JP6570396B2 - Plastering powder cement composition and plastering mortar - Google Patents

Description

  The present invention relates to a plastering powdered cement composition and a plastering mortar containing the cement composition.

Conventionally, various plastering mortars having excellent workability are known.
Moreover, what contains the fine powder of limestone is known as a plastering mortar excellent in workability | operativity.
For example, in claim 1 of Patent Document 1, a cement for plasterer characterized by adding and mixing 10 to 100 parts by weight of limestone fine powder containing clay fine powder to 100 parts by weight of cement is described. Has been.
Further, in claim 3 of Patent Document 1, the fine limestone powder containing the fine clay powder according to 1 is obtained by collecting the exhaust gas of a cement clinker firing furnace with a suspension preheater. Among them, it is described that the fine powder satisfies five conditions such as a numerical range of the Blaine specific surface area.
Furthermore, when a thickener (methylcellulose) is used for “present invention-1” (with thickener) and “present invention-2” (without thickener) in the examples of Patent Document 1, workability and the like are improved. Further improvements have been shown.

JP 63-103848 A

In the above-mentioned Patent Document 1, as a limestone fine powder used for a part of a material for plastering mortar, a special fine powder (specifically, a cement clinker firing furnace is used instead of a normal fine powder obtained by pulverizing limestone. Among the fine powders obtained from the exhaust gas, those satisfying all five conditions) are used.
The present invention, when used as a plastering mortar, has good workability without the use of special fine limestone powder, and evaluation of dripping of the mortar after being applied to a wall surface (difficult to sag) It is an object of the present invention to provide a plastering powdery cement composition having a good thickness).

As a result of intensive studies to solve the above problems, the inventor of the present invention is a plastered powder cement composition containing a clinker pulverized product, limestone powder and gypsum, and the clinker pulverized product is a normal Portland cement clinker pulverized product or It is an early strength Portland cement clinker pulverized product, the content of limestone powder is 8 to 40% by mass, the brain specific surface area is 4,500 cm ² / g or less, and the 90% by volume cumulative particle size is 57 μm or less, According to the plastering powdery cement composition having a 50% by volume cumulative particle size of 22 μm or less, the inventors have found that the above object can be achieved and completed the present invention.

That is, the present invention provides the following [1] to [8].
[1] A plastering powder cement composition including a clinker pulverized product, limestone powder and gypsum, wherein the clinker pulverized product is an ordinary Portland cement clinker pulverized product or an early strong Portland cement clinker pulverized product, and the cement composition The content of the limestone powder in the product is 8 to 40% by mass, the cement composition has a brain specific surface area of 4,500 cm ² / g or less and a 90% by volume cumulative particle size of 57 μm or less, And a powdery cement composition for plasterers having a 50% by volume cumulative particle size of 22 μm or less.
[2] The powdery cement composition for plasterers according to [1], wherein the content of particles having a particle size of 31 μm or more in the cement composition is 32% by volume or less.
[3] In the above [1] or [2], in the cement composition, the clinker pulverized content is 55 to 85% by mass and the gypsum content is 1.5 to 8% by mass. The powdery cement composition for plastering as described.
[4] The gypsum includes dihydrate gypsum and hemihydrate gypsum, and the ratio of the total amount of dihydrate gypsum and hemihydrate gypsum in the total amount of the cement composition is 1.5 to 8% by mass. The powdery cement composition for plasterers according to any one of [1] to [3].

[5] The clinker pulverized product has a brain specific surface area of 2,800 to 4,200 cm ² / g, the limestone powder has a brain surface area of 5,000 to 8,000 cm ² / g, The powdery cement composition for plasterers according to any one of [1] to [4], wherein the specific surface area is 5,000 to 10,000 cm ² / g.
[6] The content of other materials other than the clinker pulverized material, limestone powder, and gypsum in the cement composition is 0 to 5% by mass, according to any one of [1] to [5]. A powdered cement composition for plasterers.
[7] A plastering mortar comprising the plastering powder cement composition according to any one of [1] to [6], a fine aggregate, and water.
[8] The plastering mortar according to [7], wherein the plastering mortar does not include a thickener, a water retention agent, an AE agent, and a water reducing agent.

According to the present invention, the workability of the plastering mortar (specifically, each of the movement, elongation, and cutting of the mortar can be achieved without using special limestone fine powder as a part of the material of the plastering mortar. Evaluation) can be improved.
Further, according to the present invention, it is possible to improve the evaluation of the dripping (sagging) of the mortar after the plastering mortar is applied to the wall surface or the like (difficulty of dripping; less dripping of the mortar).

The plastered powdery cement composition of the present invention (which may be abbreviated as “cement composition” in the present specification) is a cement composition comprising a clinker pulverized product, limestone powder and gypsum, and the clinker pulverized product. Is a pulverized product of ordinary Portland cement clinker or pulverized product of early strength Portland cement clinker, the content of limestone powder is 8 to 40% by mass, the specific surface area of branes is 4,500 cm ² / g or less, and 90% by volume The cement composition has a cumulative particle size of 57 μm or less and a 50 volume% cumulative particle size of 22 μm or less.

The clinker pulverized product used in the present invention is a normal Portland cement clinker pulverized product or an early strong Portland cement clinker pulverized product. Of these, ordinary Portland cement clinker is preferable from the viewpoint of cost and versatility.
Blaine specific surface area of the clinker ground product is preferably 2,800~4,200cm ² / g / g, more preferably 2,900~4,100cm ² / g, particularly preferably 3,000~4,000cm ² / g. When the value is 2,800 cm ² / g or more, the strength development of the plastering mortar is further improved. When the value is 4,200 cm ² / g or less, the workability (particularly, elongation) of the plastering mortar is further improved.
The content of the clinker pulverized product in the cement composition is preferably 55 to 85% by mass, more preferably 60 to 83% by mass, and particularly preferably 64 to 82% by mass. When the value is 55% by mass or more, the strength development of the plastering mortar is further improved. When the value is 85% by mass or less, the overall workability of the plastering mortar is further improved.

In the present invention, as the limestone powder, pulverized limestone is usually used.
The Blaine specific surface area of the limestone powder is preferably 5,000 to 8,000 cm ² / g, more preferably 5,500 to 7,500 cm ² / g, particularly preferably 5,800 to 7,200 cm ² / g. . When the value is 5,000 cm ² / g or more, the plastering mortar becomes more difficult to occur. When the value is 8,000 cm ² / g or less, the workability (particularly, elongation) of the plastering mortar is further improved.
The content rate of the limestone powder in the cement composition is 8 to 40% by mass, preferably 9 to 37% by mass, and more preferably 10 to 35% by mass. If the value is less than 8% by mass, the elongation of the plastering mortar decreases. When the value exceeds 40% by mass, the strength development of the plastering mortar decreases.

Examples of gypsum used in the present invention include dihydrate gypsum, hemihydrate gypsum, anhydrous gypsum and the like.
These may be used individually by 1 type, or may be used in combination of 2 or more type.
In the present invention, from the viewpoint of further improving the cutting of the plastering mortar, it is preferable to use hemihydrate gypsum, but when hemihydrate gypsum is included excessively, compared to the case where hemihydrate gypsum is appropriately included, The movement and elongation of plastering mortar may be reduced. Therefore, from the viewpoint of ensuring good overall workability of plastering mortar, the mass ratio of hemihydrate gypsum in total gypsum (mass ratio of hemihydrate gypsum / (total of dihydrate gypsum, hemihydrate gypsum and anhydrous gypsum)) Is preferably 0.9 or less, more preferably 0.8 or less.
The glaine specific surface area of gypsum is preferably 5,000 to 10,000 cm ² / g, more preferably 6,000 to 9,500 cm ² / g, and particularly preferably 7,000 to 9,000 cm ² / g. When the value is 5,000 cm ² / g or more, the plastering mortar is less likely to sag, and the strength development is further improved. When the value is 10,000 cm ² / g or less, the workability (particularly, movement and elongation) of the plastering mortar is further improved.
The content of gypsum in the cement composition is preferably 1.5 to 8% by mass, more preferably 2 to 7% by mass, and further preferably 3 to 6% by mass. When the value is 1.5% by mass or more, the workability (particularly, movement and elongation) of the plastering mortar is further improved. When the value is 8% by mass or less, the strength development of the plastering mortar is further improved.

When dihydrate gypsum and hemihydrate gypsum are used together as gypsum, the content of dihydrate gypsum in the cement composition is 2 to 5% by mass, and the content of hemihydrate gypsum is 0.5 to 3% by mass. It is preferable from the viewpoint of maintaining good workability of the plastering mortar.
The mass ratio of anhydrous gypsum to the sum of dihydrate gypsum and hemihydrate gypsum (total of anhydrous gypsum / dihydrate gypsum and hemihydrate gypsum) is preferably 1 or less, more preferably 0.5 or less, particularly preferably 0. .2 or less.
Examples of the method for measuring the content of gypsum in the cement composition include thermal analysis (thermogravimetric analysis (TG), differential scanning calorimetry (DSC), etc.), XRD-Riet belt analysis, and the like. From the viewpoint of more accurate analysis, including anhydrous gypsum, a combined method of thermal analysis and XRD-Rietbelt analysis, in which the measurement results of dihydrate gypsum and hemihydrate gypsum by thermogravimetric analysis are reflected in XRD-Rietbelt analysis Is preferred.
In addition, as a sample container for thermal analysis used for thermal analysis, a container described in JP-A-6-242035 (having only a hole having a diameter of 5 to 60 μm in the lid of the container, other than the hole) It is preferable to use a metallic container in a sealed state.

In the present invention, as a part of the material of the cement composition, pulverized material other than clinker, limestone powder and gypsum can be used (powder material that can be optionally blended).
Examples of other powdery materials include inorganic powders such as coal ash, silica powder, and natural pozzolans.
Examples of coal ash are fly ash (for example, fly ash types I, II, III, and IV specified in “JIS A 6201”), and combustion of pulverized coal at a thermal power plant. Examples include classified or pulverized coal ash.
Examples of natural pozzolans include volcanic ash, silicate clay, and diatomaceous earth.
From the viewpoint of workability of the plastering mortar, the brane specific surface area of the inorganic powder, which is another material that can be optionally blended, is preferably 3,000 to 12,000 cm ² / g.
The content of other powdery materials in the cement composition (the total value when two or more types are used) is 5% by mass or less (preferably 4% by mass or less) from the standpoint of strength development of the plastering mortar. It is.

Next, the particle size and particle size distribution of the cement composition of the present invention will be described.
The brane specific surface area of the cement composition of the present invention is 4,500 cm ² / g or less, preferably 3,500 to 4,400 cm ² / g, more preferably 3,600 to 4,300 cm ² / g, particularly preferably. It is 3,700-4,200 cm < ² > / g. When this value exceeds 4,500 cm ² / g, the elongation of the plastering mortar decreases. It is preferable in terms of strength development that the value is 3,500 cm ² / g or more.
The 90 volume% cumulative particle size of the cement composition of the present invention is 57 μm or less, preferably 30 to 56 μm, more preferably 34 to 55 μm, and particularly preferably 38 to 54 μm. When the particle size exceeds 57 μm, the strength development of the plastering mortar is lowered and the sagging of the plastering mortar is likely to occur. When the particle size is 30 μm or more, the workability (particularly, movement and elongation) of the plastering mortar is further improved.

The 50 volume% cumulative particle size of the cement composition of the present invention is 22 μm or less, preferably 12 to 21 μm, more preferably 14 to 20 μm, and particularly preferably 15 to 20 μm. When the particle diameter exceeds 22 μm, the strength development of the plastering mortar is lowered and the mortar is likely to sag. When the particle size is 12 μm or more, the workability (particularly, movement and elongation) of the plastering mortar is further improved.
The 90 volume% cumulative particle diameter and 50 volume% cumulative particle diameter of the cement composition of the present invention are measured using a commercially available particle size distribution measuring apparatus (for example, product name “Microtrac HRA Model 9320-X100” manufactured by Nikkiso Co., Ltd.). Can be sought.
Specifically, a cumulative particle size curve is created using a particle size distribution measuring apparatus, and 90 volume% cumulative particle size or the like can be obtained from the cumulative particle size curve.

The content ratio of particles having a particle size of 31 μm or more in the cement composition of the present invention is preferably 32% by volume or less, more preferably 15 to 31% by volume, and particularly preferably 20 to 30% by volume. If the content rate of this particle | grain is 32 volume% or less, the elongation of the plastering mortar will improve more. In addition, the content rate of the particle | grains whose particle size is 31 micrometers or more can be calculated | required using a commercially available particle size distribution measuring apparatus (For example, Nikkiso Co., Ltd. product name "Microtrac HRA model 9320-X100").

The plastering mortar of the present invention includes the above-described plastering powdery cement composition, fine aggregate, and water.
Examples of the fine aggregate include river sand, mountain sand, land sand, sea sand, crushed sand, quartz sand, or combinations of two or more thereof.
The compounding amount of the fine aggregate is preferably 150 to 800 parts by mass, more preferably 175 to 750 parts by mass, further preferably 200 to 500 parts by mass, and particularly preferably 200 to 300 parts by mass with respect to 100 parts by mass of the cement composition. Part by mass. When the blending amount is 150 parts by mass or more, the overall workability of the plastering mortar is further improved. The blending amount is preferably 800 parts by mass or less from the standpoint of strength development of the plastering mortar.

As water, tap water or the like can be used.
The amount of water is preferably 40 to 125 parts by mass, more preferably 45 to 120 parts by mass, and particularly preferably 50 to 100 parts by mass with respect to 100 parts by mass of the cement composition. When the amount is 40 parts by mass or more, the overall workability of the plastering mortar is further improved. When the amount is 125 parts by mass or less, it is preferable from the standpoint of strength development of the plastering mortar.
In this invention, even if it does not contain a thickener, a water retention agent, AE agent, and a water reducing agent, the effect of this invention can be acquired. However, in this invention, it does not interfere with using 1 or more types chosen from a thickener, a water retention agent, AE agent, and a water reducing agent.

EXAMPLES The present invention will be specifically described below with reference to examples, but the present invention is not limited to these examples.
[Materials used]
The materials used are as shown below.
(1) Ordinary Portland cement clinker pulverized product A (Blaine specific surface area: 3,310 cm ² / g)
(2) Ordinary Portland cement clinker pulverized product B (Blaine specific surface area: 3,280 cm ² / g)
(3) Ordinary Portland cement clinker pulverized product C (Blaine specific surface area: 3,820 cm ² / g)
(4) Limestone powder A (Blaine specific surface area: 6,520 cm ² / g)
(5) Limestone powder B (Blaine specific surface area: 6,630 cm ² / g)
(6) Limestone powder C (Blaine specific surface area: 5,820 cm ² / g)
(7) Limestone powder D (Blaine specific surface area: 4,530 cm ² / g)
(8) Dihydrate gypsum (Blaine specific surface area: 8,250 cm ² / g)
(9) Hemihydrate gypsum (Blaine specific surface area: 8,640 cm ² / g)
(10) Fly ash (Blaine specific surface area: 3,450 cm ² / g)
(11) Silica powder (Blaine specific surface area: 6,580 cm ² / g)
(12) Fine aggregate: No. 5 silica sand (13) Water: Tap water

[Example 1]
The above materials were mixed at a blending ratio shown in Table 1 to prepare a plastering powdery cement composition.
The Blaine specific surface area of the prepared plaster powder cement composition was measured.
Further, the 90% by volume cumulative particle size (D90), 50% by volume cumulative particle size (D50), and the content of particles having a particle size of 31 μm or more of the prepared plaster powder cement composition were measured for particle size distribution. Measurement was performed using an apparatus (manufactured by Nikkiso Co., Ltd., product name “Microtrac HRA Model 9320-X100”).
The results are shown in Table 1.
10 kg of the prepared plaster powder cement composition and 20 kg of silica sand were put into a pan-type mortar mixer (manufactured by Magellar), and kneaded for 1 minute. Next, kneading was carried out for 1 minute while adding 4.0 kg of water (corresponding to about 80% by mass of the total amount of water). After kneading, scrape the kneaded material adhering to the side wall in the mixer and knead for 3 minutes while adding 1.1 kg of water (corresponding to about 20% by mass of the total amount of water) to obtain a plastering mortar. It was.
Each of a calcite plate (calcium silicate plate) having a height of 910 mm and a width of 1820 mm and extending in the vertical direction, and a lightweight mortar wall having the same dimensions and similarly installed The obtained plastering mortar was applied to the surface so that the thickness was about 2 cm, and the following evaluation was performed.

(1) Evaluation of difficulty of dripping of mortar ("sagging" in Table 2) After the mortar was applied to the surface described above, it was allowed to stand at room temperature (about 20 ° C) for 1 hour. After standing, it was evaluated whether the applied plastering mortar did not sag or peeled off.
(2) Evaluation of mortar movement (“movement” in Table 2) When mortar is applied to the above-mentioned surface and the surface of the mortar is smoothed using a trowel, evaluated. In the evaluation of movement, if the mortar around the area to be leveled is difficult to move (is calm), the evaluation is high.
(3) Evaluation of elongation of mortar ("Elongation" in Table 2) When mortar was applied to the above-described surface, it was evaluated whether or not the mortar could be easily stretched with little resistance.
(4) Evaluation of trowel cutting ("cut" in Table 2) When applying mortar to the above-mentioned surface, it was evaluated whether or not the plastering mortar hardly adheres to the trowel when separating the trowel from the coating surface. .
In addition, the said evaluation is performed by the numerical value of 0-5.5, and it is so high that a numerical value is large.
Moreover, the score of each evaluation mentioned above was totaled and the comprehensive evaluation was performed. The higher the total score, the higher the rating.
The results are shown in Table 2.

[Examples 2 to 4, Comparative Examples 1 to 3]
Plastering mortars (Examples 2 to 4 and Comparative Examples 1 to 3) were obtained in the same manner as in Example 1 except that the above materials were mixed at the blending ratios shown in Table 1. These plastering mortars were evaluated in the same manner as in Example 1. The results are shown in Tables 1 and 2.

From Table 2, the mortar (Examples 1 to 4) using the powdery cement composition for plasterer of the present invention has good workability (high evaluation of movement, elongation and breakage), and is applied to the wall surface and the like. It can be seen that there is little sagging after applying (high sagging evaluation).
On the other hand, the mortar using the cement compositions of Comparative Examples 1 to 3 has poor workability evaluation (low evaluation of movement, elongation, and cutting), and sagging occurs after being applied to a wall surface or the like (the evaluation of sagging is Low).

Claims (5)

Clinker pulverized Blaine specific surface area of 2,800~4,200cm ² / g, the Blaine specific surface area is limestone powder and Blaine specific surface area of 5,000~8,000cm ² / g 5,000~10,000cm ² / a plastered powder cement composition comprising g gypsum,
The clinker pulverized product is an ordinary Portland cement clinker pulverized product or an early strong Portland cement clinker pulverized product,
In the cement composition, the content of the clinker pulverized product is 55 to 85% by mass, the content of the limestone powder is 8 to 40% by mass, and the content of the gypsum is 1.5 to 8% by mass. And
The content of the material other than the clinker pulverized material, limestone powder and gypsum in the cement composition is 0 to 5% by mass,
The other material is an inorganic powder not containing fine aggregate and having a brain specific surface area of 3,000 to 12,000 cm ² / g,
The cement composition has a brain specific surface area of 4,500 cm ² / g or less, a 90 volume% cumulative particle diameter of 57 μm or less, and a 50 volume% cumulative particle diameter of 22 μm or less. Powdered cement composition for plasterers.   The powdery cement composition for plasterers according to claim 1, wherein the content of particles having a particle size of 31 µm or more in the cement composition is 32 vol% or less. Wherein the gypsum dihydrate gypsum and hemi gypsum, and the proportion of the total amount of gypsum and hemi gypsum in total amount of the cement composition, according to claim 1 or 1.5 to 8 wt% The powdery cement composition for plasterers according to 2. A plastering mortar comprising the powdery cement composition for plastering according to any one of claims 1 to 3 , a fine aggregate, and water. The plastering mortar according to claim 4 , wherein the plastering mortar does not include a thickener, a water retention agent, an AE agent, and a water reducing agent.