KR100242599B1 - High porous concrete - Google Patents

Abstract

Disclosed is a high performance permeable concrete that can be produced at low cost and with improved permeability. The permeable concrete uses only 4m / m coarse aggregates and cement without using fine aggregates to secure high performance permeability, and uses SBR latex and VAE emulsion as admixtures to secure required strength.

Description

High performance pitched concrete

The present invention relates to high performance water-permeable concrete, and more particularly, to provide a water-permeable concrete suitable for pavement such as bicycle roads and general walkways that require high-permeability and low-cost pavement.

In general, road pavement employs an impermeable asphalt concrete pavement and cement concrete pavement, as shown in the accompanying FIG.

However, these impervious pavements cause rainwater to remain on the road during rainfall, and not only cause obstacles in road traffic, but also increase the risk of accidents due to slip resistance when the vehicle is braked.

In addition, rainwater did not penetrate into the basement, causing flooding of the river, depleting the groundwater, and accompanied by various problems such as desertification of the soil because microorganisms did not live in the ground.

To this end, permeable asphalt concrete has been developed and put into practical use in plazas, parking lots, etc., but it is easy to be deformed due to the rise of road temperature in the summer, and the permeability is closed due to the viscosity of asphalt.

Permeable concrete for solving the problems of such permeable asphalt concrete is shown in Figure 2 attached. It has a structure in which the filter layer layer 3, the auxiliary base layer 2, and the permeable concrete 1 are sequentially stacked on the hearth 4.

Usually, natural sand is generally used for the material of the filter layer 3, and the auxiliary base layer 2 is required to have support and durability, so that the material can be minimized due to changes in water content and freezing / dissolving. Etc. are used.

And since the permeable concrete (1) is directly exposed to severe environmental conditions such as wheel load, meteorological action, and abrasion action, the material used is required to be sufficiently investigated / tested before construction, and usually cement, aggregate (including fine aggregates and coarse aggregates). Use materials in which water, admixtures, and admixtures are blended in suitable proportions.

The permeable concrete 1 manages a slump value close to zero by using less aggregates, and cement paste is filled in a part of the space part while keeping the aggregate surface thinly wrapped to maintain adhesive strength. At this time, a permeation hole without filling the paste is formed according to the size of the space part, and if the fine permeation hole is made continuously, the permeation is made by securing the continuous porosity.

However, such a permeable concrete 1 is accompanied with the following problems.

That is, the compressive strength is less than 300㎏ / ㎠ because the mixing design is made of less than about 12% of the aggregate aggregate to have a continuous porosity to secure a high permeability coefficient of 1.0 × 10 ^-2 cm / sec.

In addition, by using a small amount of fine aggregate, when a large amount of cement is used to increase the strength, or when the fluidity of the cement paste is large, the cement paste flows into the air gap between the aggregate and the aggregate to seal the air gap in the lower layer. This lowers and the concrete strength of the upper layer is lowered.

In addition, when there is a little slump in the construction process because of the low aggregate aggregate ratio, the lower layer of the aggregate is less permeable, while the strength of the upper layer is significantly reduced, so that only the thick aggregate remains.

In addition, since the sluff value is concrete close to zero, it cannot be constructed like ordinary concrete, and is used only for pavement such as a bicycle road because it is constructed by mechanized compaction.

In addition, there is a problem in securing strength (particularly, durability against freeze-thawability) due to an excessive amount of unnecessary independent porosity that is not related to water permeability. As the fine pores are easily attached to the dust, the water permeability decreases rapidly, resulting in excessive maintenance costs.

In addition, when using a separate surface treatment reinforcing agent (acrylic agent or epoxy agent) to increase the strength of the surface, there is a phenomenon that the surface permeability is sharply lowered, and when using a pigment for coloring, strength is There is a fear of a sharp drop.

In addition, pavement concrete with fine-grained permeable concrete has a low strength or durability due to deterioration of economical efficiency due to double laying, a decrease in strength at the adhesive surface of the thin layer and a lower layer, and an unreasonable phenomenon resulting from the difference of different permeability coefficients. Those are the symptoms of deterioration.

Therefore, the present invention has been devised to solve the above problems, the main purpose of the present invention can be evaporation of the water permeated in the dryer after the road water and the like, when used for sidewalks and road pavement, sufficient natural water, such as roadside trees In addition, it is possible to supply water, thereby improving the permeability of concrete to prevent flooding in public waters, urban rivers, rivers, etc. and to prevent damage caused by lowering the underground water level in the city.

Another object of the present invention is to prevent the flow of water along the road surface to facilitate the passage and increase the sliding resistance to reduce the risk of car accidents and to eliminate the visual impairment due to diffuse reflection and the sound absorption effect of the noise caused by traffic There is also a significant reduction in

Another object of the present invention is to provide a desired color with a small amount of pigments and low-cost production while being less affected by oil.

Yet another object of the present invention is to maintain sufficient reinforcement by securing the bending strength of the concrete even if the auxiliary base is damaged, and to be able to produce a concrete batch plant during production.

Another object of the present invention is to provide a high permeability of the pavement, and can be produced at low cost, so that the pavement concrete for pavement such as bicycle roads and general sidewalks.

Still another object of the present invention is to allow a slight slump value to facilitate quality control during construction and to improve quality.

Another object of the present invention is to provide a more economical permeable concrete by not requiring a separate surface treatment enhancer.

Still another object of the present invention is to eliminate the uneconomical double laying required for thin-grained pavement of fine grains, and to solve the unreasonable problems resulting from the difference of different permeability coefficients.

Still another object of the present invention is to provide a permeable concrete improved to be used for long distance pavement to adjust the setting time can be enough to overcome the limitation of the transport time and distance.

1 is a cross-sectional view showing a conventional road pavement state.

2 is a cross-sectional view showing a general road paving and road paving according to the present invention.

3 is a process chart of the permeable concrete according to the present invention.

The present invention provided to achieve the above object in the permeable concrete prepared by mixing cement, water, aggregate and admixture in a predetermined ratio, the aggregate less than 4mm of the aggregate and the SBR latex or VAE emulsion as admixture Characterized in that it is used.

According to the present invention, the permeable concrete is able to secure high-performance permeability and cheap packaging by removing fine aggregates of 4 mm or less in the aggregate to be mixed, and to adjust the setting time and improve the strength by adopting SBR latex or VAE emulsion This becomes possible.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The water-permeable concrete 11 according to the present invention, as shown in the accompanying FIG. 2, is placed on the top after the layer 3, the auxiliary base layer 2 is laminated on the hearth (4), this pitcher The castle concrete 11 is manufactured by mixing each element of cement, water, admixture, and aggregate in an appropriate ratio as in the prior art.

Herein, the present invention removes fine aggregates of 4 mm or less from the aggregate to improve permeability, and also has foamability in the polymer system to increase the strength of the admixture, and is capable of controlling the setting time of the SBR (Styrene butadiene rubber) latex. Or VAE (Vinyl Acetate Ethylene) emulsion.

Permeable concrete 11 according to the present invention, as shown in Figure 3, after removing the fine aggregate of less than 4 mm that hinders the permeability of fine aggregate (sand), after mixing the SBR latex or VAE emulsion as a mixed material Cement, coarse aggregate, pigments and water are added and mixed in an appropriate amount to prepare the permeable concrete of the present invention.

Therefore, the permeable concrete according to the present invention by removing the fine aggregate of less than 4 mm in the aggregate and by mixing the SBR latex or VAE emulsion continuous porosity is secured as well as high performance permeability and cheap packaging to achieve the above object of the present invention It is an invention having the utility that this becomes possible.

Claims (1)

A water-permeable concrete prepared by mixing cement, water, aggregate, and admixture in a predetermined ratio, the water-permeable concrete characterized by lacking fine aggregates of 4 mm or less in the aggregate to ensure high permeability.

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