KR102234156B1 - Polymer mortar compositon for repairment - Google Patents

Abstract

A polymer mortar composition for repair is disclosed.
The polymer mortar composition for repair according to the present invention is a polymer mortar composition used for repair work on a concrete structure, comprising: a cement; First silica sand; A second silica sand having an average particle diameter of the first silica sand; A first polymer; And a second polymer having a glass transition temperature different from that of the second polymer. Includes.

Description

Repair polymer mortar composition TECHNICAL FIELD [POLYMER MORTAR COMPOSITON FOR REPAIRMENT}

The present invention relates to a repair polymer mortar composition, and to a repair polymer mortar composition capable of repairing cracks or cracks in concrete structures.

Most building structures or civil structures are constructed using concrete as a basic material. Concrete as described above has excellent compressive strength, economy and durability, and thus can be said to be the most widely used construction material in construction sites so far.

Here, concrete is made of aggregates such as sand and gravel into one lump by using cement as a binder, and is typically used in concrete structures such as houses, roads, bridge skyscrapers, and dams.

In addition, concrete can be made integrally with a high-strength structure with durability in a free shape by using a predetermined formwork, and it is relatively easy and economical to construct, as it can be transported individually, as well as fire resistance performance and fire resistance. It also has the advantage of having seismic performance.

For example, on roads, agricultural sites, or related facilities, drainage facilities are provided to smoothly drain water and use drained water when necessary. These drainage facilities are constructed by continuously arranging a plurality of water pipes or water channel blocks.

Here, the waterway block required to form the waterway is made of a concrete structure. Since the waterway block used for waterway construction has a large size, it is difficult to produce and transport, and there is a problem that a high manufacturing cost and installation cost are required.

On the other hand, as the construction time elapses in such a waterway, damages such as gaps or cracks are generated in the joints of a plurality of waterways forming the waterway or in the waterway itself, so that water flowing into the waterway is leaked.

Accordingly, the waterway requires regular maintenance once every several years. However, in order to repair the waterway, a lot of cost is incurred, and there is a cumbersome problem because the waterway must be regularly repaired.

On the other hand, in the related art, mortar, sealant, etc. are filled in to fill gaps or cracks generated between the joints of a plurality of water channel blocks, or a joint member such as a separate joint or a bracket is used. However, in winter when the temperature is low, there is a problem in that the joint or bracket is frozen and leaked, and the mortar or sealant filled by freezing and thawing is broken and separated from the waterway.

In addition, since the repair work is not permanent, it is necessary to perform the repair work on a periodic basis, and thus there is a problem in that the maintenance work is inconvenient and requires a lot of cost.

Accordingly, the present applicant has proposed the present invention in order to solve the above problems, and as a prior art document related thereto, Korean Patent Publication No. 10-0590517 (name of the invention: mortar for sewage pipe repair, registration date: 2006.06) .09.).

An object of the present invention is to provide a repair polymer mortar composition capable of repairing damage such as cracks or cracks formed due to aging in a concrete structure.

The problem to be solved by the present invention is not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

The above object is, according to the present invention, as a polymer mortar composition used in the repair work for a concrete structure, cement; First silica sand; A second silica sand having an average particle diameter of the first silica sand; A first polymer; And a second polymer having a glass transition temperature different from that of the second polymer. It can be achieved by a polymer mortar composition for repair comprising a.

The first silica sand may have an average particle diameter in the range of 0.15 to 0.30 mm, and the second silica sand may have an average particle diameter in the range of 0.05 to 0.14 mm.

The first polymer may have a glass transition temperature in the range of -60 to -10 °C, and the second polymer may have a glass transition temperature in the range of +10 to +60 °C.

Based on the total weight of the repair polymer mortar composition, the cement is 8 to 12% by weight, the first silica is 19 to 29% by weight, the second silica is 19 to 29% by weight, the first polymer is 16.5 to 24.5% by weight and the second polymer may be blended in an amount of 16.5 to 24.5% by weight.

The cement is usually Portland cement, and the first polymer and the second polymer are each of VAE resin (Vynil Acetate Ethylene resin), acrylic resin, polyurethane resin, water-soluble resin and water-dispersible resin. At least one can be manufactured .

The first polymer and the second polymer are each made of VAE resin (Vynil Acetate Ethylene resin), and the first polymer decreases the glass transition temperature by increasing the content of the vinyl (Vynil) component of the VAE resin, and the second polymer Can increase the glass transition temperature by increasing the content of the ethylene (Ethylene) component of the VAE resin.

The repair polymer mortar composition, a surfactant; And an antifoaming agent.

Based on the total weight of the repair polymer mortar composition, the cement is 8 to 27% by weight, the first silica is 19 to 29% by weight, the second silica is 19 to 29% by weight, the first polymer is 16.5 to 24.5% by weight, the second polymer may be 16.5 to 24.5% by weight, the surfactant is 0.4 to 0.6% by weight, and the antifoaming agent may be blended in an amount of 0.4 to 0.6% by weight.

The repair polymer mortar composition may further include fumed silica for water repellency.

The repair polymer mortar composition is used for repair work on a waterway or a repair work on a road sideway, but may be applied to the waterway or road side in a state where a fabric member is covered on one side of the waterway or roadside port. .

The polymer mortar composition for repair of the present invention can prevent separation from the concrete structure because cement, silica sand, and polymer are mixed and used to repair damaged parts such as cracks or cracks formed due to aging in the concrete structure. Moreover, when it is used for repairing a concrete structure used for waterway construction, the appearance can be improved by smoothing the surface.

In addition, unlike conventional mortars, the polymer mortar composition for repair of the present invention contains a high content of polymer, and the polymer mortar composition containing a high content of polymer is applied to the waterway, thereby improving the resistance to freezing and thawing of the waterway. I can.

1 is a view showing a water channel repaired using a repair polymer mortar composition according to an embodiment of the present invention.
2 is a view showing a road side mouth repaired using a repair polymer mortar composition according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. The present invention may be implemented in various different forms and is not limited to the embodiments described herein.

It should be noted that the drawings are schematic and have not been drawn to scale. Relative dimensions and ratios of parts in the drawings are exaggerated or reduced in size for clarity and convenience in the drawings, and any dimensions are merely exemplary and not limiting. In addition, the same reference numerals are used to indicate similar features to the same structure, element, or part appearing in two or more drawings.

Examples of the present invention specifically represent ideal embodiments of the present invention. As a result, various modifications of the drawings are expected. Accordingly, the embodiment is not limited to a specific shape of the illustrated area, and includes, for example, a modification of the shape by manufacturing.

Hereinafter, a polymer mortar composition for repair according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Polymer mortar composition for repair

The repair polymer mortar composition can be used not only in repair work to fill in damages such as cracks or cracks in concrete structures, but also in construction of concrete structures, that is, new construction and new construction.

Specifically, the polymer mortar composition for repair is applied to one side of a concrete structure to fill in gaps or cracks, and is applied to areas where gaps or cracks are expected to occur.

In the repair polymer mortar composition according to an embodiment of the present invention, the repair polymer mortar composition includes cement, a first silica sand, a second silica sand having a different average particle diameter with the first silica sand, a first polymer, and a first polymer and a glass transition. And a second polymer having a different temperature.

The cement may be an ordinary portland cement, but is not limited thereto.

The first silica sand and the second silica sand have different average particle diameters. For example, the first silica sand to be blended has an average particle diameter in the range of 0.15 to 0.30 mm, and the second silica sand has an average particle diameter in the range of 0.05 to 0.14 mm. In other words, the average particle diameter of the first silica sand is formed larger than the average particle diameter of the second silica sand.

Here, the particle diameter of the first silica sand and the second silica sand is preferably formed to have a size smaller than the particle diameter of the fabric member covered on the concrete structure to which the repair polymer mortar composition is applied, in which the first silica sand and the second silica are mixed.

For example, since the fabric member is formed to have an average particle diameter in the range of 0.3 to 0.5 mm, a first silica sand having an average particle diameter in the range of 0.15 to 0.30 mm and a second silica sand having an average particle diameter in the range of 0.05 to 0.14 mm are blended. The repair polymer mortar composition may penetrate to some extent through a number of through holes in the fabric member.

For reference, the fabric member is to be covered on the concrete structure before the repair polymer mortar composition is applied to the concrete structure. Here, the fabric member is an elastic nonwoven fabric having a plurality of through holes, and when the repair polymer mortar composition is applied, a part of the fabric member may permeate through the plurality of through holes. The fabric member may be formed of any one of polypropylene resin (PP resin), polyethylene resin (PE resin), and polyurethane resin (polyurethane resin; PU resin), but is not limited thereto.

In addition, the size of the plurality of through holes formed in the fabric member is preferably provided within the range of 0.05 ~ 5mm. Moreover, it is preferable that the fabric member has an elastic force, that is, an elongation of 5 to 500%.

When the repair polymer mortar composition is applied while the fabric member is covered on the concrete structure, a part of the applied repair polymer mortar composition penetrates into the fabric member and is interposed between the fabric member and the concrete structure. At this time, the fabric member provided with an elastic non-woven fabric has one side uneven, so it is inevitable to form a space with one side of the concrete structure on which one side is formed flat.

Therefore, the applied repair polymer mortar composition can penetrate into the space formed between the fabric member and the concrete structure through the fabric member, so that the concrete structure, the fabric member, and the repair polymer mortar composition are formed in an integrated structure without a separate adhesive. So that the strength of the concrete structure can be improved.

The first polymer and the second polymer have different glass transition temperatures. In other words, the first polymer has a glass transition temperature in the range of -60 to -10 °C, and the second polymer has a glass transition temperature in the range of +10 to +60 °C. Here, the glass transition temperature means an optimum temperature at which the performance required by the first polymer and the second polymer can be best exhibited. It is preferable that the glass transition temperature of the first polymer according to an embodiment of the present invention is -60°C, and the glass transition temperature of the second polymer is +60°C.

As described above, the first polymer refers to a polymer blended to have a low glass transition temperature, and the second polymer refers to a polymer blended to have a high glass transition temperature.

These first and second polymers include VAE resin (Vynil Acetate Ethylene resin), acrylic resin, polyurethane resin (polyurethane resin), polyethylene terephthalate resin (polyethylene terephthalate resin), water-soluble resin and water-dispersible resin. It can be made of at least one.

The first polymer and the second polymer according to an embodiment of the present invention are preferably made of a VAE resin, and the first polymer decreases the glass transition temperature by increasing the content of the vinyl component of the VAE resin. The polymer may increase the glass transition temperature by increasing the ethylene content of the VAE resin.

In general, concrete structures are often exposed to the outside, so they are very vulnerable to temperature changes. However, it is possible to prepare for low and high temperatures by applying the repair polymer mortar composition to the concrete structure. In other words, it is possible to prepare for a low temperature by the first polymer blended in the repair polymer mortar composition, and to prevent damage or deformation of the concrete structure as much as possible by preparing for a high temperature.

Meanwhile, the repair polymer mortar composition may further include a surfactant and an antifoaming agent. Surfactant is for making the repair polymer mortar composition well mixed, and the antifoaming agent is for suppressing a decrease in strength due to excessive generation of air bubbles when the repair polymer mortar composition is mixed.

Here, the water-retaining polymer mortar composition further comprising a surfactant and an antifoaming agent includes 8 to 27% by weight of cement, 19 to 29% by weight of the first silica sand, and 19% by weight of the second silica sand based on the total weight of the repair polymer mortar composition. ~ 29% by weight, 16.5 ~ 24.5% by weight of the first polymer, 16.5 ~ 24.5% by weight of the second polymer, 0.4 ~ 0.6% by weight of the surfactant, and 0.4 ~ 0.6% by weight of the antifoaming agent may be blended.

For reference, in the polymer mortar composition for repair according to an embodiment of the present invention, it is preferable that the cement is blended in an amount of 8 to 12% by weight.

In addition, the repair polymer mortar composition may further include fumed silica. Fumed silica is for water-repellent effect of concrete structures and has a large surface area and a particle size of 400,000 to 800,000 cm ² /g specific surface area. For example, in the case of a waterway or a sidewalk, the fluidity of water can be improved by the water-repellent effect. Such fumed silica may be blended in an amount of 0.8 to 1.2% by weight based on the total weight of the repair polymer mortar composition.

For reference, silica fume similar to fumed silica is for the absorption effect of concrete structures, and has a relatively smaller surface area than fumed silica and has a specific surface area value of ^{200,000 cm 2 /g.} For example, silica fume may be placed in a void formed between aggregates contained in concrete, thereby making high-strength concrete with a dense structure.

Meanwhile, the repair polymer mortar composition may further include a fluidizing agent. The fluidizing agent is to make the cement, the first silica sand, the second silica sand, the first polymer, and the second polymer well mixed. The fluidizing agent may be blended in an amount of 0.4 to 0.6% by weight based on the total weight of the polymer mortar composition.

Example 1

Referring to Figure 1, a concrete structure using a repair polymer mortar composition, that is, the repair process of the waterway 100 will be described.

First, the waterway 100 refers to a drainage facility installed in a place where drainage is required, such as an agricultural waterway. Referring to FIG. 1, such a waterway 100 is formed by being continuously connected to a plurality of concrete structures, that is, a waterway block 110 through a joint (not shown). For reference, a joint member (not shown) such as a joint or bracket provided separately may be provided at the joint portion of the plurality of channel blocks 110.

When such a channel 100 is used for a long time, a gap or crack is inevitable due to water flowing inside the channel 100, foreign matter contained in the water, or external vibration. In this case, the flow of water flowing through the waterway 100 becomes poor and water leaks out of the waterway 100.

Accordingly, it is necessary to repair the damaged waterway 100.

First, a hole 12 of a required size is formed in the ground 10. At this time, the hole 12 is formed to a size such that the channel block 110 is disposed.

Then, the fabric member 120 is covered on the inner surface of the water channel block 110. In other words, damaged portions (not shown) such as cracks or gaps generated in the water channel 100 are covered using the fabric member 120. For reference, the fabric member 120 is provided with a thickness in the range of 2 to 30 mm, and is preferably provided thinner than the thickness of the repair polymer mortar composition 130 applied to the containing block 110 and the fabric member 120 .

When covering the inner surface of the water channel 100, that is, the water channel block 110 using the fabric member 120, pull tightly to both sides so that the left and right inner surfaces, the bottom surface, and the upper surface of the water channel block 110 are covered. The fabric member 120 is placed in the state. If necessary, that is, when the water channel 100 is exposed to the outside, the water channel block 110 is not exposed to the outside by folding both sides of the fabric member 120 at the edges of the left and right upper surfaces of the fabric member 120 .

For reference, the fabric member 120 pulled taut to both sides is fixed to the waterway block 110 using a position fixing means (not shown) such as a position fixing pin, a concrete taka or a concrete taka pin. The fabric member 120 may prevent freezing of water flowing in the waterway 100.

Then, the polymer mortar composition 130 for repair is applied toward the inner surface of the water channel 100 covered with the fabric member 120, that is, the water channel block 110. The repair polymer mortar composition 130 is applied in a spray manner. As the repair polymer mortar composition 130 is applied to the inner surface of the water channel block 110, the inner surface of the water channel 100 may be smoothed. Accordingly, it is possible to improve the flow of water flowing in the waterway 100 and allow a large amount of water to flow over the same time period.

In addition, as described above, in the case of the polymer mortar composition 130 according to an embodiment of the present invention, the total content of the polymer to be blended is about 50% based on the total weight of the polymer mortar composition 130, Because it includes, it is possible to improve the resistance to freezing and thawing of the waterway (100).

Then, the water channel 100 to which the repair polymer mortar composition 130 is applied is cured.

As described above, when curing the waterway 100 to which the repair polymer mortar composition 130 is applied, the applied repair polymer mortar composition 130 is not only the upper end of the fabric member 120, but also the fabric member 120 It penetrates through and is interposed between the fabric member 120 and one side of the water channel block 110. Accordingly, the water channel block 110, the fabric member 120, and the repair polymer mortar composition 130 are formed as an integrated structure. In other words, even if a separate adhesive is not used, the fabric member 120 can be attached to the inner surface of the waterway 100, that is, the waterway block 110 by the repair polymer mortar composition 130, so that the waterway 100 It is possible to reliably prevent water from leaking in the waterway 100 by reliably repairing the joint (not shown) or the damaged part of the.

Then, UV coating is performed on the side of the waterway 100, that is, the waterway block 110, to block ultraviolet rays on the waterway 100.

For example, acrylic type UV coating may be performed on the water channel 100.

Example 2

Referring to Figure 2, a concrete structure using a repair polymer mortar composition, that is, the repair process of the road side port 200 will be described.

The road side port 200 is located between the sidewalk 10 and the roadway 20 and refers to a drainage facility for draining the sidewalk 20 and the roadway 22. In the road side port 200, a channel (not shown) for drainage is formed in the ground, and a road side port block 210 is positioned on the channel. A drainage member 202 for drainage is provided in the roadside exit block 210.

Such a roadside port 200 is exposed to the outside, and the top surface is damaged due to external environment such as vibration or foreign substances caused by pedestrians of the sidewalk 20 and the roadway 22, and the driving of the vehicle, resulting in a bumpy surface. It can be dangerous for people or pedestrians, and it is not good in terms of aesthetics.

Accordingly, it is necessary to repair the damaged roadside port 200.

First, the fabric member 220 is covered on the upper end of the roadside block 210, that is, the upper end including the damaged portion. The fabric member 220 is preferably provided to be about 2 ~ 30mm thinner than the thickness of the roadside block 210 and the polymer mortar composition 230 for repair to be applied.

When covering the road side block 210 with the fabric member 220, the top surface of the road side block 210 is completely covered in a state that is pulled tightly to both sides. At this time, the road side exit block 210 pulled tightly to both sides is fixed to the road side exit block 210 using a position fixing means (not shown) such as a position fixing pin, a concrete taka or a concrete taka pin.

Then, a repair polymer mortar composition 230 is applied toward the roadside block 210 covered with the fabric member 220. The repair polymer mortar composition 230 is sprayed so that it can be evenly applied to the top surface of the roadside block 210.

In this way, as the repair polymer mortar composition 230 is applied, the top surface of the roadside exit block 210 having a bumpy and damaged surface may be smoothed.

In addition, as described above, since the repair polymer mortar composition 230 contains a polymer having a high content of about 50% compared to the polymer content of about 10% included in a general mortar, It can improve the resistance to freezing and thawing.

Then, the roadside block 210 to which the repair polymer mortar composition 230 is applied is cured.

When curing the roadside block 210 to which the repair polymer mortar composition 230 is applied, the applied repair polymer mortar composition 230 is applied not only to the upper end of the fabric member 220, but also a plurality of fabric members 220 It is interposed between the fabric member 220 and the roadside block 210 through the through hole. That is, even if a separate adhesive means such as an adhesive is not used, the roadside block 210, the fabric member 220, and the repair polymer mortar composition 230 are formed in an integrated structure. Accordingly, it is possible to repair the damaged portion of the road side port block 210 as well as improve the overall strength of the road side port 200.

Then, UV coating, that is, acrylic type UV coating, is performed on the top surface of the roadside block 210. This is to block ultraviolet rays on the roadside block 210 exposed to the outside.

As described above, in one embodiment of the present invention, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but this is provided only to help a more general understanding of the present invention. It is not limited, and various modifications and variations are possible from these descriptions by those of ordinary skill in the field to which the present invention pertains. Accordingly, the spirit of the present invention is limited to the described embodiments and should not be defined, and all things equivalent or equivalent to the claims as well as the claims to be described later belong to the scope of the inventive concept.

10: ground
12: hole
20: India
22: driveway
100: channel
110: channel block
120: fabric member
130: repair polymer mortar composition
200: road side exit
210: road side exit block
220: fabric member
230: repair polymer mortar composition

Claims (10)

As a polymer mortar composition used for repair work/construction on concrete structures,
cement; First silica sand; A second silica sand having an average particle diameter of the first silica sand; A first polymer; And a second polymer having a glass transition temperature different from that of the first polymer,
The repair polymer mortar composition is applied to the concrete structure in a state where a fabric member having a plurality of through holes formed on one side of the concrete structure is covered,
The first silica sand and the second silica sand are formed of the plurality of through holes of the fabric member so that a part of the repair polymer mortar composition penetrates into the space between the fabric member and the concrete structure through a plurality of through holes of the fabric member. It is formed smaller than the size, wherein the first silica sand has an average particle diameter in the range of 0.15 to 0.30 mm, the second silica sand has an average particle diameter in the range of 0.05 to 0.14 mm, and the concrete structure , The fabric member and the repair polymer mortar composition is formed in an integrated structure,
With respect to the total weight of the repair polymer mortar composition, the cement is 8 to 27% by weight, the first silica is 19 to 29% by weight, the second silica is 19 to 29% by weight, the first polymer is 16.5 to 24.5% by weight and the second polymer is blended in 16.5 to 24.5% by weight,
The repair polymer mortar composition further comprises fumed silica for a water repellent effect.
delete The method of claim 1,
The first polymer has a glass transition temperature in the range of -60 to -10 °C,
The second polymer is a repair polymer mortar composition, characterized in that it has a glass transition temperature in the range of +10 ~ +60 ℃.
delete The method of claim 1,
The cement is usually Portland cement,
The first polymer and the second polymer are each made of at least one of a VAE resin (Vynil Acetate Ethylene resin), an acrylic resin, a polyurethane resin (Polyurethane resin), a water-soluble resin and a water-dispersible resin. Polymer mortar composition for repair .
The method of claim 1,
The first polymer and the second polymer are each made of VAE resin (Vynil Acetate Ethylene resin),
The first polymer lowers the glass transition temperature by increasing the content of the vinyl (Vynil) component of the VAE resin,
The second polymer is a repair polymer mortar composition, characterized in that the glass transition temperature is increased by increasing the content of the ethylene (Ethylene) component of the VAE resin.
The method of claim 1,
The repair polymer mortar composition,
Surfactants; And
A polymer mortar composition for repair, characterized in that it further comprises a defoaming agent.
The method of claim 7,
Based on the total weight of the repair polymer mortar composition,
The cement is 8 to 27% by weight, the first silica is 19 to 29% by weight, the second silica is 19 to 29% by weight, the first polymer is 16.5 to 24.5% by weight, the second polymer is 16.5 to 24.5 Weight%, the surfactant is 0.4 ~ 0.6% by weight, and the antifoaming agent is a water-retaining polymer mortar composition, characterized in that blended in 0.4 ~ 0.6% by weight.
delete delete

Images