KR101164623B1 - Mortar composition for repairing concrete structure and using method thereof - Google Patents

Abstract

PURPOSE: A polymer mortar composition for preventing deterioration and repairing cross section of concrete structures and deterioration prevention and cross section repairing methods of structures using thereof are provided to obtain coefficient of thermal expansion and coefficient of elasticity which are similar to concrete structures. CONSTITUTION: A polymer mortar composition for preventing deterioration comprises 100.0 parts by weight of cement, 80-110 parts by weight of silica sand, 15-40 parts by weight of slag, 5-12 parts by weight of garnet, and 0.6-4.0 parts by weight of admixture. The polymer mortar composition additionally includes more than one or more which are selected from 0.05-0.85 parts by weight of hardening accelerator, 12-18 parts by weight of expanding agent, 1.5-6 parts by weight of superplasticizer, 0.5-2.0 parts by weight of cellulose fiber, and 4.5-7.5 parts by weight of re-dispersible polymer powder. deterioration prevention and cross section repairing methods of structures comprise the following steps: chipping and washing deteriorated steel concrete structure; spreading anti-rust reducing agent on the steel reinforcement of the concrete structure; spreading primer on the steel reinforcement and concrete structure; and installing polymer mortar composition for preventing deterioration and cross section repairing on the primer.

Description

Polymer mortar composition for preventing deterioration of concrete structures and repairing cross sections and methods for preventing and deteriorating structures of structures using the same {MORTAR COMPOSITION FOR REPAIRING CONCRETE STRUCTURE AND USING METHOD THEREOF}

The present invention relates to a polymer mortar composition for preventing deterioration and cross-sectional repair of a concrete structure, and to a method for preventing and deteriorating a cross-section of a structure using the same, and more specifically, to salt, alkali aggregate reaction, copper sea, chemical corrosion, neutralization, and the like. Reinforcement of defects in concrete structures such as falling down, weakening of concrete, corrosion of reinforcing bars, lifting, and rebar exposure.

In general, concrete structures have been acknowledged that they can be used semi-permanently because they have high durability, but many recent studies and investigations of existing structures reveal that concrete structures cannot avoid ageing deterioration.

In particular, it is often seen that the original function is lost after decades.

As described above, there are various deterioration phenomena that shorten the life of concrete, but the corrosion of reinforcement by chlorides invading from the outside such as melting concrete or snow removing agent used in winter or manufacturing concrete using sea sand without salt removal The impact of concrete structures has been seriously investigated.

In addition, the reinforced concrete structure is cracked due to tensile stress in the tension-side concrete of the structure, and if the crack width is greater than a certain limit, the surrounding air and moisture invade the cracked portion and corrode the steel, and the infiltrated water freezes in winter. Inflate

It may damage concrete.

In addition, concrete is cracked due to drying shrinkage, temperature change, etc., and the neutralization of concrete at the cracked part and surface of the structure is promoted, and at the same time, the deterioration phenomenon occurs at the concrete part of the structure. There is a problem with the phenomenon.

Therefore, it is necessary to repair or reinforce the defect of the reinforced concrete structure, and the mortar used for the repair and reinforcement should be able to be substantially combined with the existing concrete structure when it is poured in addition to the existing surface or cross section.

However, conventional mortar compositions for cross-sectional recovery have a phenomenon in which the adhesive strength decreases due to the difference between the structure, the thermal expansion coefficient, and the elastic modulus, resulting in peeling and peeling off of the structure. There was a problem.

On the other hand, the Republic of Korea Patent No. 10-0474665, registered in 2005 in order to solve the above problems through the surface treatment to remove the deteriorated portion of the concrete and remove foreign matters through the application of the surface reinforcement mortar for the cross-sectional recovery A technology consisting of coating and finishing with ceramic coating has been proposed. In Korea Patent No. 10-0643524, mortar which recovers concrete corroded by neutralization, East Sea, salt sea and alkali is used for general portland cement and silicon dioxide (SiO _2). ) And a silicate compound and metal in an aqueous solution in which a solid component of mortar is made of a finely divided inorganic curing accelerator and sand containing at least 90% of aluminum oxide (Al ₂ O ₃ ) and dissolved in an organoalkoxy silane or an organo carboxy silane. Section Recovery Using Kneading Mortar with Aqueous Solution Adjusted to pH 11 ~ 12 Containing Oxide It was not. However, common components of these compositions include cement, fine calcium carbonate powder, slag fine powder, swelling agent, gypsum and sand, and various resins or dispersants, air entrainers, fibers and antimicrobial agents have been added to maintain functionality. This situation is not being put to practical use.

The present invention is a problem of the conventional mortar composition for deterioration and reinforcement of the above-described concrete structure, and the difference between the thermal expansion coefficient and the elastic modulus of the mortar composition and the existing concrete used during repair or reinforcement, which is a general problem with the reinforcement method Therefore, the purpose of the present invention is to solve the phenomenon that the adhesive strength is lowered and the peeling and peeling from the structure and the leakage due to the cracking and the lifting phenomenon occurs as time passes.

That is, the mortar composition of the present invention uses a polymer, finely crushed slag and admixture to reduce cracks due to hydration heat and increase the fire resistance, and use cement, expandable material, admixture, slag, etc. to improve stability against shrinkage and expansion. It improves workability due to slag and admixture, reduces cracking due to hydration heat, increases chemical resistance, and increases the strength of cement products, and reduces sagging during construction by increasing cellulose fiber, improves adhesion and cohesion effect. Its purpose is to make the concrete matrix and thermal expansion coefficient and modulus of elasticity almost the same by improving the adhesive strength and improving the strength, wear resistance and durability by using a high hardness material called garnet.

In addition, by preventing the deterioration and cross-sectional repair of the concrete structure by using the mortar as described above, to secure a thermal expansion coefficient and elastic modulus similar to the concrete structure to prevent the peeling and peeling from the structure by increasing the adhesive strength and improved durability, high-permeability epoxy-based By using the primer, the purpose is to prevent and repair the leakage and lifting due to cracking.

The polymer mortar composition for preventing deterioration and cross-sectional repair of the concrete structure of the present invention for achieving the above object is characterized in that it comprises a cement, silica sand, slag, garnet and admixture.

And it is characterized in that it comprises 100 parts by weight of cement, 80 to 110 parts by weight of silica sand, 15 to 40 parts by weight of slag, 5 to 12 parts by weight of garnet and 0.6 to 4.0 parts by weight of admixture.

And one or two selected from the group consisting of 0.05 to 0.85 parts by weight of curing accelerator, 12 to 18 parts by weight of expanding agent, 1.5 to 6.0 parts by weight of fluidizing agent, 0.5 to 2.0 parts by weight of cellulose fiber and 4.5 to 7.5 parts by weight of reemulsified powder resin. It is characterized by further including the above.

And the cement is characterized in that the particle size of 20 ~ 90㎛, the garnet is a particle size of 5 ~ 7㎛.

In addition, deterioration prevention and cross-sectional repair method according to the present invention comprises the steps of chipping and cleaning the deteriorated reinforced concrete structure, the step of applying a rust-reducing agent to the rebar of the chipped and cleaned concrete structure, and the anti-rust reducing agent is applied And applying a primer to the concrete structure, and pouring the polymer mortar composition for preventing degradation and cross-sectional repair on the primer.

The anti-rust reducing agent is characterized in that the composition is composed of a nitrite lithium salt and silane.

The primer is 100 parts by weight of modified epoxy resin, 40 to 75 parts by weight of modified aliphatic amine, 2 to 6 parts by weight of reaction accelerator, 6 to 15 parts by weight of flow modifier and 16 to 30 parts by weight of cement. It is characterized by.

According to the present invention, the high-strength epoxy-based primer and the polymer mortar composition are used to exhibit high strength by exhibiting almost the same coefficient of thermal expansion and elastic modulus as the concrete structure by preventing degradation and cross-sectional repair of the concrete structure. The cross section can be made small, and it has excellent adhesion, abrasion resistance, fatigue resistance, chemical resistance and impact resistance, and recovers and prevents leakage due to peeling peeling and cracking caused by shrinkage and expansion, and lifting of concrete structure surface. To provide useful effects.

The present invention is a repair and reinforcement method by preventing deterioration of concrete structures and restoration of sections, wherein the restoration of sections is performed by cracking by salt, alkali aggregate reaction, east sea, chemical corrosion, neutralization, weakening of concrete, corrosion of steel, lifting, reinforcing bars As a repair method for many defects such as exposure, it is a repair method that partially replaces concrete part.

In addition, the polymer mortar composition for preventing deterioration and cross-sectional repair of the concrete structure of the present invention and the deterioration prevention and cross-sectional repair method of the structure using the same, concrete beams, aqueduct bridge, water and sewage water purification plant, retaining wall, tunnel, underground underground co-hole, water culvert, drainage culvert It can be applied to a wide range of applications, including sewage culverts, concrete repair facilities, manure treatment facilities and water treatment facilities affected by harmful gases, national roads and bridge buildings on coastal or inland areas.

First, the polymer mortar composition for preventing degradation and cross-sectional repair of concrete structures used in the present invention will be described.

The polymer mortar composition for preventing degradation and cross-sectional repair comprises cement, silica sand, slag, garnet and admixture.

The cement is preferably used as the main component of the mortar composition in the present invention having a particle size of 20 ~ 90㎛, portland cement and the like can be used. Limiting the particle size of the cement is to increase the super speed mirror, ultra high strength, corrosion resistance, and to have the same behavior as the concrete structure. Hereinafter, the composition ratio of the polymer mortar composition for preventing degradation and cross-sectional repair is based on 100 parts by weight of the cement.

In addition, the silica sand (SilicaSand) is used as an aggregate, and the weight ratio of ＃ 5: ＃ 6: 7 is mixed at a ratio of 2: 1: 1 to form a common material. Limiting the size of the silica sand is to improve the workability and to reduce cracks, but is not necessarily limited. The silica sand is used as much as 80 to 110 parts by weight in the mortar composition, because if the composition ratio is small, the action is insignificant, and if excessive, the physical properties of the mortar may be lowered.

The slag (slag) serves to reduce the shrinkage, and enhances durability. The slag has a particle size of about 1 to 140 μm, specific gravity of about 1.9 to 2.3, and the shape of the slag is mostly spherical. The slag is used by 15 to 40 parts by weight in the mortar composition, because if the amount of the slag used is small or large, the physical properties of the mortar is reduced.

The garnet (garnet, particle size 5 ~ 7μm, hardness 7.5) is a high hardness to increase the adhesion, and to increase the strength, wear resistance and durability close to the concrete, the garnet is used in 5 to 12 parts by weight in the mortar composition If the usage of the garnet is small or large, the adhesion, wear resistance, etc. are not good.

As the admixture, a silica fume-based one may be used to reduce cracks due to hydration heat, increase fire resistance, and make high strength to improve weather resistance and chemical resistance in the long term. In addition, it is possible to secure excellent adhesion due to the admixture, and it is possible to construct up to 20cm in thickness at one time for other spraying work, and the rebound amount is less than 5% at the time of work, so the dropout rate is small and the work time is shortened by the connection of continuous process. You can. Since the admixture is used in the range of 0.6 to 4.0 parts by weight in the mortar composition, it is difficult to increase the fire resistance when the amount thereof is used in a small amount.

That is, as described above, the polymer mortar composition for preventing deterioration and cross-sectional repair of the concrete structure according to the present invention includes fine particles of cement, silica sand, slag, garnet, and admixture, so that the concrete structure has the same behavior as possible. To ensure good adhesion.

Meanwhile, the polymer mortar composition for preventing deterioration and cross-sectional repair of the concrete structure may further include one or two or more selected from the group consisting of a curing accelerator, an expanding agent, a fluidizing agent, a cellulose fiber, and a reemulsified powder resin. When the composition is further included, it is possible to improve adhesive strength, workability, strength, and the like.

First, the curing accelerator is for promoting the curing rate of the mortar composition. For example, calcium carbonate may be used as the curing accelerator, but the present invention is not necessarily limited thereto. The curing accelerator is used by 0.05 to 0.85 parts by weight in the mortar composition, because if the amount is small it can not accelerate the curing, if the excess amount can rather lower the physical properties of the mortar composition.

The swelling agent can use an aluminite-based (CSA) bar, filling the micro voids in the concrete to form a stable and dense structure in the long term, effective in improving the water-tightness of the concrete and stable strength of the structure, and at the same time, temperature change Since the change of the material is hardly shown, there is an effect of preventing the adhesive force and the peeling phenomenon from occurring due to the temperature change. In the present invention, the mixture of aurine and calcium oxide may be used as the aluminite-based expanding agent, but is not limited thereto. The swelling agent is used by 12 to 18 parts by weight in the mortar composition, because if the use is small, the effect is insignificant, and if excessive, it may cause cracking in the mortar by excessive expansion.

The fluidizing agent may be used in the naphthalene-based, it is to increase the fluidity of the mortar to reduce the unit amount by 20 ~ 30% to reduce the material cost and increase the strength. The fluidizing agent is used in the mortar composition as much as 1.5 ~ 6.0 parts by weight, if the use is small, the material cost reduction and the strength of the effect is not increased, if excessive, the fluidity becomes too large, adhesion is reduced, as well as curing This is because there is a delay problem.

The cellulose fiber is used to increase the water retention to maintain sufficient moisture until the cement finishes the hydration reaction under the exposure environment curing conditions, the viscosity is recovered due to the water escape phenomenon from the cellulose fiber during mixing or construction of the product sag To reduce. The cellulose fiber is used by 0.5 to 2.0 parts by weight in the mortar composition, because the use is less sag, and if excessive, may cause problems in dispersion in the mortar.

The re-emulsified powder resin is used as a polymer, and complements the solidification time, small tensile strength, large dry shrinkage, low chemical resistance, etc. to increase the adhesion between the aggregate, that is, silica sand and cement paste, deformation period of the concrete member It can absorb more fracture energy in the meantime. In addition, since it penetrates into the micro-pore, the effect of combining the hydrated cement with the unhydrated cement can be obtained, and after curing, high strength is expressed early, and the cross section of the member can be made small due to the high strength. Adhesion and wear resistance, fatigue resistance, chemical resistance and impact resistance are excellent. As the re-emulsified powder resin, ethyl vinyl acetate powder resin or SBR powder resin may be used. The re-emulsified powder resin is used in the mortar composition as much as 4.5 to 7.5 parts by weight, because the amount is small, the effect is insignificant and the excess is not economical.

In addition, if necessary, the inorganic thickener may further include Sepiolite (Sepiolite), etc. The Sepiolite may generate hydrate crystals during hydration of cement to improve durability, water tightness and high strength, and to suppress cracking. In addition, the adhesion to the concrete is improved and the workability is improved by the expression of absorbency and fluidity, it is possible to obtain the air shortening effect. Sepiolite is used by 0.5 to 4.0 parts by weight in the mortar composition, because the use is small, the effect is insignificant, and if excessive, rather it may lower the physical properties of the mortar composition.

The polymer mortar composition for preventing deterioration and cross-sectional repair of the present invention as described above has a compressive strength of about 335kgf / cm 2, a bending strength of about 111kgf / cm 2, a tensile strength of about 47kgf / cm 2, and an adhesive strength of about 35kgf / cm 2.

As described above, the polymer mortar composition for preventing deterioration and cross-sectional repair of the concrete structure according to the present invention is non-toxic and eco-friendly, and can be variously constructed such as a spraying method, a plastering method, a concrete pouring method, and easy construction. Property values such as fire resistance, coefficient of thermal expansion and modulus of elasticity are similar to those of concrete structures, and thus do not cause abnormal behavior due to the structure behavior and do not cause structural damage such as peeling peeling or cracking.

That is, the mortar composition of the present invention uses a polymer, finely ground slag and admixture to reduce cracks due to heat of hydration and increase fire resistance. Slag and admixture can improve the workability, reduce cracks due to hydration heat, increase chemical resistance, and increase the strength of cement products. In addition, it is possible to reduce the deflection during construction by using cellulose fiber, and to improve adhesion and cohesion effect, and to improve adhesion by using hardened materials such as garnet, and to increase strength, wear resistance and durability.

Hereinafter will be described the repair and reinforcement method of the concrete structure according to the present invention.

As a first step, the degraded reinforced concrete structures are chipped and cleaned. Since the chipping and cleaning method of the reinforced concrete structure is well known in the art to which the art belongs, a detailed description thereof will be omitted.

Next, the antirust agent is applied to the rebar of the chipped and cleaned concrete structure. Here, as the anti-rust reducing agent, a lithium nitrite salt and silane (SiH ₄ ) are used, and the anticorrosive reducing agent formed of the lithium nitrite salt and the silane is applied with a brush or a roller, so that the corroded rebar surface is prevented from rust reducing and It is the way.

And by applying the primer to the concrete structure damaged by the deterioration of the rebar and the rust-reducing agent is applied, it prevents the progress of deterioration and expresses the initial strength. Here, the primer is a modified epoxy clock primer, specifically, a modified epoxy resin, modified aliphatic amines, reaction accelerators, flow control agents and cement. The composition is based on 100 parts by weight of the modified epoxy resin, 40 to 75 parts by weight of modified aliphatic amine, 2 to 6 parts by weight of reaction accelerator, 6 to 15 parts by weight of flow modifier and 16 to 30 parts by weight of cement. The parts are mixed and preferably made of a liquid phase. Here, as the reaction accelerator, a modified aliphatic amine curing agent may be used, and as the flow adjusting agent, a naphthalene system may be used, but the present invention is not necessarily limited thereto .

Here, the cement can be used as a portland cement, etc. It does not limit the type, by dispersing the ultra-fine particle cement of 20㎛ or less particle size, to increase the permeability of the primer, to minimize the deterioration damage due to the behavior of the structure Increased durability. In addition, the reaction promoter and the flow modifier are added to the composition ratio according to the season and temperature change to increase the permeability and the initial expression strength. In addition, ultra-fine cement is also adjusted within the range of 16 to 30 parts by weight according to the situation to increase the workability and durability.

The modified epoxy clock primer has a low viscosity of 4000 ~ 6000 (25 ℃, cps) is good flow and penetrates to the depth of 3 ~ 15mm of the concrete structure to increase the adhesive strength and durability, since the adhesive strength is more than 20kgf / ㎠ Since there is no peeling, peeling or lifting after recovery, and the tensile elongation is 10% or more, it is possible to prevent cracking and lifting due to deterioration due to the behavior of the structure.

In addition, since the primer according to the present invention does not add a volatile viscosity modifier or diluent, environmentally-friendly cured products are being constructed, the tensile strength is 470kgf / ㎠ or more, the adhesive strength 20kgf / ㎠ or more excellent mechanical properties and elongation of 10% or more It minimizes dry shrinkage and expansion cracks according to the behavior of the structure to prevent peeling peeling and catches leakage and lifting due to cracking.

When the application of the primer is complete, the inorganic polymer cement mortar composition is next poured on the primer. Since the inorganic polymer cement mortar composition has been sufficiently described above, a description thereof will be omitted.

And when the cross-section is restored by completing the casting of the polymer mortar composition for preventing degradation and cross-sectional repair, it is to finish with a water repellent or waterproof coating as needed.

As described above, the present invention has been described by the above embodiments, but various modifications can be made without departing from the scope and spirit of the present invention.

Claims (9)

In constructing the polymer mortar composition for preventing degradation and repair of concrete structures,
100 parts by weight of cement, 80 to 110 parts by weight of silica sand, 15 to 40 parts by weight of slag, 5 to 12 parts by weight of garnet and 0.6 to 4.0 parts by weight of admixtures Mortar composition. delete The method of claim 1,
A polymer mortar composition for preventing deterioration and cross-sectional repair of a concrete structure further comprising one or two or more selected from the group consisting of a hardening accelerator, an expanding agent, a fluidizing agent, a cellulose fiber and a reemulsified powder resin. The method of claim 3, wherein
The polymer mortar composition for preventing degradation and repair of the concrete structure,
100 parts by weight of cement, 80 to 110 parts by weight of silica sand, 15 to 40 parts by weight of slag, 5 to 12 parts by weight of garnet and 0.6 to 4.0 parts by weight of admixture,
One or two or more selected from the group consisting of 0.05 to 0.85 parts by weight of curing accelerator, 12 to 18 parts by weight of expanding agent, 1.5 to 6.0 parts by weight of fluidizing agent, 0.5 to 2.0 parts by weight of cellulose fiber and 4.5 to 7.5 parts by weight of reemulsified powder resin. Polymer mortar composition for preventing deterioration and cross-sectional repair of a concrete structure further comprising. The method of claim 1,
The cement has a particle size of 20 ~ 90㎛, the garnet is a polymer mortar composition for preventing degradation and cross-sectional repair of the concrete structure, characterized in that the particle size of 5 ~ 7㎛. Chipping and cleaning the degraded reinforced concrete structure,
Applying an antirust agent to the rebar of the chipped and cleaned concrete structure;
Applying a primer to the reinforcing bar and concrete structure to which the rust-reducing agent is applied;
A method of preventing and deteriorating a concrete structure, comprising the step of pouring the polymer mortar composition for preventing degradation and cross-sectional repair of any one of claims 1 to 5 on the primer. The method according to claim 6,
The anti-rust reducing agent is a deterioration prevention and cross-sectional repair method of a concrete structure, characterized in that composed of lithium nitrite salt and silane. The method according to claim 6,
The primer is a modified epoxy clock resin, modified aliphatic amines, reaction accelerators, flow modifiers and cement, characterized in that the degradation prevention and cross-sectional repair method of the concrete structure. The method of claim 8,
The primer is characterized by comprising 100 parts by weight of modified epoxy resin, 40 to 75 parts by weight of modified aliphatic amine, 2 to 6 parts by weight of reaction accelerator, 6 to 15 parts by weight of flow modifier and 16 to 30 parts by weight of cement. Prevention of deterioration and repair of concrete structures.