KR100725030B1 - Liquid concrete additive and concrete composition for reinforcing early strength - Google Patents

Abstract

Provided are liquid concrete admixture which improves the early strength without lowering of flowability when used together with industrial wastes including fly ash and blast furnace slag, and a concrete composition comprising the same. The liquid concrete admixture comprises 55-85 wt% of a solvent(water) and 15-45 wt% of water-soluble minerals which is comprised of SO3, K, Na and Si ions in a molar ratio of 10-35:1-10:5-20:2-10, and has a specific gravity of 1.05-1.3, pH of 8-11 and a viscosity of 0.8-2.5 cP. In the liquid concrete admixture, the minerals are obtained by dissolving the materials in a solvent(water), respectively, mixing the resulting solution, and filtrating or precipitating the mixture to remove solid. The concrete composition comprises a binder and the above liquid concrete admixture in an amount of 0.2-3 wt% based on the weight of the binder.

Description

Liquid Concrete Additive and Concrete Composition for Reinforcing early Strength}

The present invention relates to a concrete liquid admixture for increasing the initial strength and a concrete composition comprising the same. More specifically, the initial strength that can compensate for the initial strength degradation when the industrial by-product fly ash and blast furnace slag fine powder is used in concrete It relates to a concrete liquid admixture for strength enhancement and concrete composition for improving the initial strength by mixing thereof.

Currently, the ready-mixed concrete industry uses a variety of industrial by-products fly ash and blast furnace slag. Fly ash is an artificial pozzolanic material, which itself does not cure with water, but has a property of curing by reacting with calcium hydroxide, which is a kind of cement hydrate, in an alkaline atmosphere generated during cement hydration. In addition, the blast furnace slag powder is a latent hydraulic material, which itself has no property of curing with water, but has a property of curing by reacting in an alkaline atmosphere generated during cement hydration.

Both fly ash and blast furnace slag powder have been reported to improve the long-term strength of concrete and to improve some durability, and to be used as cement substitute for most concrete in terms of cost reduction of concrete and effective utilization of industrial by-products. have.

However, such fly ash or blast furnace slag powder material has a slow reaction time compared with cement, and thus is limited to active use due to the problem of lowering the initial strength of concrete, which is already accepted as a general phenomenon in the industry. In addition, concrete, which is one of the main materials of construction work, is closely related to the construction period because it limits the formwork removal and subsequent process in relation to curing time and securing a certain initial strength.

In general, formwork is removed and subsequent processes are carried out about three days after the concrete is poured. Due to the nature of concrete, the form removal time tends to be further delayed in winter low-temperature environments, which leads to construction delays and thus cost of construction companies. It will have a huge impact on management. In addition, the construction period of the construction will lead to the competitiveness of the construction company, so that the formwork of concrete is removed at an early time for the purpose of shortening the construction period, thus adversely affecting the safety of the construction work and the safety of the construction structure itself in the future. There are also examples of giving.

For this reason, Remicon hopes to increase the use of fly ash or blast furnace slag powder for cost reduction, and the construction company wants to increase the early strength of concrete for shortening the construction period and safe construction. It can be a source of dispute. In order to solve these problems, various measures have been proposed so far, but there are some effects or it is difficult to confirm the effects, and in some cases, economic logic is not worth hiring.

On the other hand, in the field of concrete secondary products, which are different from general construction and curing conditions, curing of concrete products is used to improve concrete quality through autoclave or high temperature steam curing. In the case of such curing conditions, There is a situation in which a method for reducing the initial strength of ash or blast furnace slag fine powder can be improved relatively easily. However, this method is possible only in the secondary concrete manufacturing plant and cannot be adopted in the concrete casting for concrete casting, so it is difficult to be accepted as a general solution to the aforementioned problem of early strength degradation throughout the concrete industry.

Therefore, there is a technical request for the development of concrete that does not fall in initial strength while using fly ash and blast furnace slag powder, which are industrial by-products, especially for concrete compositions such as in situ concrete.

Therefore, the present invention has been made to solve the above problems, an object of the present invention is to recycle the industrial by-products such as fly ash and blast furnace slag in concrete and to compensate for the initial strength degradation caused by the resulting fly ash and blast furnace It is to provide a liquid admixture for concrete that can improve the initial strength performance of concrete as well as reduce the cost of concrete by increasing the amount of mixed concrete of fine slag powder.

In another aspect, the present invention is to provide a concrete liquid admixture for improving the initial strength to improve the problem that the powder-type admixture has a lot of inconveniences in weighing and input when preparing the ready-mixed concrete.

The present invention relates to a concrete liquid admixture for initial strength enhancement. Concrete liquid admixture for initial strength enhancement according to the present invention is 55 ~ 85% by weight solvent (water) and SO ₃ , K, Na, and Si ions in a molar ratio of 10 ~ 35: 1 ~ 10: 5 ~ 20: 2 ~ 10 It consists of 15 to 45% by weight of the inorganic substance dissolved in water. The concrete liquid admixture for initial strength enhancement thus prepared has a specific gravity of 1.05 to 1.3, a pH of 8 to 11, and a viscosity of 0.8 to 2.5 cP.

In addition, the present invention relates to a concrete composition for increasing the initial strength prepared by including the concrete admixture. Concrete composition of the present invention is prepared by including the concrete admixture 0.2 to 3% compared to the binder based on the weight. Here, the binder of the concrete may include 1 to 70% of the industrial by-product selected from the group consisting of fly ash, blast furnace slag powder, and limestone powder in addition to cement based on the total binder weight.

In general, accelerators for promoting the initial strength of concrete have been used in combination with other materials to compensate for these properties because most of them have the property of reducing the flowability of concrete. Meanwhile, Korean Patent Application No. 2005-0114473, which is filed by the present applicant and is not yet disclosed, refers to an initial strength enhancing concrete admixture and concrete composition (hereinafter referred to as “prior patent application”) of CaSO ₄ 25 to 85% by weight. Initial strength-enhancing concrete, characterized in that the SO ₃ , K, Na, and Si ions contain 15 to 75% by weight of inorganic material consisting of 5 to 20: 1 to 10: 5 to 20: 2 to 10 in a molar ratio. Claims admixture.

CaSO ₄ used in the concrete admixture for improving the initial strength of the preceding patent application promotes the initial hydration of the cement according to the type and the proper mixing ratio, and also secures the fluidity of the concrete up to a certain time (slump loss prevention function). Have Due to these properties, CaSO ₄ can not only compensate for the disadvantages of the general cement promoter mentioned above, but also allows the admixtures of the prior patent application to ensure that the concrete composition is evenly mixed in the mixer when preparing in concrete. It can act as a filler. In addition, CaSO ₄ stimulates the reaction of fly ash and blast furnace slag fine powder by Ca and SO ₃ ions, and also reacts with C ₃ A of cement to hydrate the ettringite (3CaOAl ₂ O ₃ · 3CaSO ₄ · 32H ₂ O) It promotes the formation of concrete, thereby promoting the early strength of concrete. However, the powder-type admixture of the prior patent application requires additional inter- or metering devices because the additional mixing of the ready-mixed concrete material in addition to the conventional ready-mixed concrete material. However, since the input amount is small, the precision of the weighing device is required, the investment of excessive additional equipment is required, and the homogeneous mixing is difficult.

Since all ready-mixed concrete manufacturing facilities have the input equipment for liquid raw materials for the use of water reducing agent, fluidizing agent, AE agent, etc., in the conventional ready-mixed concrete preparation, liquid admixture is more advantageous than powder type admixture in terms of weighing and input of raw materials. In addition, in the case of the liquid admixture, it is relatively easy to add additional equipment, and it can be mixed with existing water reducing agents, fluidizing agents, and AE agents, and thus can be applied to the manufacturing site without supplementing the additional equipment. The present inventors focus on the advantages of such a liquid admixture while liquefying it while maintaining the performance of the conventional powdery coarse to facilitate the application to the ready-mixed concrete industry.

Although the gypsum source was used in the powder admixture of the prior patent application, the present invention excludes the gypsum source, which is difficult to dissolve in water, in order to prepare a liquid type forcing agent, and is well dissolved in a solvent (mixed water), and its performance after dissolution Use raw materials to maintain

These inorganics dissolved in water include SO ₃ , K, Na, Si ions. As described for the above gypsum, SO ₃ ions promote the generation of cement hydrate to promote the initial strength, in the present invention, instead of using gypsum powder, gypsum powder of the powdered admixture of the prior patent application The amount of SO ₃ ions can be used more to replace the role of. In addition, the SO ₃ , K, Na, and Si ions, as is known so far, provide an alkaline atmosphere in the cement hydration process to promote the initial hydration of cement, and to increase the initial reactivity of the fly ash and blast furnace slag fine powder. It has been shown to be effective. Therefore, in the present invention, the optimum combination ratio of SO ₃ , K, Na, and Si ions was optimized, and prepared by examining solubility and reactivity in concrete. To obtain the composition ratio of these ions, each raw material was prepared by dissolving in a solvent. At this time, even if each raw material is dissolved in a solvent, solids that are not dissolved until the end and remain as impurities may be deteriorated in the long-term storage, thereby increasing the purity of the final product by filtration or precipitation to remove such impurities in the manufacturing process. The mixing ratio of the inorganic material composed of SO ₃ , K, Na, and Si ions in a molar ratio of 10 to 35: 1 to 10: 5 to 20: 2 to 10 can be specifically determined in consideration of initial strength enhancement and other performances. .

Example

In order to confirm the effect of the invention was carried out concrete experiments as follows. The concrete experiment was based on the concrete mix used by the general ready-mixed concrete company, and its composition is as follows.

division Binder Coarse aggregate Fine aggregate Naphthalene Water-Resistant Mixed water Material amount (kg / m3) 322 853 874 1.61 170

In the experiment, Portland cement, blast furnace slag powder, and fly ash, which are used in the domestic ready-mixed concrete, were used as binders. The properties of the binder used in the experiment are as follows.

Using the composition of the concrete composition and the binder, the composition ratio of the binder and the liquid admixture composition ratio of the present invention to the binder was configured as shown in the following table to make a concrete composition and then cast it to form a concrete and tested its compressive strength. .

Here, the composition of the binder is divided into A ~ F and displayed, and the results of using the concrete liquid admixture for increasing the initial strength of 0.5% type and 1.0% type for each binder composition is shown as an example. In addition, the composition of 0.5% type and 1.0% type concrete strength admixture for initial strength enhancement was constructed as follows.

In the present embodiments, as a result of dividing experiments by the composition ratio of the binder to the A ~ F series, the embodiment using the 0.5% type and 1.0% type of concrete strength admixture for the initial strength enhancement uses the initial strength-enhanced concrete liquid admixture Compared with the comparative example, the compressive strength of 3 days of age was 13 to 26%, the compressive strength of 7 days of age was 5 to 17%, and the compressive strength of 28 days of 2 to 13%. On the other hand, despite the increase in the compressive strength, as shown in the results of Table 3, almost no change in the slump and the amount of air.

In addition, the results of Table 3 shows that the concrete admixture according to the present embodiment sufficiently improves the initial strength of the concrete produced therefrom even though 40% by weight of the industrial by-products such as fly ash and blast furnace slag powder are used in the binder. From the results, even if the ratio of the fly ash and blast furnace slag binder in the concrete composition of the present invention is at least 50% by weight, it can be appreciated that the object of the present invention can be sufficiently achieved, even in some cases even higher ratio The object of the present invention may be achieved.

Therefore, the concrete liquid admixture of the present invention can improve the initial strength without reducing the fluidity of the concrete composition, and as a result, it is possible to utilize the industrial by-product fly ash and blast furnace slag powder as a binder for concrete. . Therefore, in addition to improving the initial strength of concrete, the present invention also provides the advantages of resource recycling, along with the advantages of shortening the construction period and cost reduction. In addition, the concrete liquid admixture for increasing the initial strength of the present invention provides an advantage of improving the problem that the powder-type admixture has a lot of inconvenience in the metering and input during the production of ready-mixed concrete.

Claims (5)

15 to 45 weight of inorganic material dissolved in water composed of 55 to 85% by weight of solvent (water) and SO3, K, Na, and Si ions in molar ratio of 10 to 35: 1 to 10: 5 to 20: 2 to 10 Initial strength-enhanced concrete liquid admixture, consisting of%, specific gravity of 1.05 to 1.3, pH of 8 to 11, and viscosity of 0.8 to 2.5 cP. The method of claim 1, The inorganic material is an initial strength-enhancing concrete liquid admixture, characterized in that to dissolve each raw material source in a solvent (water) and to mix and filter or precipitate it to remove the solid content. 15 to 45 inorganic substances dissolved in water composed of 55 to 85% by weight of solvent (water) and SO ₃ , K, Na, and Si ions in a molar ratio of 10 to 35: 1 to 10: 5 to 20: 2 to 10 The concrete liquid admixture consisting of a weight percent of the concrete composition for initial strength enhancement, characterized in that it is prepared, including 0.2 to 3% of the binder based on the weight. The method of claim 3, The binder of the concrete further comprises at least one of fly ash and blast furnace slag powder, limestone powder in addition to cement concrete composition for initial strength enhancement. The method of claim 3, The binder of the concrete is concrete based on initial strength, characterized in that it comprises at least one industrial by-product selected from the group consisting of fly ash, blast furnace slag powder, limestone powder in addition to cement based on the total binder weight Composition.