KR101291707B1 - Composition for manufacturing concrete pile - Google Patents

Abstract

The present invention relates to a composition for manufacturing a concrete pile, which is made by mixing water, cement, a mixture, sand, gravel and a fluidizing agent, wherein the fluidizing agent is a polycarbon-based fluidizing agent, and 3 days from the production of the concrete pile with the composition. In order to produce a concrete pile exhibiting a compressive strength satisfying 800kg / ㎠ after the elapsed, 114.75 ~ 155.25kg / m ^{3 of} water, cement 418.8 ~ 561.2 kg / m ³ per 1 m ^{3 of the} composition, 37.4 ~ 50.6kg / m mixture ³ , sand 635 ~ 860kg / m ³ , gravel 1,002 ~ 1,356kg / m ³ and the fluidizing agent is characterized by consisting of 6.83 ~ 9.07kg / m ³ .
According to the present invention, by using a relatively small bind using a polycarbon fluidizing agent as a fluidizing agent of the composition for producing concrete piles, less sludge of fine powder components is generated inside the concrete piles by centrifugal molding, thereby making the concrete pile stable. Can produce In addition, the polycarbon fluidizing agent can improve the workability by the dispersion action of the cement particles and improve the quality such as water tightness and durability. In addition, it is possible to reduce manufacturing costs by combining a relatively small amount of bind and a relatively large amount of sand and gravel.

Description

COMPOSITION FOR MANUFACTURING CONCRETE PILE}

The present invention relates to a concrete pile, and in particular, it can not only stably produce a concrete pile, but also improves workability by dispersing the cement particles, improves the quality of watertightness and durability, etc. It is about.

In general, concrete piles are prepared using a composition in which water, cement, admixture, sand, gravel and a glidant are suitably blended.

Conventionally, polynaphthalene sulfonate (PNS) -based high performance fluidizing agents have been used as the fluidizing agents. And, in order to produce a concrete pile exhibiting a compressive strength satisfying 800kg / ㎠ with the composition, per 1m ^{3 of the} composition, water 140kg / m ³ , Portland cement 507 kg / m ³ , mixed material 51 kg / m ³ , sand 716 kg / m ³ , 1164 kg / m ³ gravel and 9.49 kg / m ³ fluidizing agent were used in combination. Thus, W / B, water / bind, was 25.1, and S / A, water / (sand + gravel), was 38.0. For reference, the bind is a value obtained by adding the cement and the mixture.

However, when the composition is used, the powder of cement and the mixed material, that is, the binder is relatively mixed, so that the sludge of the fine powder component is generated inside the concrete pile by centrifugal molding, so that the concrete pile cannot be stably produced. There was this.

On the other hand, as a conventional patent technology, a mixture composition for high strength cement is proposed, comprising 70 to 90 weight of type II anhydrous gypsum powder, 1 to 10 weight of Arwin-based clinker, and 5 to 20 weight of separated paper ash. See Patent Document 1).

Patent Document 1: Domestic Patent Registration No. 10-0306227

Accordingly, the present invention is to solve the problems as described above, the binding is relatively small, when the production of concrete piles by centrifugal molding less sludge of the fine powder is generated inside the concrete pile can be stably produced as well as cement The purpose of the present invention is to provide a composition for producing concrete piles that can improve workability, improve watertightness and durability, and reduce manufacturing cost by dispersing particles.

In order to achieve the above object, the composition for producing a concrete pile according to the present invention comprises water, cement, a mixture, sand, gravel, and a fluidizing agent, wherein the fluidizing agent is a polycarbon fluidizing agent, and the composition In order to produce a concrete pile exhibiting a compressive strength satisfying 800kg / ㎠ after three days from the production of concrete pile, per 1 m ^{3 of} composition, water 114.75 ~ 155.25kg / m ³ , cement 418.8 ~ 561.2kg / m ³ , The mixture is characterized by consisting of 37.4 ~ 50.6kg / m ³ , sand 635 ~ 860kg / m ³ , gravel 1,002 ~ 1,356kg / m ³ and the fluidizing agent 6.83 ~ 9.07kg / m ³ .

delete

According to the present invention, by using a relatively small bind using a polycarbon fluidizing agent as a fluidizing agent of the composition for producing concrete piles, less sludge of fine powder components is generated inside the concrete piles by centrifugal molding, thereby making the concrete pile stable. Can produce

In addition, the polycarbon fluidizing agent can improve the workability by the dispersion action of the cement particles and improve the quality such as water tightness and durability. In addition, it is possible to reduce manufacturing costs by combining a relatively small amount of bind and a relatively large amount of sand and gravel.

The composition for producing concrete piles according to the present invention has a relatively small amount of bind, so that less sludge of fine powder is generated inside the concrete piles by centrifugal molding, thereby producing stable concrete piles. It is designed to improve workability, increase watertightness and durability, and reduce manufacturing cost.

Specifically, the composition for producing a concrete pile according to the present invention, instead of using a conventional polynaphthalene sulfonate (PNS) -based fluidizing agent, the core is to use a poly-carbon (PC) -based fluidizing agent.

When the polycarbon fluidizing agent is used, the binding is relatively less mixed due to the dispersing action of the cement particles, which can drastically reduce the amount of sludge generated. As a result, the concrete pile can be produced more stably. In addition, when the polycarbon fluidizing agent is used, higher water-resistance is obtained than the naphthalene sulfonate (PNS) -based fluidizing agent, and workability is improved even at low slump, and watertightness and durability can be increased.

In particular, in the present invention, in order to produce a concrete pile exhibiting a compressive strength that satisfies 800 kg / ㎠, 114.75 ~ 155.25 kg / m ^{3 of} water, cement 418.8 ~ 561.2 kg / m ³ , mixed material 37.4 per 1 m ^{3 of the} composition ~ 50.6kg / m ³ , sand 635 ~ 860kg / m ³ , gravel 1,002 ~ 1,356kg / m ^3, and glidant 6.83 ~ 9.07kg / m ³ .

Hereinafter, the present invention will be described in more detail with reference to Examples.

After mixing water, cement, admixture, sand, gravel and fluidizing agent in the ratio as shown in Table 1, the experiment was conducted several times (100 times) on the compressive strength to obtain the following results.

division
W / B
S / A Material amount (kg / m ³ ) Compressive strength
(kg / cm2) water
(W) cement
(OPC) Mixed material sand
(S) Pebble
(G) Fluidizing agent
(AD) 1 day 3 days 7 days DS-300M
(PC blend) 21.29-28.91 32.98-44.62 114.75-155.25 418.8 ~ 561.2 37.4-50.6 635-860 1,002-1,356 6.83-9.07 750-850 800-900 850-950

* Compressive strength: average of 100 experiments

As a result, in the concrete pile having a compressive strength that satisfies 800 kg / cm 2, when the polycarbon fluidizing agent of the present invention is applied, the bind is relatively less than when applying the conventional polycarbon fluidizing agent. Compounding, sand, gravel was found to be relatively more compounded. Therefore, W / B, that is, water / bind was 21.29 to 28.91, and S / A, that is, water / (sand + gravel) was 32.98 to 44.62.

As such, when the polycarbon fluidizing agent is used as the fluidizing agent of the composition for producing concrete piles, since the binding can be used relatively little, when the concrete pile is produced by centrifugal molding, less sludge of fine powder components is generated. It will be able to produce more stable.

In addition, it is possible to improve the workability by the dispersion action of the cement particles by the polycarbon-based fluidizing agent and to improve the quality such as water tightness and durability.

In addition, the bind is relatively low and the sand and gravel are relatively high so that the manufacturing cost can be reduced.

For reference, in a number of comparative experiments, blending less fluidizing agent than 6.83kg / m ³ could lower the manufacturing cost, but the compressive strength could not satisfy 800kg / ㎠ and the fluidizing agent was 9.07kg / When blending more than m ³ , the compressive strength has excellent characteristics of more than 800kg / ㎠ but there was a problem that the manufacturing cost is relatively increased.

On the other hand, although the composition for producing a concrete pile according to the present invention has been described according to a limited embodiment, the scope of the present invention is not limited to a specific embodiment, within the scope obvious to those skilled in the art with respect to the present invention. Many alternatives, modifications and variations can be made.

Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (2)

delete As a composition used to prepare concrete piles,
By mixing water, cement, mixture, sand, gravel and glidant,
The fluidizing agent is a polycarbon fluidizing agent,
In order to produce a concrete pile exhibiting a compressive strength that satisfies 800 kg / ㎠ after three days from the concrete pile production with the composition, per 1 m ^{3 of} composition, water 114.75 ~ 155.25 kg / m ³ , cement 418.8 ~ 561.2 kg / m ³ , mixed material 37.4 ~ 50.6kg / m ³ , sand 635 ~ 860kg / m ³ , gravel 1,002 ~ 1,356kg / m ³ and the fluidizing agent 6.83 ~ 9.07kg / m ^{3 The} composition for producing a concrete pile .