KR100329178B1 - composition for preventing slump loss - Google Patents

Abstract

The present invention relates to a novel slump prophylactic agent that prevents slump prosperity when added to concrete, specifically, processing a compound having a structure of the general formula (I) below to a fine particle of the average particle diameter range of 0.01㎛ 500㎛ The ends of the processed fine particles were again converted into Ca (OH) ₂ Al (OH) ₃ , CaCl ₂ , AlCl ₃ , FeSO ₄ , MgSO ₄ , ZnSO ₄ , CuCl ₂ , ZnO, Zn (OH) ₂ , NiSO ₄ , CaNO ₃ , A slump antiseptic prepared by reacting with one or more metal compounds of NaNO ₃ , having a structure of the general formula (II) and a slump antiseptic prepared by reacting the compound (I) with a metal ion at a constant temperature, the above 2 A slump anti-slump produced by mixing the anti-slump anti-slumps in the range of 1% to 99%, and at least one of water-soluble polymers such as polyvinyl alcohol, polyethylene glycol, oligosaccharide, and starch sugar. The present invention relates to an anti-slumping agent produced by mixing in the range of 1 to 99%.

Here, R1-R5 are hydrogen or a methyl group, M1 and M2 are metal ions, n is an integer of 10-200.

Description

Composition for preventing slump loss

Concrete is basically composed of cement, sand, gravel and water. In order to improve the functionality and durability of concrete, chemical admixtures for concrete are added to meet the purpose of the construction such as buildings and bridges.In recent years, the strength of concrete has increased due to the increase in the height of buildings and the size of constructions. Higher strength is required, which makes it necessary to use a concrete chemical admixture, that is, a high performance water reducing agent, having high fluidity improving ability and high water resistance. Representative of such a high performance water-reducing agent is NSF type (naphthalene sulfonic acid formaldehyde condensate), MSF type (melamine sulfonic acid formaldehyde condensate), LS type (lignin sulfonate), modified LS type (modified lignin sulfonate), amino There is a sulfonate-based, such a high performance reducing agent has the advantage of being able to manufacture high strength concrete with high sensitivity, but also has a problem that the slump of the slump over time.

At present, concrete pouring in Korea is required to slump more than 15cm when using pump car. This ensures the proper workability of concrete at the construction site, resulting in the phenomenon of headboard and lack of filling due to low slump concrete, separation of concrete due to excessive compaction, and the seam part caused by the slumping of concrete. In order to prevent various problems that may occur during construction such as joints), it is a regulation to remove the cause of bad construction in advance.

However, even if the slump was shipped at 20cm in the ready-mix concrete factory, slump prosperity occurred due to various causes such as transportation time and distance of basic ready-mixed concrete, increase of transport time due to traffic jam, and waiting time at pour site, resulting in poor constructionability and cold joint. There have been many problems such as deterioration in durability due to occurrence, increase in pump pressure, and blockage of the pressure pipe.

In order to solve these problems, developed countries have already developed high-performance AE (Air Entering) supervisors and manufactured and shipped ready-mixed concrete concrete with low slump prosperity from their factories. Although it sells, its price is too high and there are many economic problems to apply to domestic market.

Over and in a manner commonly used in most of the domestic ready-mix concrete plants to slump to solve Los problems, such as the ⅰ) concrete unit volume (admixture for by shipment or, ⅱ) increase in concrete the amount of water) into the 1m ³ (glidants ) Or post-treatment at the site or iii) using admixture with added coagulant retardant. The first method is to increase the number of units in consideration of the slump pros before manufacturing the ready-mixed concrete, and to release the slump higher than the specified level and adjust it to the specified slump when the site arrives.In this case, the material separation and the compressive strength Durability deteriorates due to deterioration, dry shrinkage and cracking, and slump prosperity is estimated by experience, so slump prosperity due to traffic congestion and waiting time cannot be prevented and cement is added to compensate for strength. If so, manufacturing costs will rise. The second method is to add a certain amount of fluidizing agent to the ready-mixed concrete car that arrives at the site, and the slump value of the concrete is not constant due to the difference of the base concrete, and it is inconvenient to hire a separate person at the site. Due to the noise generated during mixing and the wear of ready-mixed trucks due to high speed rotation, the ready-mixed concrete trucks are reluctant to mix enough and do not mix properly, resulting in problems such as unevenness and insufficient filling of concrete products. There are many difficulties. The third method is to use a delayed admixture or a domestic high performance AE reducing agent. The domestic high performance AE reducing agent currently marketed in Korea is used as a raw material of cement coagulation delay agent such as sodium gluconate or molasses to prevent slumping. The saccharide is used by adding a considerable amount to the admixture for concrete, but the use of such monosaccharides alone is very ineffective in preventing the slump of concrete. In addition, due to the excessive mixing of the retardant is causing the side effects such as the condensation delay and poor curing of the concrete, the improvement measures are urgently needed.

An object of the present invention is to provide a slump anti-slip agent that can solve the existing problems as described above, to improve the workability of concrete, shorten the air of the concrete work, allowing the ready-mixed concrete manufacturers to adjust the slump as desired In order to reduce the manufacturing cost of ready-mixed concrete by reducing the slump deviation between each ready-mixed concrete vehicle, preventing the occurrence of joints and deterioration of the construction, and preventing the ready-mixed unit quantity and unit cement amount to prevent slump prosperity, the raw material unit can be reduced. In addition, it is also to prevent dry shrinkage and cracking by preventing unit quantity surcharge and water content, and to ensure planned workability with a uniform slump, thereby preventing stale construction work.

To this end, the anti-slumped prophylactic agent of the present invention is processed into a compound having a structure of the following general formula (I) into fine particles having an average particle diameter of 0.01 μm to 500 μm and the ends of the processed fine particles are again converted into Ca (OH) ₂ Al (OH). Prepared by reacting with one or more metal compounds of ₃ , CaCl ₂ , AlCl ₃ , FeSO ₄ , MgSO ₄ , ZnSO ₄ , CuCl ₂ , ZnO, Zn (OH) ₂ , NiSO ₄ , CaNO ₃ , NaNO ₃ , or By reacting (I) with metal ions at a constant temperature, it is prepared as a compound having the structure of the following general formula (II), or is prepared by mixing the following compounds (I) and (II) in the range of 1 to 99%, respectively, or The mixture is prepared by mixing at least one of polyvinyl alcohol, polyethylene glycol, oligosaccharide, and starch sugar, which are water-soluble polymers, in the range of 1 to 99%.

The inventors have studied a method of maintaining a slump of concrete for a long time, and copolymerization of a hydrocarbon monomer having 2 to 5 carbon atoms represented by the following general formula (A) with a carbohydrate monomer represented by the following general formula (B) When the carboxyl group of copolymer (I) having a weight copolymerization degree (number of n) in the range of 10 to 200 is reacted with metal ions at a predetermined temperature, it is changed to water-soluble substance (II), and when a certain amount is added to concrete, the slump It has been found to be effective as an anti-losing agent.

Here, R1-R5 are hydrogen or a methyl group, M1 and M2 are metal ions, n is an integer of 10-200.

This is because the carboxyl group substituted with metal ions is a structural feature in concrete than the sulfonic acid-based dispersants such as NSF, LS, and MSF, which are conventionally used, and can maintain performance as a dispersant for a long time. It is estimated that slump loss is prevented by exhibiting the performance. Therefore, further study of this part showed that the effect was maximized when only a certain amount of the carboxyl group was substituted with metal ions, but several experiments showed that the substitution of metal ions alone did not provide sufficient slump protection effect in some high strength formulations. Failure occurred. Due to the high-strength blending properties, the amount of unit cement and the number of units decrease, which increases the absolute amount of etring guides generated during the hydration of cement, and also increases the physical cohesion due to the decrease of unit volume. The negative charges of the dispersant, which had been adsorbed onto the particles and dispersed the cement particles, rapidly disappeared, presumably because of their poor dispersibility. Accordingly, further studies on this part resulted in processing the copolymer (I) to a certain particle size, and the ends of the processed copolymer were again converted into the metal compounds Ca (OH) ₂ Al (OH) ₃ , CaCl ₂ , AlCl ₃ , FeSO ₄ , MgSO ₄ , ZnSO ₄ , CuCl ₂ , ZnO, Zn (OH) ₂ , NiSO ₄ , CaNO ₃ , NaNO ₃ and connected with one or more metal compounds, it is water-soluble (II) and 1 It was found that when the substitution within the range of ~ 99% increased the slump prohibition effect, if it is substituted again in the range of 1 to 99% substitution rate in the water-soluble polymers such as polyvinyl alcohol, polyethylene glycol, oligosaccharide, starch sugar again slump It has been found that the loss prevention effect is improved. In the case of the anti-slumping agent of the present invention, respectively, or even in high-strength formulation at the time of mixing, a good result was obtained, which would prevent the slumping of concrete if the amount of the negative charge of the dispersant disappearing in the hydration reaction was replenished somewhere. At this point, the copolymer (I), which is a raw material of the water-soluble substance (II), is processed into fine particles having an average particle diameter of 0.01 μm to 500 μm and connected to some metal compounds, and then the water-soluble substance (II) is in the range of 1 to 99%. By substituting within, I was able to completely solve the slump prosperity problem. In addition, in order to optimize the amount of the slump antiseptic agent of the present invention, as a result of application tests with various compounds, the amount of polyvinyl alcohol, polyethylene glycol, oligosaccharide, starch sugar, etc., which are water-soluble polymers, is substituted when used within the substitution rate of 1 to 99%. We found that we can optimize

When preparing the ready-mixed concrete by adding the anti-slumping agent of the present invention in the ready-mixed concrete factory, it was possible to maintain the slump of the concrete for 90 minutes even in the summer (concrete temperature 35-37 ° C.) where the slumped concrete was the most severe. By controlling the amount of inhibitor added, the slump of the construction site could be adjusted as planned at the time of manufacturing ready-mixed concrete.

As described above, the slump prosthesis agent of the present invention can be used by replacing NSF-based, LS-based, MSF-based, modified LS-based admixtures and amino sulfonate-based and polycarbonate-based admixtures within the range of 1 to 99%. Also, it is used by adding cement compound and concrete in the range of 0.01 ~ 5% of cement weight in cement manufacturing plants and secondary product manufacturing plants such as concrete and steam curing products such as mortar, self-leveling agent, shotcrete mortar, etc. It can also be used in concrete blended with blast furnace slag, fly ash and the like.

Hereinafter, the test was performed by comparing the slumps with each other by preparing a product having the present invention added to the general strength and the high strength concrete and the non-added product according to KS F 2560, but the present invention is not intended to be limited thereto.

Test Example 1: General Strength Concrete Test

Test Example 2: High Strength Concrete Test

As a result of the above test, in the case of the concrete to which the slump protection agent of the present invention is added, the slump can be kept constant for 90 minutes at the general strength and high strength, thereby solving various problems that may occur in the construction site due to the slump process. As a result, the slump antiseptic agent can be said to be a very effective material for preventing slump prosthesis of concrete.

As described above, by completing the slump protection agent of the present invention having a significantly improved slump protection function, it is possible to improve the workability of the concrete, and to prevent the blockage of the pipe when installing the pump car, it is possible to shorten the air, Regardless of transport distance and traffic congestion, ready-mixed concrete can be controlled by the ready-mixed concrete manufacturer, and the slump deviation between each ready-mixed concrete vehicle can be reduced to prevent the occurrence of joints and deterioration of the structure.

In addition, until now, in order to prevent slump prosperity, each ready-mixed concrete company has been shipping the ready-mixed concrete by adding a unit quantity and a unit cement amount, and by reducing the manufacturing unit by completely eliminating such a premium, it is possible to reduce the ready-mixed concrete manufacturing cost. It is possible to prevent excessive water and water, to reduce dry shrinkage and cracking, and to ensure workability planned in a uniform slump, thereby preventing stale construction work.

Claims (5)

In the anti-slumping agent, a compound having a structure of the following general formula (I) is processed into fine particles having an average particle diameter of 0.01 μm to 500 μm, and the ends of the processed fine particles are again Ca (OH) ₂ Al (OH) ₃ , CaCl ₂ , AlCl ₃ , FeSO ₄ , MgSO ₄ , ZnSO ₄ , CuCl ₂ , ZnO, Zn (OH) ₂ , NiSO ₄ , CaNO ₃ , NaNO ₃ , characterized in that it is prepared by reacting with metal compounds Inhibitors. (Where R 1 to R 5 are hydrogen or a methyl group and n is an integer of 10 to 200) The method of claim 1, The compound having the structure of the general formula (I) has a copolymerization degree (number of n) in the copolymer of the compound having the structure of the following general formula (A) and the structure of the following general formula (B) in the range of 10 to 200 Characterized in that the copolymer, slump anti-slip agent. (Where R 1 to R 5 are hydrogen or a methyl group) A slump anti-slump agent having a structure of the following general formula (II), characterized in that the compound (I) of claim 1 is prepared by reacting with a metal ion at a constant temperature. (Where R 1 to R 5 are hydrogen or a methyl group, M 1 and M 2 are metal ions, and n is an integer of 10 to 200) The slump anti-slump agent, characterized in that the anti-slump anti-slump agent of claim 1 and the anti-slump agent of claim 3 are produced by mixing in the range of 1 to 99%, respectively. In the anti-slump anti-slump agent, the anti-slump anti-slump agent is prepared by mixing at least one of the water-soluble polymer polyvinyl alcohol, polyethylene glycol, oligosaccharide and starch sugar in the range of 1% to 99%. .