KR100889756B1 - Device and method for stabilizing concrete containing steel making slag - Google Patents

Abstract

The present invention relates to an apparatus and method for stabilizing concrete containing steelmaking slag, and more particularly, stabilization of concrete containing steelmaking slag, which can stabilize concrete by promoting chemical reaction of steelmaking slag in a short time. It relates to a processing apparatus and a method thereof. Concrete stabilization treatment apparatus according to an embodiment of the present invention, a device for stabilizing steelmaking slag by artificially popping out the concrete containing steelmaking slag, the housing is installed in the concrete to form a predetermined closed space ; A steam supplier for supplying hot steam into the housing; And a pressure valve that regulates the pressure inside the housing. Concrete stabilization treatment method according to an embodiment of the present invention, as a treatment method for stabilizing steelmaking slag by artificially popping out the concrete containing steelmaking slag, (a) supplying high pressure and high temperature steam to the concrete Generating a popout on the surface of the concrete by chemical reaction between the steelmaking slag and steam; (b) drying the surface of the concrete; And (c) filling the popout portion formed on the surface of the concrete with the filler by the chemical reaction. Stabilization treatment apparatus and method of the concrete containing steelmaking slag according to the present invention has the advantage of stabilizing the steelmaking slag existing within a predetermined depth from the concrete surface in a short time, and can repair the concrete simply and economically.

Steel slag, concrete, pop out

Description

Stabilization treatment device for concrete containing steelmaking slag and its method {DEVICE AND METHOD FOR STABILIZING CONCRETE CONTAINING STEEL MAKING SLAG}

The present invention relates to an apparatus and method for stabilizing concrete containing steelmaking slag, and more particularly, stabilization of concrete containing steelmaking slag, which can stabilize concrete by promoting chemical reaction of steelmaking slag in a short time. It relates to a processing apparatus and a method thereof.

The pop-out phenomenon on the concrete surface can be caused by the corrosion of reinforcement and the East Sea caused by the deterioration of the durability of concrete in addition to the alkali aggregate reaction, but the pop-out caused by these causes has a certain pattern. The appearance of the appearance, and various methods for repair have been reported.

Recently, there have been several reports on the concrete popout phenomena due to the use of steelmaking slag, but the exact cause identification and effective repair measures have not been provided.

The popout phenomenon caused by using steelmaking slag as a concrete mixture is a conical shape with a maximum diameter of about 40mm and a depth of about 10mm, which damages the concrete surface and is mainly observed at the bottom of slabs and walls. The occurrence of yellow (partly) differentiating material is a typical phenomenon.

In general, steelmaking slag is generated by limestone (quick lime) and dolomite, which are added as an auxiliary raw material to suppress erosion of refractory and remove impurities during steelmaking of iron. 35-40% of the steelmaking slag is CaO, and 4% is MgO. to be. The double free CaO and free MgO are trace amounts of 0.3% each.

In general, when CaO is in contact with water or carbon dioxide, the volume expands by about two times, and MgO contained in steelmaking slag shows similar reaction results. When CaO and MgO and the like in the steelmaking slag used as the concrete mixture cause a reaction, a popout phenomenon in which the concrete surface collapses may occur due to volume expansion.

When reactive aggregates, such as steelmaking slag, are used as concrete mixtures, the degree of aging of the slag, the existence pattern of free CaO (eg, free CaO) present in the slag, and the conditions for activating energy are different. Pop out is in progress. This period can last as long as 10 years, and the point at which popouts begin to be apparently found should be regarded as a response.

Usually, the repair method of the chemical reaction deterioration which is a reaction reaction agent is organic surface treatment (surface coating and surface impregnation), cross-sectional substitution, or the method which combines these is typical. However, it is difficult to completely suppress the reaction conditions with water existing in the concrete only by surface treatment, and methods such as cross-sectional replacement may cause a new popout by exposing reactive aggregates with limited expansion force. In addition, the application of the cross-sectional replacement method in the living space has many obstacles in reality, such as the problem of relocation of residents, disposal of waste, and enormous costs for restoration.

Therefore, when the reactive aggregate such as steelmaking slag caused a popout of the concrete surface, its fundamental prescription is very difficult.

That is, as described above, since the reactivity of the steelmaking slag does not have a constant pattern, it is difficult to predict when the reactivity ends, and despite the non-structural defects occurring on the surface, the progress of the structure causes the collapse of the structure. Because it causes.

Popouts are small in size and can be restored to the structure's appearance by a simple method of filling with putters, mortars, etc., but these are also only temporary measures when the reaction is in progress. Therefore, it is an economical and reasonable solution to stop the reactivity of the steelmaking slag added in the concrete, and to proceed with the normal repair work.

The present invention has been made to solve the above-mentioned problems, an object of the present invention is to stabilize the steel slag existing within a predetermined depth from the concrete surface in a short time, and to restore the structure by a simple and economical repair method It is to provide an apparatus and method for stabilizing concrete containing slag.

Concrete stabilization treatment apparatus according to an embodiment of the present invention for achieving the above object, as a device for stabilizing steelmaking slag by artificially generating a popout in the concrete containing steelmaking slag, it is installed on the concrete A housing defining an enclosed space; A steam supplier for supplying hot steam into the housing; And a pressure valve that regulates the pressure inside the housing.

Insulation may be installed on the inner surface of the housing.

In addition, the concrete stabilization treatment method according to an embodiment of the present invention, a method for stabilizing steelmaking slag by artificially popping out the concrete containing steelmaking slag, (a) a high-pressure and high temperature steam in the concrete Supplying a chemical reaction between the steelmaking slag and the steam to generate a popout on the surface of the concrete; (b) drying the surface of the concrete; And (c) filling the popout portion formed on the surface of the concrete with the filler by the chemical reaction.

The high pressure is 1.5 to 2 atm, the high temperature may be 80 ~ 100 ℃.

The filler may be composed of putters or mortars.

Between step (b) and step (c), when the depth of the popout portion is shallow, cutting and expanding the popout portion may be further included to enhance the adhesion of the filler.

The concrete stabilization treatment method may further include partially chipping the concrete surface and restoring the chipped portion with a restoring material when the distribution frequency of the popout portion is severe.

The restorative material may be composed of polymer mortar.

After the step (c), the method may further include applying a deterioration barrier to the surface of the concrete filled with the filler, and infiltrating the deterioration barrier into the concrete under high pressure.

The deterioration material blocking material may be composed of a watertight material or a polymer impregnating material.

Stabilization treatment apparatus and method of the concrete containing steelmaking slag according to the present invention has the advantage of stabilizing the steelmaking slag existing within a predetermined depth from the concrete surface in a short time, and can repair the concrete simply and economically.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the stabilization treatment apparatus for concrete containing steelmaking slag according to a preferred embodiment of the present invention and its method.

1 is a view showing the configuration of the stabilization treatment apparatus for concrete containing steelmaking slag according to an embodiment of the present invention, Figure 2 is a view showing a process of the steelmaking slag reaction according to the present invention.

Referring to FIG. 1, the stabilization apparatus 100 of the present invention includes a housing 110 installed to cover a part of the surface of the concrete 200, and a pressure valve 120 for adjusting a pressure inside the housing 110. And a steam supplier 130 for supplying high temperature and high pressure steam into the housing 110.

The housing 110 has a box shape with one side open, and the one side thereof is installed to be in contact with the surface of the concrete 200 containing the steelmaking slag, and accommodates high pressure and high temperature steam between the concrete 200. Form an area. The housing 110 is fixed in close contact with the surface of the concrete 200 by the anchor 112.

The pressure valve 120 adjusts the pressure inside the housing 110 by injecting air into the housing 110 or by discharging air inside the housing 110 to the outside. The steam supplier 130 is connected to the housing 110 through a steam supply passage 132 extending into the housing 110, and supplies steam into the housing 110 through the steam supply passage 132.

A gasket 114 may be installed at a coupling portion between the housing 110 and the concrete 200 to maintain a sealed state inside the housing 110 to prevent leakage of steam.

In addition, in order to prevent damage to the housing 110 due to high pressure and high temperature steam, the heat insulating material 150 may be installed on the inner surface of the housing 110. The temperature of the steam supplied into the housing 110 is sensed by the temperature sensor 140. The high pressure and high temperature steam supplied into the housing 110 causes a chemical reaction with the steelmaking slag contained in the concrete 200. Since the inside of the housing 110 is maintained at a high pressure, steam may penetrate a predetermined depth inside the concrete 200, for example, up to 30 cm. By the chemical reaction, a popout portion 210 is generated on the surface of the concrete 200.

The chemical reaction is a mechanism in which CaO, MgO, etc., which are usually contained in steelmaking slag, react with water vapor (H ₂ O) to generate Ca (OH) ₂ , Mg (OH) ₂ , and the like. When activation energy (a) is supplied to CaO and MgO by steam of CaO and MgO, CaO and MgO react to discharge reaction heat (b) and form products such as Ca (OH) ₂ and Mg (OH) ₂ .

That is, the stabilization apparatus 100 of the present invention infiltrates the high pressure and high temperature steam into the concrete 200 to promote the chemical reaction. Since the concrete 200 has increased strength in a state of high temperature and high pressure, according to the stabilization apparatus 100 of the present invention, by artificially inducing popout phenomenon without harmful effects on the concrete 200, in the long term 10 It is possible to shorten the popout, which may take more than a year, in a short time to cause a reaction, thereby significantly reducing the popout phenomenon of the concrete 200 which may occur later.

3 is a flowchart illustrating a method of stabilizing concrete containing steelmaking slag by the stabilization apparatus 100 of the present invention.

Referring to FIG. 3, first, the stabilization apparatus 100 of FIG. 1 is installed on the surface of the concrete 200 to be repaired (S300).

Subsequently, the high pressure and high temperature steam is supplied to the concrete 200 by the stabilization apparatus 100 (S310). Here, the high pressure is to penetrate the steam to a predetermined depth of the concrete 200, the pressure range is not particularly limited, but may be controlled to 1.5 to 2 atm. On the other hand, the high temperature steam may be approximately 80 ~ 100 ℃, causing chemical reactions such as CaO and MgO of steelmaking slag, to trigger the expansion and collapse of the concrete 200 surface.

The method using the high-pressure and high-temperature steam of the present invention can use up to the moisture already present in the concrete 200, the converter slag is about 6 days, in the case of the electric furnace slag takes about 3 days It may trigger the expansion collapse of the surface of the concrete (200). That is, the present invention can temporarily trigger a popout phenomenon caused by CaO, MgO, or the like that can occur over a long period of time in a relatively short period of time, thereby preventing the occurrence of red defects after repairing the structure.

Subsequently, the stabilization apparatus 100 is removed (S320), and the surface of the concrete 200 in which the expansion collapse occurs is dried (S330). Subsequently, the popout portion 210 formed on the surface of the concrete 200 is filled with a filler to restore the concrete 200 structure to its original state (S340). The type of the filler is not particularly limited, and the popout portion 210 may be filled with a putter or mortar.

In this case, when the depth of the popout portion 210 is shallow, it is preferable to cut and enlarge the popout portion 210 by means of a drill or the like to enhance the adhesive force of the filler.

In addition, when the distribution frequency of the popout portion 210 is severe, a method of partially chipping the surface of the concrete 200 and restoring the chipped portion to a restoring material may be applied. The type of the restoring material is not particularly limited, and may be, for example, a polymer mortar.

On the other hand, in the stabilization treatment method of the present invention, in preparation for an extreme situation in which reactivity remains due to CaO or the like, the deterioration material blocking material is applied to the surface of the concrete 200 filled with the filler (S350), and the stabilization treatment apparatus is reinstalled. In operation S360, the method may further include penetrating the deterioration material blocking material into the concrete 200 under a high pressure (S370). The high pressure state may be formed by adjusting only the pressure valve 120 without supplying steam in the stabilization apparatus 100.

The deterioration material blocking material may be, for example, a watertight material or a polymer impregnating material. The water-tightening material or the polymer impregnating material blocks steelmaking slag existing about 10 mm from the surface of the concrete 200 from water or carbon dioxide, thereby suppressing reactivity such as CaO.

Subsequently, after a curing process that maintains proper moisture and protects it from being impacted or frozen until the concrete 200 is completely solidified, the designated finishing material is restored according to a special specification, so that the repair work on the surface of the concrete 200 is performed. May be terminated.

Preferred embodiments of the invention described above are disclosed for purposes of illustration, and those skilled in the art having ordinary knowledge of the present invention will be capable of various modifications, changes, additions within the spirit and scope of the present invention, such modifications, changes And additions should be considered to be within the scope of the following claims.

1 is a view showing the configuration of a stabilization apparatus for concrete containing steelmaking slag according to an embodiment of the present invention.

2 is a diagram illustrating a process of steelmaking slag reaction according to the present invention.

Figure 3 is a flow chart illustrating a method for stabilizing concrete containing steelmaking slag by the stabilization treatment apparatus of the present invention.

Claims (10)

As a concrete stabilization treatment device for stabilizing steelmaking slag by artificially popping out the concrete containing steelmaking slag, A housing installed in the concrete to form a predetermined closed space; A steam supplier for supplying hot steam into the housing; And Concrete stabilization apparatus comprising a pressure valve for adjusting the pressure in the housing. According to claim 1, Concrete stabilization apparatus characterized in that the heat insulating material is installed on the inner surface of the housing. As a concrete stabilization treatment method to stabilize steelmaking slag by artificially popping out the concrete containing steelmaking slag, (a) supplying high pressure and high temperature steam to the concrete, causing a chemical reaction between the steelmaking slag and steam to create a popout on the surface of the concrete; (b) drying the surface of the concrete; And (c) filling the popout portion formed on the surface of the concrete by the chemical reaction with a filler. The method of claim 3, wherein the high pressure is 1.5 to 2 atm, and the high temperature is 80 to 100 ℃ concrete stabilization treatment method. The method of claim 3, wherein the filler is putter or mortar. The method of claim 3, wherein Between step (b) and step (c), When the depth of the popout portion is shallow, concrete stabilizing treatment method further comprising the step of cutting and expanding the popout portion to enhance the adhesion of the filler. The method of claim 3, wherein If the distribution frequency of the pop-out site is severe, the concrete stabilizing (Chipping) the concrete surface (Chipping), and concrete stabilization treatment method comprising the step of restoring the chipped site with a restoring material. 8. The method of claim 7, wherein the restoring material is a polymer mortar. The method of claim 3, wherein After step (c), And applying a deterioration barrier to the surface of the concrete filled with the filler, and infiltrating the deterioration barrier into the concrete under high pressure. 10. The method of claim 9, wherein the deterioration material blocking material is a watertight material or a polymer impregnating material.

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