KR101017609B1 - Functional finishing method to increase the surface strength and gloss of concrete - Google Patents

Abstract

The present invention can achieve the prevention of defects and increase the surface strength by using the functional cement fillers to achieve a plaster finish of concrete, thereby realizing the shortening of the air and reducing the construction cost, and the surface strength of the concrete with improved durability And a functional finishing method for increasing gloss. Functional finishing method of concrete according to the invention, the step of pouring concrete; Preparing a functional cement filler; Applying the cement filler to a concrete surface before curing after pouring the concrete; Mixing and cementing the cement filler applied to the concrete surface with the latent layer generated on the concrete upper surface; And after the plastering, buffing the concrete surface with the polishing equipment to finish the polishing.

Description

FUNCTIONAL FINISHING METHOD OF CONSTRUCTION FOR INCREASING SURFACE STRENGTH AND POLISHING OF CONCRETE}

The present invention relates to a functional finishing method of concrete. Specifically, the present invention can achieve the prevention of defects and increase the surface strength by using the functional cement fillers to achieve a plaster finish of concrete, thereby realizing shortening of the air and reducing construction costs, and improved durability It relates to a functional finishing method for increasing the surface strength and gloss of the.

In general, concrete refers to a mixture made of cement, blended water, fine aggregates and coarse aggregates, and mixed materials required to improve performance as needed, in a ratio suitable for civil construction or construction structural materials such as dams, road pavements, and bridges. It is used.

Such concrete structures should be capable of long-term maintenance and management. However, these concrete structures are gradually aged after construction due to poor physical and chemical environmental conditions. In addition, when the concrete floor is used only to finish plastering, since the surface strength is weak, the road surface is destroyed or dust is generated while the vehicle is running. As a result, large repairs or reconstructions are inevitable at the time of use, causing huge economic losses.

1 is a view showing a phenomenon that occurs during concrete pouring in general. As shown in FIG. 1, when pouring concrete, a latency layer is generated due to a bleeding phenomenon on the concrete. Here, bleeding is a kind of material separation, in which water gathers on the surface by sedimentation of cement and aggregate particles.After concrete placing, relatively heavy aggregate or cement settles and light water or fine material separates and rises to the surface of concrete. Say In addition, the latent refers to a fine powder of cement and aggregates and fine substances such as mud on the aggregates, which floats and precipitates on the concrete surface by the bleeding, which must be removed because it lowers the concrete strength and adhesion.

Various methods have been used to solve the problems occurring during the concrete pouring, but the situation has not been improved by the conventional methods. Examples of such conventional methods include powder hardener methods, liquid hardener methods, and concrete polishing methods.

The powder hardener method is a method of spraying powder hardener and finishing it with a mechanical plaster when there is water on the concrete before curing after concrete pouring, which helps to increase the surface strength of concrete but separates from the concrete body and improves the latency. There are many disadvantages such as failure to solve.

In addition, the liquid hardener method is a method of increasing the surface strength by infiltrating the liquid hardener to the concrete surface after 3-4 days after the initial curing of the concrete. This method also has a disadvantage in that a lot of defects occur, such as failing to solve the latent layer caused by the bleeding phenomenon on the concrete.

In addition, the concrete polishing method is a method of polishing and polishing the concrete surface after completely curing the concrete (about 28 days). This method has the disadvantage of having a strong surface strength and gloss because it penetrates the liquid hardener during the process, increases the strength, polishes the surface, and polishes the surface. As a result, performance improvement work is repeatedly performed whenever the performance of the concrete decreases.

Therefore, there is a need for a new concrete finishing method that can improve durability while maintaining the role and performance of concrete structures.

Therefore, in view of the above-described problems, the present invention can achieve the prevention of defects and increase the surface strength by using the functional cement filler to achieve a plaster finish of concrete, thereby realizing the reduction of air and the cost of construction. And it provides a functional finishing method to increase the surface strength and gloss of concrete with improved durability.

Functional finishing method of concrete according to the invention, the step of pouring concrete; Preparing a functional cement filler; Applying the cement filler to a concrete surface before curing after pouring the concrete; Mixing and cementing the cement filler applied to the concrete surface with the latent layer generated on the concrete upper surface; And after the plastering, buffing the concrete surface with the polishing equipment to finish the polishing.

The cement filler may be mixed with the latent layer after the concrete is placed before the curing layer solidifies before curing.

The cement filler may be formed by stirring and mixing with water in a blending ratio of 65% by weight of cement, 20% by weight of polish, 10% by weight of adhesion increaser, and 5% by weight of strength increaser.

The cement filler may further include an additive such as a dye to implement coloring of concrete.

The brightener may be a solution in which carnauba wax is dissolved in hot ethanol to be liquefied.

The adhesion increasing agent may be formed by mixing a water-soluble urethane solution, an acrylic aqueous solution, and a Riggs bond.

The strength increasing agent may be a admixture of natural plant extracts.

The cement filler may be applied by spraying or filling the concrete surface with 2-3mm.

According to the present invention, by using the functional cement filler to achieve a plaster finish of concrete to prevent defects and to increase the surface strength, it is possible to implement the shortening of the air and reduction of construction costs.

In addition, according to the present invention can increase the gloss of the concrete surface, it is possible to easily reproduce the gloss even when the gloss is reduced after construction.

In addition, the present invention can improve the durability by preventing the corrosion of the concrete.

1 is a view showing a phenomenon that occurs during concrete pouring in general.
2 is a flowchart of a concrete functional finishing method according to an embodiment of the present invention.
3 is a view showing that the latencies and cement fillers are mixed when placing concrete according to an embodiment of the present invention.
4 is an enlarged view of a portion “A” shown in FIG. 3.

BRIEF DESCRIPTION OF THE DRAWINGS The above objects, features and advantages will become more apparent through the following examples in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

Existing methods are applied by spraying a surface hardener during curing of concrete or by polishing the surface after curing of concrete. However, the above-described method can increase the surface strength of the concrete to some extent, but does not solve the hair crack (silk crack) or the latency, which is a problem that occurs during curing of the concrete. In addition, the method described later has a problem that the construction cost is expensive and the construction period is long because it is made after completely curing the concrete.

The present invention is to solve this, by using a functional cement filler to achieve a plaster finish of concrete to prevent defects and to increase the surface strength, such as to shorten the air and to reduce the construction cost, and to achieve durability It relates to a functional finishing method for increasing the surface strength and gloss of the improved concrete. Hereinafter, the construction method, the effect, etc. which concern on this invention are demonstrated. 2 is a flowchart of a concrete functional finishing method according to an embodiment of the present invention, Figure 3 is a view showing the mixing of the cement and the cement filler when placing concrete according to an embodiment of the present invention, Figure 4 It is an enlarged view of the "A" part shown in 3.

As shown in Figure 2, the functional finishing method of concrete according to an embodiment of the present invention, the concrete is first poured (S10), and then stirred and mixed with a polish, adhesion increasing agent, and strength increasing agent functional cement filler To prepare the agent (S20). Thereafter, the cement filler is sprayed or filled with 2-3mm on the concrete surface before curing after pouring the concrete (S30), and the cement filler applied to the concrete surface is generated on the upper surface of the concrete. Plastering is mixed with the turn layer (S40). After the plastering finishes by polishing the concrete surface with a polishing equipment (S50). Accordingly, the present invention can increase the concrete surface strength and improve the gloss.

In general, in the curing process after pouring concrete, the internal moisture is dried, a volume change occurs due to a chemical reaction, and various chemical organic matters are released, causing fine hair cracks (silk cracks) on the surface. However, in the concrete functional finishing method according to the present embodiment, since the cement filler is applied during the curing process after the concrete is placed, defects such as hair cracks do not occur.

In addition, the above-described latence refers to a fine material that floats and precipitates on the concrete surface by bleeding during concrete casting after pouring concrete with a mixture of fine powder of cement and aggregate and mud on the aggregate. It must be removed. However, in the conventional construction method, this could not be solved and had to be solved through a separate process after finishing the concrete.

However, according to the present embodiment, as shown in Fig. 3 and 4, by spraying or filling the cement surface with 2-3 mm before or after curing, that is, before the latencies layer hardens, Thus, the cement filler applied to the concrete surface is mixed and plastered with the latent layer generated on the upper surface of the concrete, so that such contaminants, for example, contamination of the concrete surface by latencies and corrosion of concrete, etc. Can be prevented. Here, it is preferable to apply a cement filler just before the machine plastering after curing of the concrete before curing.

As shown in FIG. 3, the cement filler is mixed with the latent layer generated on the concrete surface by applying a cement filler before curing after the concrete is poured. In this case, as shown in the enlarged view of FIG. 4, when the cement filler is mixed with the latent layer and plastered, a wax layer is formed on the uppermost layer by a varnish, which is a component of the cement filler, and a component of the cement filler therein. A waxy grain etc. adsorb | suck the fine substance which is a latency by a phosphorus polisher, an adhesion increasing agent, etc.

In addition, as described above, the concrete functional finishing method according to the present embodiment is all the process is made during the curing process of the concrete it is possible to shorten the air and save construction costs.

In addition, the method according to the present embodiment can be implemented by further including an additive, such as a dye of the color required for the cement filler when the concrete floor or structure needs to be colored.

By polishing the concrete surface by the polishing equipment, it is possible to give an aesthetic feel to the concrete structure. In addition, the concrete floor or structure deteriorates the gloss due to use for a long time, according to the present method, as shown in Figure 4, when the gloss is reduced, it is possible to easily reproduce the gloss by buffing the concrete surface with a polishing equipment, This can facilitate the management of the concrete floor or structure. Here, the polishing equipment may use a polishing machine or a polishing pad.

As described above, the cement filler is mainly composed of a polishing agent, an adhesion increasing agent, and a strength increasing agent, wherein a blending ratio of 65% by weight cement, 20% by weight polishing agent, 10% by weight adhesion increasing agent and 5% by weight increasing agent is used. It is preferable that the mixture is stirred and mixed with water for 5 minutes or more using a stirrer. Here, the stirrer may use any stirrer.

The varnish is a solution in which carnauba wax is dissolved in hot ethanol to liquefy. The main components of the carnauba wax are fatty acid esters (80 to 85%), fatty alcohols (10 to 16%), acids (3 to 6%) and hydrocarbons (1 to 3%). It is used as a material. In addition, the carnauba wax is mixed with other waxes to be used for waterproofing gloss products, and is compatible with epoxy resins and improves its properties with other plastics. The melting point of this carnauba wax is about 82-86 ° C., which is the highest among natural waxes. In addition, the carnauba wax has the highest hardness among natural waxes and its hardness is higher than that of pure concrete. The wax in this embodiment uses a cabana wax having such properties and characteristics, but is not limited thereto. For example, other waxes (for example, candelilla wax, bees wax, etc.) may be used. It may be. In addition, although a carnauba wax is melt | dissolved in thermal ethanol in this Example, another alcohol solvent (for example, ethylene glycol monobutyl ether etc.) can also be used instead of the said thermal ethanol.

The adhesion increasing agent is made by mixing a water-soluble urethane solution, an acrylic aqueous solution, and a lix bond. Although a water-soluble urethane liquid is used in this embodiment, it is not limited to this, Another ester compound can also be used. It is also possible to use any other bond agent in place of the above-mentioned lig bond.

In addition, the strength increasing agent is a admixture of natural plant extracts, but may be a commercial Kalmatron K100 product, but is not limited thereto.

As described above, the concrete functional finishing method according to the present embodiment can implement the increase in the surface strength and gloss, etc. after the plastering of the concrete at the same time as the finishing finish of the concrete, to solve the problems that occurred in the conventional construction method have.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Will be clear to those who have knowledge of.

S10: Concrete pouring step S20: Cement filler manufacturing step
S30: Cement Filler Application Step
S40: Mixing and cementing cement filler with latency layer before curing concrete
S50: Concrete surface polishing step

Claims (8)

Pouring concrete;
Preparing a functional cement filler;
Applying the cement filler to a concrete surface before curing after pouring the concrete;
Mixing and cementing the cement filler applied to the concrete surface with the latent layer generated on the concrete upper surface; And
After the plastering step buffing the concrete surface with a polishing equipment to finish the polished
Functional finishing method of concrete comprising a. The method of claim 1,
The cement filler is mixed with the latent layer before the curing of the latent layer before curing after concrete casting
Functional finishing method of concrete. The method according to claim 1 or 2,
The cement filler is a mixture of 65% by weight of cement, 20% by weight of polish, 10% by weight of adhesion increasing agent, and 5% by weight of strength increasing agent by stirring and mixing with water.
Functional finishing method of concrete. The method of claim 3,
The cement filler further includes an additive, such as a dye, to implement coloring of concrete.
Functional finishing method of concrete. The method of claim 3,
The brightening agent is a solution obtained by dissolving carnauba wax in hot ethanol to liquefy
Functional finishing method of concrete. The method of claim 3,
The adhesion increasing agent is made by mixing a water-soluble urethane solution, an acrylic aqueous solution and a rick's bond
Functional finishing method of concrete. The method of claim 3,
The strength increasing agent is a admixture of natural plant extracts
Functional finishing method of concrete. The method of claim 1,
The cement filler is applied by spraying or filling the concrete surface with 2-3mm
Functional finishing method of concrete.

Images