JPH07157347A - Cement composition, production and hardened body thereof - Google Patents

Abstract

PURPOSE:To produce a cement compsn. excellent in stability of quality and obtain a hardened body of the cement compsn. CONSTITUTION:An admixture is added to cement clinker and they are pulverized to produce the objective cement compsn. contg. fine particles obtd. by pulverizing the cement clinker and the admixture stuck to the fine particles. The cement compsn. is hydrated with water and hardened to obtain the objective hardened body. At least one of sand and gravel may be incorporated into the hardened body. Since the admixture is uniformly dispersed in cement at the time of pulverizing the cement clinker, the quality of the cement compsn. can be stabilized.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cement composition capable of stabilizing the quality of cement products, a method for producing the same, and a cured product thereof.

[0002]

2. Description of the Related Art In recent years, various admixtures have been used in almost all fields of concrete for the purpose of improving the workability of concrete and physical properties after hardening. This admixture is added for the purpose of improving various physical properties of concrete and adding new functions.The amount of its admixture is small, and although it can be ignored in the calculation of concrete composition, it has a large effect on the properties of concrete. Influence.

[0003] Such admixtures include water reducing agents, AE water reducing agents, and high-performance A which improve the dispersibility of cement particles in kneading water.
E Water-reducing agent, fluidizing agent, accelerator and retarder for adjusting the curing rate, AE agent for adjusting the amount of air, defoaming agent, and thickener for increasing the resistance to material separation of fresh concrete. , Their types and uses are diverse.

These admixtures are added as important components not only to concrete but also to many products based on cement-based materials and various mixed materials such as sand. Such products include self-leveling materials, grout materials, and various injection materials.

These products are required to satisfy not only the required functions but also the quality stability. In order to obtain a product with excellent quality stability, it is essential that each material be mixed uniformly during manufacturing, but the amount of admixture used in cement is
Generally, it is extremely small, 0.1 to 3.0% by weight with respect to cement, and sufficient care must be taken when mixing these.

[0006]

When mixing these cements with an admixture, the admixture is added to the cement obtained by adding a necessary amount of gypsum to the cement clinker and crushing. , These were mixed with the existing mixer. However, since the amount of the admixture is very small with respect to the amount of cement, it is difficult to uniformly disperse the small amount of admixture in a large amount of cement fine particles. It is often difficult to maintain a constant content of trace components in a product.

[0007] The present invention effectively solves the above-mentioned problems, and when manufacturing the above-mentioned various products, by uniformly dispersing the admixture in these products, the stability of the product quality is dramatically improved. An object of the present invention is to provide an improved cement composition, a method for producing the same, and a cured product thereof.

[0008]

[Means for Solving the Problems] When the cement used in a product is manufactured, the present inventors add an admixture to the cement clinker at the final step of crushing the cement clinker to mix the cement with the individual cement particles. The present invention has been accomplished by finding that a cement to which an agent is evenly adhered is obtained, and that a product produced using such a cement has extremely excellent quality stability.

The cement composition according to claim 1 comprises fine particles obtained by crushing cement clinker and an admixture adhering to the fine particles. In the method for producing the cement composition according to the second aspect, when the cement clinker is pulverized, an admixture is added to the clinker and the clinker is pulverized. The hardened body of the cement composition according to claim 3 is obtained by hydrating and hardening the cement composition according to claim 1. The hardened body of the cement composition according to claim 4 is obtained by including at least one kind of sand and gravel in the hardened body of the cement composition according to claim 3.

[0010]

In the present invention, when the cement clinker is crushed, the admixture is added to the cement clinker for pulverization. Therefore, as the cement clinker is pulverized, the admixture adheres to the fine particles of the cement clinker, This admixture is evenly dispersed in the cement. Further, in the hardened product of the cement composition of the present invention, since the cement composition is hydrated and hardened with water, the admixture is uniformly dispersed in the hardened product, and the quality of the hardened product becomes constant.

The cement composition of the present invention, the method for producing the same, and the cured product thereof will be described below. This cement composition contains fine particles obtained by crushing cement clinker, and an admixture attached to the fine particles. In addition, in the method for producing a cement composition, when the cement clinker is pulverized, an admixture is added to the clinker and the clinker is pulverized. Further, the hardened body of the cement composition is obtained by hydrating and hardening the cement composition with water. The hardened body of this cement composition may contain at least one kind of sand and gravel.

The cement composition is obtained by crushing cement clinker into fine particles and adhering an admixture to the fine particles. As the cement clinker, clinker used for various kinds of cement such as ordinary Portland cement, early-strength cement, low-heat cement, blast furnace cement, and alumina cement may be used. Examples of the admixture include the water reducing agent, the fluidizing agent, the accelerator, the retarder, the AE agent, the defoaming agent, and the thickener described above. For example, as a water reducing agent,
It is known that the main component is a formalin condensate of melamine sulfonate, and sodium citrate is known as a retarder. Further, the compound as the main component in the admixture may be directly used as the admixture.

In the method for producing a cement composition, when a cement clinker obtained by firing in a rotary kiln or the like is pulverized, an admixture is added to this to pulverize.
In this cement clinker crushing process, ball mill,
Using various crushers such as a vibration mill, cement clinker is put into the crusher, an admixture is added to the cement clinker, and the cement clinker is crushed into fine particles. At this time, the admixture is attached to the fine particles of the cement clinker,
A cement composition is obtained. Further, when the cement clinker is ground, the admixture and the required amount of gypsum may be added at the same time.

The hardened body of the cement composition comprises fine particles obtained by crushing cement clinker, an admixture adhering to the fine particles, gypsum mixed therewith, and hydration thereof.
It has water for hardening and sand and gravel mixed with these. It is preferable to appropriately select and use these sands and gravel based on the required product.

[0015]

Next, an embodiment of the present invention will be described. First,
Cement clinker, which is an ordinary raw material for Portland cement, an admixture, and gypsum are packed in a crusher such as a ball mill. The admixture is added at 1.0% by weight with respect to the cement clinker. As the admixture, a water reducing agent containing a formalin condensate of melamine sulfonate as a main component is used.

Next, the cement clinker is crushed into fine particles and crushed until the Blaine value of the cement reaches 3200 cm ² / g. At this time, the admixture and gypsum are attached to the fine particles of the cement clinker, and these are uniformly mixed to produce a cement composition.

The cement composition thus obtained is evaluated. The cement composition is evaluated by mixing the cement composition with water and sand to form a mortar, and examining the fluidity of the mortar. Here, the trial mortar had a water / cement ratio of 0.3, a sand / cement ratio of 1.2, and was measured in accordance with JIS R 5201 for 25 trial mortar samples prepared by kneading for 3 minutes. Evaluate by the flow value. The results are shown in Table 1.

[0018]

[Table 1]

(Comparative Example) As a comparative product, a commercially available Portland cement pulverized to the same Blaine value as in the above Example was put in a rotary rocking type mixer and a V type mixer, respectively.
The same amount of water reducing agent as in the above-mentioned example is injected into these. Further, various mixing materials such as water and sand are mixed into each mixer to prepare a mortar. Each mortar flow value is measured for 25 samples in each mixer and the quality stability is compared from the standard deviation.

As is clear from the results shown in Table 1, when the water reducing agent was added at the time of crushing the cement clinker, the standard deviation was smaller than that when the water reducing agent was mixed in the previously crushed cement with a mixer. Quality stability is improved.

In this way, when the cement clinker is crushed, the water reducing agent is added and mixed, so that the water reducing agent is evenly attached / dispersed on the fine particles of the cement clinker as the cement clinker is crushed. be able to. Therefore, even when a small amount of the water reducing agent is mixed with the cement clinker, a cement composition in which the water reducing agent is uniformly dispersed can be obtained. Therefore, even if the cement composition obtained by hydrating and hardening this cement composition and further hydrating and hardening by mixing sand and gravel with this, has a certain quality. , Can stabilize the quality.

[0022]

As described above, according to the present invention,
When the cement clinker is crushed, the admixture is added to the cement clinker for crushing.Therefore, as the cement clinker is crushed, the admixture is attached to the fine particles of the cement clinker, and the admixture is evenly distributed on the fine particles of the cement clinker. In addition to being able to disperse, it is possible to eliminate the work of adding an admixture to the cement and dispersing. Therefore, it is possible to obtain a cement composition having a constant quality and stable quality.

Further, since the hardened body of the cement composition is the hardened body of the cement composition, it is possible to reduce the variation in the quality of the product in the production of the hardened body of the cement composition. The quality of the cured product can be stabilized.

Continuation of front page (51) Int.Cl. ⁶ Identification code Office reference number FI technical display area C04B 28:16 14:02) Z 103: 30

Claims (4)

[Claims] 1. A cement composition comprising fine particles obtained by crushing a cement clinker and an admixture attached to the fine particles. 2. When crushing cement clinker,
A method for producing a cement composition, which comprises adding an admixture to the mixture and pulverizing the mixture. 3. A hardened body of a cement composition obtained by hydrating and hardening the cement composition according to claim 1. 4. A hardened body of the cement composition according to claim 3, comprising at least one kind of sand and gravel.