JP6963750B2 - Cement composition for spraying - Google Patents

Description

The present invention relates to a cement composition for spraying and used by spraying on an object.

Conventionally, there is known a method of applying a spraying cement composition to the surface of an object by spraying the spraying cement composition containing cement and water onto the object. For example, in construction work such as excavated tunnels and underground spaces, the exposed surface is prevented from collapsing by spraying a cement composition (specifically, concrete) having a quick-hardening property on the excavated surface.

As a method of spraying the cement composition for spraying on an object, a method of spraying the cement composition for spraying together with a gas using a spraying nozzle and spraying on the object is generally known. Specifically, a powder material containing cement and water are separately supplied into a spraying nozzle and mixed to form a spraying cement composition, and the spraying cement composition is sprayed. A method of injecting gas together with a gas from a cement to spray the object (so-called dry spraying method) is known. Alternatively, a spraying cement composition formed by kneading a powder material containing cement and water is supplied to a spraying nozzle, and the spraying cement composition is sprayed from the spraying nozzle to be an object. A method of spraying on (so-called wet spraying method) is known.

By the way, as described above, when the spraying cement composition is sprayed from the spraying nozzle and sprayed onto the object, the powdery substance in the spraying cement composition becomes dust due to the impact caused by the spraying. It may scatter or the cement composition for spraying itself may bounce off. The generation of such dust and rebound causes variations in the composition and the amount of sprayed cement composition for spraying.

Therefore, as a method of suppressing dust and rebound, a method of using a liquid quick-setting agent as a part of the components of the cement composition for spraying, a method of using a liquid quick-setting agent (see Patent Documents 1 and 2), and a powder-like quick-setting agent are used. A method of using a liquid quick-setting admixture in combination (see Patent Documents 3 and 4) has been proposed.

Special Table 2001-509124 Japanese Unexamined Patent Publication No. 10-08735 Japanese Unexamined Patent Publication No. 2002-220270 JP-A-2007-055831

However, each of the above methods requires the quick-setting admixture to be used in a predetermined state (liquid or powdery). Therefore, when the quick-setting admixture in a desired state cannot be prepared, the above-mentioned method is used. Each method cannot be used.

Therefore, an object of the present invention is to provide a cement composition for spraying that can suppress dust and rebound.

Spraying cementitious compositions according to the present invention, there is provided a spraying cementitious composition comprising a cement and limestone powder, the specific surface area of powder limestone fines 3500 cm 2 / ^g or more 4500cm 2 / ^g or less Yes, the content of calcium carbonate in the fine limestone powder is 70% by mass or more and 90% by mass or less.

According to such a configuration, the specific surface area of the limestone fine powder and the content of calcium carbonate in the limestone fine powder are within a predetermined range, which occurs when the cement composition for spraying is sprayed on the object. Dust and bounce can be effectively suppressed.

The cement composition for spraying according to the present invention may further contain an aggregate, a quick-setting admixture and water, and the content of the limestone fine powder may be 70 kg / m ³ or more and 200 kg / m ³ or less.

In the cement composition for spraying according to the present invention, the limestone fine powder may have a JA funnel flow time of 15.0 seconds or more and 25.0 seconds or less of the limestone fine powder paste.

The cement composition for spraying according to the present invention may contain the limestone fine powder in an amount of 15% by mass or more and 60% by mass or less with respect to the cement.

As described above, according to the present invention, dust and rebound can be suppressed without being affected by the state of the quick-setting admixture.

Hereinafter, embodiments of the present invention will be described.

The cement composition for spraying according to the present invention contains cement and limestone fine powder. Further, the cement composition for spraying according to the present invention may further contain an aggregate, a quick-setting admixture and water.

The cement is not particularly limited, and for example, various Portland cements specified in JIS R 5210, various blast furnace cements specified in JIS R 5211, and various silica cements specified in JIS R 5212. , And at least one selected from the group consisting of various fly ash cements specified in JIS R 5213 can be used. Examples of the Portland cement include ordinary Portland cement, early-strength Portland cement, ultra-early-strength Portland cement, moderate-heat Portland cement, low-heat Portland cement, sulfate-resistant Portland cement, and low-alkali forms of the above-mentioned various Portland cements. .. Examples of the blast furnace cement include blast furnace cements A, B, and C. In addition, examples of the silica cement include silica cements A, B, and C. Examples of the fly ash cement include fly ash cements A, B, and C.

As the aggregate, coarse aggregate and fine aggregate can be used. That is, the cement composition for spraying according to the present invention may constitute concrete.

As the coarse aggregate, a material having a size of 85% by mass or more that does not pass through a 5 mm sieve can be used. Specifically, as coarse aggregate, sandstone crushed stone, ball gravel (river gravel), natural lightweight coarse aggregate (perlite, hill stone, etc.), by-product lightweight coarse aggregate, artificial lightweight coarse aggregate, recycled aggregate, etc. Can be mentioned. The content of the coarse aggregate is not particularly limited, and may be, for example, 180% by mass or more and 210% by mass or less, or 190% by mass or more and 200% by mass or less with respect to cement. ..

As the fine aggregate, a material having a size of 85% by mass or more that passes through all the sieves of 10 mm and passes through the sieves of 5 mm can be used. Specifically, as fine aggregates, natural sand such as mountain sand, river sand, land sand, and sea sand, and crushed sand formed by artificially crushing sandstone, limestone, etc. (more specifically, lime). Crushed sand, etc.). The content of the fine aggregate is not particularly limited, and may be, for example, 220% by mass or more and 285% by mass or less, or 230% by mass or more and 275% by mass or less with respect to cement. ..

The sizes of the coarse aggregate and the fine aggregate are measured by the aggregate sieving test method according to JIS A 1102, and represent the test sieve of JIS Z 8801-1.

As the limestone powder, the specific surface area is used not more than 3500 cm ² / g or more 4500cm ² / g, it is preferable to use not more than 3600 cm ² / g or more 4400cm ² / g. The specific surface area is measured by the method specified in the physical test method for JIS R 5201 cement. Further, as the limestone fine powder, those having a calcium carbonate content of 70% by mass or more and 90% by mass or less are used, and those having a calcium carbonate content of 71% by mass or more and 89% by mass or less are preferably used. Further, as the limestone fine powder, the JA funnel flow time of the limestone fine powder paste may be 15.0 seconds or more and 25.0 seconds or less, or 15.5 seconds or more and 20.0 seconds or less. It may be 15.7 seconds or more and 16.8 seconds or less. The JA funnel flow time is measured by the measuring method described in the following examples.

The content of the limestone fine powder in the cement composition for spraying may be 70 kg / m ³ or more and 200 kg / m ³ or less, or 75 kg / m ³ or more and 190 kg / m ³ or less. The content of the limestone fine powder may be 15% by mass or more and 60% by mass or less, or 19% by mass or more and 56% by mass or less with respect to the cement. Further, the limestone fine powder may be 6% by mass or more and 20% by mass or less, or 9.5% by mass or more and 19% by mass or less, based on the total amount of the fine aggregate and the limestone fine powder. good.

The quick-setting agent is not particularly limited, and examples thereof include an aluminate-based, a sulfate-based, a carbonate-based, a silicate-based, and a calcium aluminate-based agent. Of these, the calcium aluminate type is preferable from the viewpoint of cohesiveness and strength development. The calcium aluminate type can be used alone as a quick-setting agent, but it can also be used in combination with an inorganic salt such as an aluminate, a sulfate, and a carbonate. Of these, gypsum, which is a sulfate, is preferable as the inorganic salt. Further, the quick-setting agent may contain a component other than the quick-setting component such as the sodium aluminate described above. Examples of the quick-setting component include one or more selected from the group of sodium aluminate, aluminum sulfate, and sodium silicate. Further, the quick-setting agent may be liquid or powdery, and a liquid quick-setting agent can be used in that it is easy to mix uniformly. The content of the quick-setting admixture is not particularly limited, and may be, for example, 5% by mass or more and 10% by mass or less, or 6% by mass or more and 9% by mass or less with respect to cement. May be good. When the quick-setting agent contains a component other than the quick-setting component, the above content is the content of the quick-setting component.

The cement composition for spraying according to the present invention may contain an admixture. Examples of the admixture include fly ash, silica fumes, cement kiln dust, blast furnace fumes, blast furnace granulated slag fine powder, blast furnace refrigerated slag fine powder, blast furnace slag fine powder, hemihydrate gypsum, expansion material, limestone fine powder, etc. Fresh lime fine powder, dolomite fine powder, sodium bentnite, calcium bentonite, attapargite, sepiolite, activated clay, acidic clay, allofen, imogolite, silas (volcanic ash), silas balloon, kaolinite, metakaolin (firing clay), synthetic zeolite, Examples thereof include artificial zeolite, artificial zeolite, mordenite, and clinoptilolite. These can be used alone or in admixture of two or more.

Further, the cement composition for spraying according to the present invention may contain an admixture. Examples of the admixture include an AE agent, an AE water reducing agent, a fluidizing agent, a separation reducing agent, a coagulation delaying agent, a coagulation accelerator, a shrinkage reducing agent, a foaming agent, a foaming agent, a waterproofing agent and the like. These can be used alone or in combination of two or more.

The water constituting the spraying cement composition according to the present invention is not particularly limited, and general tap water can be used. The content of water in the cement composition for spraying may be 40% by mass or more and 65% by mass or less, or 45% by mass or more and 60% by mass or less with respect to the cement.

When spraying the above-mentioned spraying cement composition onto an object (for example, a wall surface formed by excavation), a spraying nozzle for spraying the spraying cement composition is used. The spray nozzle is supplied with and mixed with a first composition containing cement, limestone fine powder, aggregate, and water, and a second composition containing a liquid or powdery quick-setting admixture. It may be configured to form a cement composition for spraying with, and water is supplied and mixed with a composition containing cement, limestone fine powder, aggregate, and powdery quick-setting admixture. This may be configured to form a spraying cement composition. Alternatively, the spray nozzle is provided by supplying and mixing a first composition containing cement, limestone fine powder, and aggregate, and a second composition containing water and a liquid quick-setting admixture. It may be configured to form a spraying cement composition.

As described above, according to the cement composition for spraying according to the present invention, dust and rebound can be suppressed.

That is, when the specific surface area of the limestone fine powder and the content of calcium carbonate in the limestone fine powder are within a predetermined range, the dust and rebound generated when the cement composition for spraying is sprayed on the object is effective. Can be suppressed.

The cement composition for spraying according to the present invention is 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 (the configurations and methods of one embodiment may be applied to the configurations and methods of other embodiments). Of course, it is also possible to arbitrarily select a configuration or method according to various other modified examples and adopt the configuration or method according to the above-described embodiment.

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

<Material used>
・ Cement: Ordinary Portland cement (manufactured by Sumitomo Osaka Cement Co., Ltd.)
・ Water: Tap water ・ Fine aggregate: Mountain sand ・ Coarse aggregate: Sandstone crushed stone ・ Fly ash: JIS A 6201 Concrete fly ash type II (manufactured by Techno Chubu Co., Ltd.)
-Chemical admixture: Admixture for wet sprayed concrete Floric TN (manufactured by Floric)
・ Rapid binder: Denka Tomic TYPE5 (manufactured by Denka)
-Limestone fine powder: See Table 1 below (specific surface area is measured by the same method as in the above embodiment).
(JA funnel flow time is measured by the following method. Specifically, limestone fine powder and 50 wt% water with respect to the limestone fine powder are kneaded and stirred to obtain a limestone fine powder paste. Then, using the obtained limestone fine powder paste, a flow test was performed with a MIC-363-0-03 type (JA funnel) according to the "PC grout fluidity test method (JSCE-F 531-2010)". The flow-down time (JA funnel flow-down time) was measured. The dimensions of the JA funnel are an upper end inner diameter of 100 mm, a lower end inner diameter of 8 mm, and a total height of 381.1 mm.)

<Preparation of cement composition>
By kneading each of the above materials with the formulations shown in Table 2 below, cement compositions of each Example and each Comparative Example were prepared.

<Spread test>
For each of the cement compositions shown in Table 2 above, a spread test (German Industrial Standard DIN1048) was carried out to easily evaluate the bounce of sprayed concrete. Specifically, the cement composition of each formulation was tested by the JIS A 1101 concrete slump test method. Then, the operation of lifting one side of the slump plate by 4 cm and dropping it was repeated with respect to the cement composition having a slump of 18 ± 2.5 cm. Then, by repeating this dropping operation, the number of times when the flow of the cement composition of each formulation reached 60 cm (hereinafter, also referred to as the number of times of spreading) was measured.
The larger the number of spreads, the less dust and rebound when the cement composition for spraying is sprayed. The measurement results of the slump and the number of spreads are shown in Table 3 below.

<Measurement of dust concentration and rebound>
In the formulation of the cement compositions of Comparative Example 1, Comparative Example 2 and Example 4, 7% by mass of the quick-setting admixture was added to the cement mass to prepare a cement composition for spraying. Then, using the obtained cement composition for spraying, the dust concentration and the rebound were measured. The dust concentration was measured based on JSCE-F 564-2013, and the bounce was measured based on JSCE-F 563-2013. The discharge amount of the cement composition for spraying at the time of spraying was 8 m ³ / hr. The measurement results of dust concentration and rebound are shown in Table 3 below.

<Summary>
First, looking at Comparative Examples 1 and 2 and Example 4 in Table 3, it is recognized that the dust concentration and the amount of rebound become smaller as the number of times of spreading increases. That is, it is recognized that as the number of times of spreading increases, dust and rebound are suppressed. Then, when each Example is compared with each Comparative Example, it is recognized that each Example has a larger number of spreads. That is, by spraying using a cement composition for spraying in which the specific surface area of the limestone fine powder and the content of calcium carbonate in the limestone fine powder are adjusted within the range of the present invention, the presence or absence of a quick-setting agent can be determined. It is possible to effectively suppress the generation of dust and rebound without being affected by the state. Further, by using the limestone fine powder whose JA funnel flow time is within the range of the present invention, it is possible to effectively suppress the generation of dust and rebound without being affected by the presence or absence of the quick-setting admixture and the state. It becomes.

Claims (4)

A cement composition for spraying containing cement and limestone fine powder.
The content of the limestone fine powder is 70 kg / m ³ or more and 200 kg / m ³ or less.
The specific surface area of powder the limestone fine powder is not more than 3500 cm ² / g or more 4500cm ² / g,
A cement composition for spraying in which the content of calcium carbonate in the limestone fine powder is 70% by mass or more and 90% by mass or less. Spraying cement composition according to further including claim 1 and water aggregate and quick-setting admixture. The limestone fine powder is obtained by kneading and stirring 50 wt% of water with respect to the limestone fine powder and the limestone fine powder, and the JA funnel flow time of the limestone fine powder paste is 15.0 seconds or more and 25.0 seconds or less. The cement composition for spraying according to claim 1 or 2. The cement composition for spraying according to any one of claims 1 to 3, which contains the limestone fine powder in an amount of 15% by mass or more and 60% by mass or less with respect to cement.