if an alkaline silicate-based concrete protective material (Super Shield Co., Ltd. Super Shield) was attached to the confirmation sheet of Comparative Example 1 at 150 ml / m ² , the hue of the acidic substance did not change. In addition, the hue of the acidic substance did not change even if the concrete protective material was attached with a larger amount of adhesion.

(Comparative Example 2)
A confirmation sheet of Comparative Example 2 was obtained in the same manner as in Example 1 except that the acidic substance 1 was changed to the acidic substance B.
Even if an alkaline silicate-based concrete protective material (Super Shield Co., Ltd. Super Shield) was attached to the confirmation sheet of Comparative Example 2 at 150 ml / m ² , the hue of the acidic substance did not change. In addition, the hue of the acidic substance did not change even if the concrete protective material was attached with a larger amount of adhesion.

10 ... Confirmation sheet 10A ... Confirmation sheet with release paper 20 ... Base sheet with release paper 1 ... Base sheet 2 ... Adhesive layer 3 ... Acidic substance 5 ... Release paper

Claims (8)

It is a confirmation sheet for confirming whether the amount of the concrete protective material adhered is appropriate in the construction of adhering the alkaline silicate-based concrete protective material to the concrete structure.
The confirmation sheet is a base sheet impregnated with an acidic substance, and is obtained by impregnating the base sheet with an acidic substance.
The acidic substance is a reaction product of a composition containing a heteropolyacid and a hue changer that changes the hue of the composition containing the heteropolyacid.
The heteropolyacid is a reaction product of either one or both of molybdic acid and tungstic acid and silicic acid.
The hue changing agent is a reducing agent for the heteropolyacid.
When the target adhesion amount of the concrete protective material to be attached to the concrete structure 1 m ² is defined as the reference adhesion amount,
The hue of the acidic substance changes when the concrete protective material having the reference adhesion amount is attached to the confirmation sheet 1m ² , while the acidic substance has more than the reference adhesion amount to the confirmation sheet 1m ² . A confirmation sheet in which the hue does not change even if a small amount of the concrete protective material is attached. It is a confirmation sheet for confirming whether the amount of the concrete protective material adhered is appropriate in the construction of adhering the alkaline silicate-based concrete protective material to the concrete structure.
The confirmation sheet is a base sheet impregnated with an acidic substance, and is obtained by impregnating the base sheet with an acidic substance.
The acidic substance is a reaction product of a composition containing a heteropolyacid and a hue changer that changes the hue of the composition containing the heteropolyacid.
The heteropolyacid is a reaction product of either one or both of molybdic acid and tungstic acid and silicic acid.
The hue changer is one or more selected from the group of ascorbic acid, sorbic acid, catechin, dibutylhydroxytoluene, tocopherol, and butylhydroxyanisole.
The concrete structure 1m ² When the target adhesion amount of the concrete protective material to be adhered to is defined as the standard adhesion amount,
The acidic substance is the confirmation sheet 1 m. ² The hue changes when the concrete protective material of the standard adhesion amount is attached to the surface, while the acidic substance is the confirmation sheet 1 m. ² A confirmation sheet in which the hue does not change even if an amount of the concrete protective material smaller than the standard adhesion amount is attached to the concrete protective material. The confirmation sheet according to claim 1 or 2, wherein the number of moles of silicon contained in the concrete protective material with the reference adhesion amount is in the range of 0.05 mol or more and 0.1 mol or less. The standard adhesion amount is 100 ml / m. ² More than 150 ml / m ² The confirmation sheet according to any one of claims 1 to 3, which is any of the following ranges. It is an evaluation method for evaluating whether the amount of the concrete protective material adhered is appropriate in the construction of adhering the concrete protective material to the concrete structure.
The process of fixing the confirmation sheet to the concrete structure and
The step of adhering the concrete protective material to the concrete structure including the area where the confirmation sheet is fixed, and
Includes a confirmation step to evaluate whether the construction was performed properly based on the change in hue of the confirmation sheet when the concrete protective material was attached.
The concrete protective material is an alkaline silicate-based concrete protective material.
The confirmation sheet is a base sheet impregnated with an acidic substance, and the acidic substance reacts with a composition containing a heteropolyacid and a hue changing agent that changes the hue of the composition containing the heteropolyacid. The heteropolyacid is a reaction product of either one or both of molybdenum acid and tungsten acid and silicic acid, and the hue changing agent is a reducing agent of the heteropolyacid.
When the target adhesion amount of the concrete protective material to be attached to the concrete structure 1 m ² is defined as the reference adhesion amount,
The hue of the acidic substance changes when the concrete protective material having the reference adhesion amount is attached to the confirmation sheet 1m ² , while the acidic substance has more than the reference adhesion amount to the confirmation sheet 1m ² . Even if a small amount of the concrete protective material is attached, the hue does not change.
In the confirmation step, an evaluation method for evaluating that the amount of adhesion of the concrete protective material is an appropriate amount when the hue of the acidic substance changes. It is an evaluation method for evaluating whether the amount of the concrete protective material adhered is appropriate in the construction of adhering the concrete protective material to the concrete structure.
The process of fixing the confirmation sheet to the concrete structure and
The step of adhering the concrete protective material to the concrete structure including the area where the confirmation sheet is fixed, and
Includes a confirmation step to evaluate whether the construction was performed properly based on the change in hue of the confirmation sheet when the concrete protective material was attached.
The concrete protective material is an alkaline silicate-based concrete protective material.
The confirmation sheet is a base sheet impregnated with an acidic substance, and the acidic substance reacts with a composition containing a heteropolyacid and a hue changing agent that changes the hue of the composition containing the heteropolyacid. The heteropolyacid is a reaction product of either one or both of molybdenum acid and tungsten acid and silicic acid, and the hue changing agent is ascorbic acid, sorbic acid, catechin, dibutyl hydroxytoluene. , Tocopherol, and one or more selected from the group of butyl hydroxyanisole.
The concrete structure 1m ² When the target adhesion amount of the concrete protective material to be adhered to is defined as the standard adhesion amount,
The acidic substance is the confirmation sheet 1 m. ² The hue changes when the concrete protective material of the standard adhesion amount is attached to the surface, while the acidic substance is the confirmation sheet 1 m. ² Even if the concrete protective material is attached to the surface in an amount smaller than the standard adhesion amount, the hue does not change.
In the confirmation step, an evaluation method for evaluating that the amount of adhesion of the concrete protective material is an appropriate amount when the hue of the acidic substance changes. The evaluation method according to claim 5 or 6, wherein the number of moles of silicon contained in the concrete protective material with the reference adhesion amount is in the range of 0.05 mol or more and 0.1 mol or less. The standard adhesion amount is 100 ml / m. ² More than 150 ml / m ² In any of the following ranges
The evaluation method according to any one of claims 5 to 7.

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