JP6579444B2 - Cement kneaded material and method for forming cement kneaded material - Google Patents

Description

  The present invention relates to a cement kneaded material obtained by kneading cement, aggregate, and water, and a method for forming the cement kneaded material.

  A cement kneaded product formed by kneading cement, aggregate, and water may be used as a grout material or may be pumped to a placement site. For this reason, moderate fluidity | liquidity is requested | required of such a cement kneaded material. As a method for improving the fluidity of the cement kneaded material, it is conceivable to set a relatively high ratio of water (water powder ratio) to the powder material containing cement.

  By the way, as a property of the hardened cement body formed by hardening the cement kneaded material, it may be required to be lightweight. As a method of forming a relatively light cement hardened body, a foam-containing liquid is produced by mixing and foaming a foaming agent and water, and such a liquid is added to a cement kneaded product. There is known a method of adding bubbles to a cement kneaded product by adding cement or aggregate to a liquid and kneading (see Patent Document 1).

  However, when air bubbles are contained in the cement kneaded product, the strength of the resulting cement cured body is lowered and deterioration due to freezing and thawing is accelerated, so that a cement cured body having good strength cannot be obtained. Then, the method of using a lightweight aggregate as an aggregate which comprises a cement kneaded material as a method different from said method is proposed (refer patent document 2).

JP 2014-051398 A JP 2013-155093 A

  However, if the water powder ratio is set to be relatively large in order to improve the fluidity of the cement kneaded material as described above, a relatively large amount of moisture will remain in the formed cement cured body. After the body has dried, fine voids will form inside. Such voids are factors that reduce the strength and durability of the hardened cement. Moreover, when the water powder ratio is set to be relatively large, there is a possibility that water and the powder material are separated in the cement kneaded material.

  Moreover, when a lightweight aggregate is used in order to obtain a relatively light cement hardened body, since the lightweight aggregate absorbs water in the cement kneaded material, the fluidity of the cement kneaded material is lowered and pumping is performed. May become difficult, or the pumping flow path may be blocked.

  Therefore, the present invention provides a cement kneaded material that can form a hardened cement body having good fluidity and good strength even when a lightweight aggregate is used, and the cement kneaded material. It is an object to provide a forming method.

  The cement kneaded material according to the present invention is a cement kneaded material obtained by kneading cement, a lightweight aggregate, and water. The cement is composed of ordinary Portland cement and early-strength Portland cement, and ordinary Portland cement. The mass ratio of ordinary Portland cement to 60 mass% to 80 mass% relative to the total mass of the cement and the early strong Portland cement is 29 mass% to 34 mass% of water relative to the mass of the powder material containing cement. % Or less.

  According to such a configuration, the cement is composed of ordinary Portland cement and early-strength Portland cement, and the mass ratio of ordinary Portland cement to the total mass of ordinary Portland cement and early-strength Portland cement is 60% by mass or more. It is 80 mass% or less, and the mass ratio of the water with respect to the mass of the powder material containing a cement is 29 mass% or more and 34 mass% or less, and can obtain the cement kneaded material which has favorable fluidity | liquidity. Moreover, it is a cement hardened body formed by hardening a cement kneaded material, Comprising: The cement hardened body which has favorable intensity | strength can be formed.

The light-weight aggregate has a particle size exceeding 10 mm of 0 mass%, a particle size of 5 mm or less is 65 mass% to 85 mass%, and a particle diameter of 2.5 mm is 47 mass% to 55 mass%. Ru is configured.

  According to such a configuration, the light-weight aggregate has a particle diameter exceeding 10 mm of 0 mass%, a particle diameter of 5 mm or less is 65 mass% to 85 mass%, and a particle diameter of 2.5 mm or less is 47 mass% or more. By comprising so that it may become 55 mass% or less, the cement kneaded material which has more favorable fluidity | liquidity can be obtained. Moreover, it is a cement hardened body formed by hardening a cement kneaded material, Comprising: The cement hardened body which has more favorable intensity | strength can be formed.

  The mass ratio of the ordinary Portland cement to the total mass of the ordinary Portland cement and the early strong Portland cement is preferably 70% by mass or more and 80% by mass or less.

  According to such a configuration, the mass ratio of the ordinary Portland cement to the total mass of the ordinary Portland cement and the early strength Portland cement is 70% by mass or more and 80% by mass or less, and the mass ratio of water to the mass of the powder material. Is 30 mass% or more and 32 mass% or less, and can obtain the cement kneaded material which has further favorable fluidity | liquidity. Moreover, the cement hardened | cured material formed by hardening a cement kneaded material, Comprising: The cement hardened | cured material which has further favorable intensity | strength can be formed.

A method for forming a cement kneaded product according to the present invention is a method for forming a cement kneaded product in which cement, a lightweight aggregate, and water are kneaded to form a cement kneaded product. Portland cement is included, and the weight ratio of ordinary Portland cement to the total weight of ordinary Portland cement and early-strength Portland cement is 60% by mass or more and 80% by mass or less, and water relative to the mass of the powder material containing cement. mass ratio of state, and are 29 wt% or more 34 wt% or less, the lightweight aggregate is a particle size of 0 mass% of more than 10 mm, 5 mm particle size of less than 85 wt% or more 65 wt% or less, 2. The particle size of 5 mm or less is configured to be 47% by mass or more and 55% by mass or less .

  According to such a configuration, the cement is composed of ordinary Portland cement and early-strength Portland cement, and the mass ratio of ordinary Portland cement to the total mass of ordinary Portland cement and early-strength Portland cement is 60% by mass or more. 80 mass% or less, and the mass ratio of water to the mass of the powder material containing cement is 29 mass% or more and 34 mass% or less, whereby a cement kneaded material having good fluidity can be formed. . Moreover, it is a cement hardened body formed by hardening a cement kneaded material, Comprising: The cement hardened body which has favorable intensity | strength can be formed.

  As described above, according to the present invention, even if a lightweight aggregate is used, a hardened cement body having good fluidity and good strength can be formed.

  Hereinafter, embodiments of the present invention will be described.

  The cement kneaded product according to the present invention is formed by kneading cement, aggregate, and water, and forms a hardened cement body by curing. Examples of the hardened cement body include a hardened concrete body formed by curing a cement kneaded material formed by kneading cement, coarse aggregate, fine aggregate, and water, and a cement that does not include coarse aggregate. The mortar hardened | cured material formed when a kneaded material hardens | cures is mentioned.

  The cement content in the cement kneaded material is not particularly limited, and may be, for example, 35% by mass to 40% by mass, or 36% by mass to 38% by mass. As the cement, ordinary Portland cement and early-strength Portland cement are used. And the mass ratio of normal Portland cement with respect to the total mass of normal Portland cement and early-strength Portland cement is 60 mass% or more and 80 mass% or less, and it is preferable that they are 70 mass% or more and 80 mass% or less.

As the aggregate, a lightweight aggregate is used. The lightweight aggregate refers to an aggregate having an absolutely dry density defined by JIS A5002: 2003 of 1.0 g / cm ³ or more and 2.3 g / cm ³ or less. Moreover, since a lightweight aggregate has a space | gap inside, a water absorption rate becomes higher than a normal aggregate. Specifically, the water absorption rate of the lightweight aggregate may be, for example, 10% or more, 10% or more and 35% or less, or 10% or more and 30% or less. % Or more and 30% or less. In addition, in the case of a lightweight fine aggregate, the water absorption rate of the lightweight aggregate is measured based on JIS A 1134 (Density and water absorption rate test method for structural lightweight fine aggregate). In this case, it is measured on the basis of JIS A 1135 (density and water absorption test method of structural lightweight coarse aggregate).

  Moreover, as a lightweight aggregate, an artificial lightweight aggregate, a natural lightweight aggregate, etc. can be used, for example. The artificial lightweight aggregate can be formed by firing and foaming natural rock minerals such as expandable shale, expandable viscosity, expanded slate, and fired fly ash. On the other hand, as natural lightweight aggregate, pumice, volcanic gravel, etc. erupted with volcanic eruption can be used.

  As content of the lightweight aggregate in a cement kneaded material, 80 mass parts or more and 90 mass parts or less may be sufficient with respect to 100 mass parts of cement, for example, 82 mass parts or more and 88 mass parts or less may be sufficient. .

  In addition, the lightweight aggregate has a particle size exceeding 10 mm (in other words, a particle that does not pass through a 10 mm sieve) becomes 0% by mass, and a particle size of 5 mm or less (in other words, passes through a 5 mm sieve). ) Is 65 mass% or more and 85 mass% or less, and a particle size of 2.5 mm or less (in other words, a particle passing through a 2.5 mm sieve) is 47 mass% or more and 55 mass% or less. It is preferable. The lightweight aggregate is composed of a lightweight coarse aggregate and a lightweight fine aggregate.

  The light-weight coarse aggregate has a particle size exceeding 10 mm (in other words, a particle that does not pass through a 10 mm sieve) and a particle size of 1.2 mm or less (in other words, a particle that passes through a 1.2 mm sieve) Becomes 0 mass%, and the particle diameter of 5 mm or less (in other words, the one passing through the 5 mm sieve) becomes 40 mass% or more and 70 mass% or less, and the particle diameter of 2.5 mm or less (in other words, 2. It is preferable that the composition is such that 5% sieve passes through 5 mm sieve). On the other hand, the light-weight fine aggregate has a particle diameter of more than 5 mm (in other words, a particle that does not pass through a 5 mm sieve) is 0% by mass, and a particle diameter of 5 mm or less (in other words, a sieve with 5 mm sieve). It is preferable that the composition is such that the amount of material that passes through is 85% by mass or more.

  The particle size of the above-mentioned lightweight aggregate (specifically, lightweight coarse aggregate and lightweight fine aggregate) is measured by an aggregate screening test method according to JIS A 1102, and is tested according to JIS Z 8801-1. It represents the opening of the sieve.

  Further, the cement kneaded material may contain an admixture. Examples of admixtures include fly ash, silica fume, cement kiln dust, blast furnace fume, blast furnace granulated slag fine powder, blast furnace decooled slag fine powder, converter slag fine powder, hemihydrate gypsum, expansion material, limestone fine powder, Inorganic fine powder such as quicklime fine powder or dolomite fine powder, sodium bentonite, calcium bentonite, attapulgite, sepiolite, activated clay, acid clay, allophane, imogolite, shirasu (volcanic ash), shirasu balloon, kaolinite, metakaolin ( Calcined clay), synthetic zeolite, artificial zeolite, artificial zeolite, mordenite, clinoptilolite and the like. These can be used alone or in admixture of two or more.

  Further, the cement kneaded material may contain an admixture. Examples of the admixture include AE agent, AE water reducing agent, fluidizing agent, separation reducing agent, setting retarder, setting accelerator, rapid setting agent, shrinkage reducing agent, foaming agent, foaming agent, waterproofing agent and the like. It is done. These can be used alone or in combination of two or more.

  Further, the cement kneaded product has a mass ratio of water (water powder ratio W / P) to 29 mass% or more with respect to the mass of the powder material containing cement (specifically, including cement and the inorganic fine powder). It is comprised so that it may become 34 mass% or less (preferably 30 mass% or more and 32 mass% or less). The method for forming the cement kneaded material is not particularly limited. For example, a cement composition composed of a powder material (specifically, cement and inorganic fine powder) and a lightweight aggregate and water are used. It can be formed by kneading. The apparatus for kneading the cement composition and water is not particularly limited, and for example, a general-purpose apparatus such as a mortar mixer, a tilting cylinder mixer, a grout mixer, a damacut mixer, or a forced kneading mixer may be used. it can.

  As described above, according to the cement kneaded material and the method for forming the cement kneaded material according to the present invention, even when a lightweight aggregate is used, the cement has good fluidity and good strength. A cured body can be formed.

  That is, the cement is composed of ordinary Portland cement and early-strength Portland cement, and the mass ratio of ordinary Portland cement to the total mass of ordinary Portland cement and early-strength Portland cement is 60% by mass to 80% by mass. In addition, when the mass ratio of water to the mass of the powder material containing cement is 29% by mass or more and 34% by mass or less, a cement kneaded material having good fluidity can be obtained. Moreover, it is a cement hardened body formed by hardening a cement kneaded material, Comprising: The cement hardened body which has favorable intensity | strength can be formed.

  The light-weight aggregate has a particle size exceeding 10 mm of 0 mass%, a particle size of 5 mm or less is 65 mass% to 85 mass%, and a particle size of 2.5 mm or less is 47 mass% to 55 mass%. By being comprised so, the cement kneaded material which has more favorable fluidity | liquidity can be obtained. Moreover, it is a cement hardened body formed by hardening a cement kneaded material, Comprising: The cement hardened body which has more favorable intensity | strength can be formed.

  Moreover, when the mass ratio of the ordinary Portland cement to the total mass of the ordinary Portland cement and the early-strength Portland cement is 70% by mass or more and 80% by mass or less, a cement kneaded material having even better fluidity can be obtained. it can. Moreover, the cement hardened | cured material formed by hardening a cement kneaded material, Comprising: The cement hardened | cured material which has further favorable intensity | strength can be formed.

  The cement kneaded material and the method for forming the cement kneaded material according to the present invention are not limited to the above-described embodiment, and various modifications can be made without departing from the gist of the present invention. Further, the configurations and methods of the plurality of embodiments described above may be arbitrarily adopted and combined (even if the configurations and methods according to one embodiment are applied to the configurations and methods according to other embodiments). Of course, it is of course possible to arbitrarily select configurations and methods according to various modified examples and employ them in the configurations and methods according to the above-described embodiments.

  Hereinafter, the present invention will be described more specifically with reference to Examples and Comparative Examples, but the present invention is not limited to the following Examples.

= Materials used =
・ Cement: Ordinary Portland cement (abbreviated NC, manufactured by Sumitomo Osaka Cement)
・ Cement: Early strong Portland cement (abbreviation HC, manufactured by Sumitomo Osaka Cement Co., Ltd.)
・ Inorganic fine powder: Fly ash (abbreviated FA, manufactured by Techno Chubu Co., Ltd.)
・ Inorganic fine powder: Limestone fine powder (abbreviation LP, trade name "Tankar K-400", manufactured by Asahi Mineral Co., Ltd.)
・ Inorganic fine powder: Expansion material (abbreviation EX, trade name “Super Sax Type S”, manufactured by Sumitomo Osaka Cement Co., Ltd.)
・ Lightweight aggregate: Artificial lightweight coarse aggregate (abbreviation LG, trade name “Mesalite Medium Aggregate”, manufactured by Mesalite Industrial Co., Ltd., water absorption: 23.4%)
・ Lightweight aggregate: Artificial lightweight fine aggregate (abbreviation LS, trade name “Mesalite Fine Aggregate”, manufactured by Mesalite Industrial Co., Ltd., water absorption: 15.5%)
・ Admixture: Water reducing agent (abbreviation AD, trade name “Viscocrete 125”, manufactured by Nihon Sika)
・ Admixture: Thickener (abbreviation VA, trade name "Metroze SCH300", manufactured by Shin-Etsu Chemical Co., Ltd.)
・ Admixture: Foaming agent (abbreviation FO, trade name “Celmec”, manufactured by Floric)
·water

<Example 1>
= Adjustment of particle size distribution of lightweight aggregate =
The light-weight aggregate was screened and adjusted so that the light-weight aggregate had a particle size distribution shown in Table 1 below.

= Production of cement kneaded material =
Each of the above materials used was kneaded according to the formulation shown in Table 2 below to prepare a cement kneaded product.

= Measurement of fluidity =
Using the produced cement kneaded material, the mini slump flow was measured by the method prescribed in JIS A 1171. The measurement results are shown in Table 2 below.

= Measurement of unit volume mass =
The unit is obtained by filling the prepared cement kneaded material in a container of a predetermined volume and measuring the mass, and dividing the value obtained by subtracting the mass of the container from the measured mass by the volume of the container (volume of the filled cement kneaded material). The volume mass was calculated. The unit volume mass is shown in Table 2 below.

= Measurement of compressive strength =
The prepared cement kneaded material was driven into a copper lightweight mold having a diameter of 50 mm and a height of 100 mm, demolded on the next day of driving, and subjected to standard curing until the age of 7 days to prepare a specimen. And the compressive strength based on JIS A1108 was measured using the obtained specimen. The measurement results are shown in Table 2 below.

<Examples 2-5, Comparative Examples 1-4>
A cement kneaded material was prepared with the same composition as in Example 1 except that the cement composition or the water powder ratio W / P was changed as shown in Table 3 below. Unit volume mass and compressive strength were measured. Each measurement result is shown in Table 2 below.

<Examples 6 to 8, Comparative Example 5>
Except for changing the particle size distribution of the lightweight aggregate as shown in Table 1 below, a cement kneaded material was prepared with the same composition as in Example 1, and the mini slump flow, unit volume mass, and compressive strength were the same under the same conditions. Measurements were made. Each measurement result is shown in Table 3 below.

<Summary>
In Table 2, when Examples 1 to 5 and Comparative Examples 1 to 4 are compared, in Examples 1 to 5, the cement kneaded material has a good mini slump flow, and the specimen (hardened cement) ) Has a good compressive strength, but it is recognized that in Comparative Examples 1 to 4, a better result than each example cannot be obtained in either the mini slump flow or the compressive strength. In other words, the blending ratio of normal Portland cement and early-strength Portland cement and the water powder ratio W / P are within the scope of the present invention, so that even when a lightweight aggregate is used, the cement kneaded material is good. While having fluidity | liquidity, favorable intensity | strength can be provided also to the cement hardening body obtained.

  In Table 2, when Examples 1 to 5 are compared, Examples 1 and 2 are higher in the mini slump flow of the cement kneaded product and the compressive strength of the specimen (hardened cement) than Examples 3 to 5. It is recognized that In other words, the water / powder ratio W / P is within the scope of the present invention, and the blending ratio of ordinary Portland cement and early strong Portland cement is configured as in Examples 1 and 2, so that a lightweight aggregate is used. However, the cement kneaded material has better fluidity, and the obtained cement hardened body can be provided with better strength.

  In Table 3, when Examples 1, 6-8 are compared with Comparative Example 5, Examples 1, 6-8 are the mini slump flow of the cement kneaded product and the compressive strength of the specimen (hardened cement). Is observed to be high. Further, when Examples 1 and 6 to 8 are compared with Comparative Example 6, the cement kneaded material of Comparative Example 6 has a material slump flow that is too high, so that the material separation resistance is higher than the cement kneaded materials of Examples 1 and 6 to 8. Sex is reduced. That is, the composition ratio of the ordinary Portland cement and the early strength Portland cement and the water powder ratio W / P are configured as in Examples 1, 6 to 8 in the particle size distribution of the lightweight aggregate in the scope of the present invention. Even when a lightweight aggregate is used, the cement kneaded material has good fluidity and material separation resistance, and good strength can be imparted to the obtained cemented body.

= Measurement of bleeding rate and expansion rate =
In Examples 1 to 8, the bleeding rate and the expansion rate were measured by JSEC-F533 “PC Grouting bleeding rate and expansion test method (container method) (draft)”. As a measurement result, the bleeding rate was 0 in each example, and the expansion rate showed no shrinkage at 7 days of age.

= Pump pumpability =
Moreover, in Examples 1-8, pump pumpability was confirmed using the squeeze pump and a 40-m flexible hose. As a result, it was possible to pump the hose without blocking it in each example.

Claims (3)

A cement kneaded product obtained by kneading cement, lightweight aggregate, and water,
The cement is composed of ordinary Portland cement and early-strength Portland cement, and the mass ratio of ordinary Portland cement to the total mass of ordinary Portland cement and early-strength Portland cement is 60% by mass or more and 80% by mass or less.
Mass Mass ratio of water to the powder material containing cement state, and are 29 wt% or more 34 wt% or less,
The light-weight aggregate has a particle size exceeding 10 mm of 0 mass%, a particle size of 5 mm or less is 65 mass% to 85 mass%, and a particle diameter of 2.5 mm is 47 mass% to 55 mass%. Cement kneaded material composed of. The cement kneaded material according to claim 1, wherein a mass ratio of the ordinary Portland cement to the total mass of the ordinary Portland cement and the early strong Portland cement is 70 mass% or more and 80 mass% or less. A method for forming a cement kneaded product in which cement, a lightweight aggregate, and water are mixed to form a cement kneaded product,
The cement is composed of ordinary Portland cement and early-strength Portland cement, and the mass ratio of ordinary Portland cement to the total mass of ordinary Portland cement and early-strength Portland cement is 60% by mass or more and 80% by mass or less.
Mass Mass ratio of water to the powder material containing cement state, and are 29 wt% or more 34 wt% or less,
The light-weight aggregate has a particle size exceeding 10 mm of 0 mass%, a particle size of 5 mm or less is 65 mass% to 85 mass%, and a particle diameter of 2.5 mm is 47 mass% to 55 mass%. A method for forming a cement kneaded material comprising :