KR20040018090A - Epoxy reinforce composition for concrete construction - Google Patents

Abstract

PURPOSE: Epoxy reinforcement for a concrete structure is provided, to improve the deteriorated concrete structure and to prevent the plastered one from flowing down. CONSTITUTION: The epoxy reinforcement comprises 100 parts by weight of a first composition which comprises 70-80 wt% of an epoxy base resin, 7-13 wt% of a three functional groups-having reactive diluent, 5-7 wt% of a urethane modified epoxy resin, 1.5-2.5 wt% of pentabromodiphenyl oxide, 3.8-5 wt% of silicon oxide, 4-6 wt% of carbon fiber chip with a size of 3-6 mm, and 0.7-1.5 wt% of glass fiber chip with a size of 3-6 mm; 25 parts by weight of a second composition which comprises 55-65 wt% of a polyamide curing agent, 20-30 wt% of a methylene diamine curing agent, 10-15 wt% of a polypropylene amine curing agent, 10-13 wt% of triethylene tetramine and 5-10 wt% of a piperazine mixture; and 0.5 wt% of a diethylene triamine mixture post-added on the spot.

Description

Epoxy reinforce composition for concrete construction

The present invention relates to an epoxy reinforcing agent of a concrete structure, and more specifically, a carbon fiber chip or glass fiber chip is dispersed and gelled in an epoxy gel, but the liquid functional epoxy resin as a main component, trifunctional resin having an epoxy structure, And resin which mudified resin with urethane to epoxy structural formula. Reactive diluents, plastisols. Antifoaming agent, carbon fiber chip, glass fiber chip, component and hardening agent polyamide. A three-part gel repair reinforcement agent consisting of an aliphatic amine, an aromatic amine, an accelerator, and a small amount of coagulation control component, and an epoxy composition used as a cross-sectional recovery and reinforcement mortar for concrete structures in which carbon fiber chips are compressed and embedded in an epoxy resin. will be.

Epoxy flooring agent composed of portant cement and inorganic material in a conventional water-soluble type containing epoxy resin as a main component is Korean Patent Registration No. 167858 developed by the present inventor, and the epoxy multifunctional in the method of repairing the concrete surface using the composition of the present invention. Using a primer (currently re-applied as an epoxy multi-functional primer adhesive and under the recommendation of the Korea Testing & Research Institute, which is being evaluated by the Invention Promotion Agency), apply a multi-functional primer adhesive on the surface of the existing deteriorated or submerged damaged concrete structure, The reinforcing agent prepared in the present invention is crimped to wall, ceiling, and floor to 1 / mm-up to 30 / mm, and the detached and damaged parts can be formed indefinitely to make workability convenient. In addition, as a reinforcing function, the present invention relates to a reinforcing agent that is lightweight, and has excellent physical and mechanical properties, tensile strength, compressive strength, and tensile modulus.

Conventional concrete repair reinforcement using epoxy resin, it uses the epoxy permeable primer containing a large amount of solvent as a primer to cause the adhesive member and concrete neutralization. The main function is to neutralize harmful gases in strong solvents and to reduce the harmful effects on the human body at work. In addition, as a reinforcing agent, recently, a high-performance carbon fiber glass fiber mat is applied by laminating it with an epoxy resin. In the mortar method, a mortar method in which stainless steel wire mesh is fixed on a concrete surface and cement is bonded to a polymer resin is used. This is being applied.

Although these methods are much more advanced methods than the related arts, they have no problems in terms of functionality, convenience and light weight. Originally, carbon fiber is a high-performance fiber and is widely applied and widely used as a building reinforcement agent. In the carbon fiber reinforcement method, an epoxy resin having excellent mechanical properties among chemical resins is mainly used. Has a big change in Conventionally, in the method of stacking multiple layers on a deteriorated concrete surface using epoxy resin on a thin mesh-shaped cross mat, a thick one-way sheet, which is more dense and spaceless than the conventional one, is constrained by a plastic resin to the fabric of the network. Although the resin is used to adhere to the concrete surface and then covered with the resin, it is constructed by infiltration, but the workability is convenient, but the efficacy is rather halved. The reason is that the ultrafine fiber strands of the unidirectional carbon fiber sheet including general permeable primer adhesion based on physical properties are 1.5 / -2 / mm thick in the state of being pressed and restrained. This is because the high viscosity and sticky epoxy resin can not penetrate smoothly, and the fibers and the fibers are densely formed to prevent proper flow of the resin. In addition, the one-way carbon fiber reinforcement method can not be the same as the shrinkage expansion of the concrete due to the non-shrinkable expansion of the carbon fiber can easily occur in the construction of the external exposed area. In addition, in the process of polymer mortar using stainless steel wire mesh, the process of manufacturing and installing steel wire mesh is complicated, and the mortar properties are not much different from general concrete and have a thickness of 20 / mm or more. Mechanical properties, light weight, and convenience of work, which are essential requirements, are pointed out as problems.

The present inventors have re- filed a water-soluble epoxy multi-functional primer adhesive (Application No. 10-2002-0030103) for the part which secured the functionality to the Korean patent registration (No. 167858) developed by the present inventor in order to fundamentally secure such a problem. ), 40-50% by weight of epoxy base resin, 25-35% by weight of one or more non-reactive diluents selected from ethyl cellosolve and N-butanol, 2-4% by weight of spirantage phenol oxide polyalkylene reactive emulsifier, silicone 1-3 weight% of dioxide coagulant, 0.01-0.1 weight% of polysiloxane defoaming agent, 10-25 weight% of water, 60-70 weight% of amine curing agent, and phenolic accelerator 1-10 based on 100 parts by weight of the first composition of the resin component % By weight, 20-35% by weight of ethyl cellosolve non-reactive diluent, 10-40 parts by weight of the second composition of the curing component, 80-95% by weight of cement, 1-10% by weight of alumina, 1-10% by weight of calcium hydroxide Third composition of filler component containing 30-7 By mixing three components composed of 0 parts by weight in the field to prevent deterioration of the concrete underneath the concrete, as well as to improve the reinforcing agent function of the present invention with excellent adhesion.

As described above, the present invention by using the epoxy resin according to the use of the epoxy resin according to the purpose of the structural reinforcement method in the conventional building reinforcement method using a high-performance carbon fiber mechanical, physical functionality, light weight, convenience The aim is to provide reinforcing agents that are economically viable.

In addition, the present invention is as a gel composition by dispersing, bonding and compressing the carbon fiber chip and glass fiber chip in the epoxy resin as a composition in the reinforcing agent composition that is directly compressed and plastered on the deteriorated concrete surface by directly mixing in the field as follows.

The present invention relates to an epoxy base resin in a concrete structure reinforcement using a base epoxy resin and an epoxy resin of a special constituent having easy properties, an epoxy resin having a trifunctional group, a carbon fiber chip, a glass fiber chip, a flocculant, a curing agent, and a curing accelerator. In combination with the special resin, using a reactive diluent to give the proper viscosity and viscosity (adhesion) with the plasticizer, and prevents the carbon fiber glass fiber chip from flowing during reinforcement in the composition to disperse and compress the optimum amount in the resin 70-80% by weight of epoxy base resin, 7-13% by weight of reactive diluent having trifunctional group, urethane mud epoxy epoxy resin in the composition including mold release property and curing agent accelerator for aromatic, aliphatic and amines 5-7% by weight, flame retardant pentabromo dipenyl oxide 1.5-2.5% by weight, flocculant silicone jade 55-65 weight% of polyamide hardening | curing agents and metaxylene with respect to 100 weight part of resin compositions containing 3.8-5 weight% of carbon, 4-6 weight% of carbon fiber chips, and 0.7-1.5 weight% of glass fiber 20-30% by weight of diamine, 10-15% by weight of polypropylene amine, 10-13% by weight of triethylene tetra amine, 5-10% by weight of a mixture of accelerator pyrazine, 25-33 parts by weight of a second composition of the curing component It is a composition characterized in that it has a cross-sectional recovery and reinforcement function to the deteriorated concrete structure.

Referring to the present invention in more detail as follows.

The present invention is a state-of-the-art method based on the multi-functional experiments of the Korea Testing and Research Institute through consultation and inquiries on the structure of epoxy composition and architectural engineering. The present invention relates to a reinforcing agent composition and construction method to prevent deterioration caused by structural damage and to restore the structure of the collapsed structure to its original state.

According to the present invention, the composition of the resin and the appropriate content of carbon fiber and glass fiber chip in the composition having high practicality, light weight, convenience, and economical efficiency are also improved to increase the bending modulus and reinforcement function. Dispersion compressor method including this as an element is also an important factor. And the proper amount of glass fiber occlusion plays a role of dispersing evenly between carbon fiber and "nano" ultra-fine fiber and fiber.The specific gravity is light and not flowing, and it is mixed in the field to show mold release property and freely. In the case of walls or ceilings, the thickness is up to 1 / mm-20 / mm and the damaged parts are made alone or in combination with silica sand to have an infinite thickness so as to have a smooth workability.

On the other hand, in the composition method of the composition, the mudide resin and the trifunctional resin are first mixed with the epoxy base resin, and then heated at 60 to 70 ° C., where a small amount of glass fiber and a flame retardant are added to the high speed mixing. Allow the glass fiber to be completely dispersed, and then mix it in high speed with a small amount of carbon fiber. Then, add a plasticizer and mix it slowly and thoroughly to mix. Then, use a compressor to increase the density of the compressed fiber resin and remove air (bubble) very slowly. Lightly mill twice with a roller mill. At this time, if the compression is hardened quickly or tightly closed, the original shape of the fiber is damaged and it is impossible to function properly.

In the curing agent composition, polyamide curing agent-modified methacrylate diamines, polypropylene amines, and triethylenetetraamines having different properties are combined with each other, and an accelerator is added and mixed according to the temperature difference according to the season.

This reinforcing agent is deteriorated or decayed by mixing three components including the composition of the first composition, the curing agent of the second composition, and the diethylenetetraamine mixture to increase the cohesiveness at the site of 100 / g: 25 / g: 0.5 / g. Apply the epoxy multifunctional repair (coating) adhesive developed by the inventors to the concrete surface of the concrete surface and press the gel reinforcement incorporating carbon fiber and a small amount of glass fiber to the thickness according to physical force It can be preferably used in concrete structures that require repair and reinforcement functions by curing.

Looking specifically at the function and effect of the reinforcing agent composition in the present invention, carbon fiber, glass fiber mat or recently preferred carbon fiber sheet is a one-way or cross-process method by laminating a high viscosity epoxy resin on the concrete surface Although it has a limit of resistivity in four or more lamination methods, the reinforcing agent formed in the present invention has multi-directional attraction resistance by dispersing, compressing, and embedding carbon fiber glass fiber chips in the resin, and evenly arranging the resin between the fibers. To increase its efficacy.

This effect not only increases the flexural strength from the extreme load on the weak part of the tensile strength of the concrete structure, but also artificially deteriorates, carelessness of undesigned workers, and natural deterioration such as ultraviolet rays, moisture, and acid rain (kalysulfite, carbon monoxide, fluorocarbon). By blocking the contact from the concrete properties can greatly improve the preservation of concrete.

In addition, the present invention uses Korean Patent No. 167858, which is a re-application of the composition, which is used for repairing and finishing the cross-section in a concrete structure, and using the epoxy resin for the cross-sectional restoration and reinforcement using the reinforcing agent developed in the present invention. It prevents the peeling phenomenon appearing in the non-bonding method in the process using the and improves the flexural strength and the seismic resistance by making it possible to express the integration as well as the convenience of construction as a repair, reinforcement.

In particular, in the present invention, after finishing the reinforcing work should be selected freely, until now it is pointed out that the surface of the surface using the epoxy can not be selected according to the purpose of the finish. For example, the surface coated with epoxy resin has a high density and no unevenness, so only epoxy resin shows affinity, so that various finishes could not be selected.

In the present invention, when the multi-functional primer adhesive is applied by increasing the amount of filler on the upper surface of the cross-sectional restoration or reinforcement coating using epoxy resin, fine unevenness is formed on the cured surface to form matte irregularities, so that oily and water-based painting can be performed in addition to the acrylic alkyd resin having non-binding properties. It is easy to finish freely.

Meanwhile, according to the present invention, the intermediate of the liquid epoxy base resin is a reactive diluent trifunctional epoxy resin, an urethane mud-depth epoxy resin to increase elasticity, a petabromo resin to impart flame retardancy, and even carbon steel and ultrafine carbon fiber. A glass fiber supporting the distribution and a reinforcing agent composed of polyamide, metha xylenediamine, polypropylene amine, triethylene tetraamine, and an accelerator as a curing agent are mixed at the work site with the resin component and the cured component mixed in the above blending ratio and greatly cohesive. It adds after diethylene triamine mixture to increase, and is used, fully stirring.

The use composition of each used component of the three-component system used as described above is as described above, but more specifically, when blending more preferably, 70-80% by weight epoxy base resin, 7-13% by weight trifunctional epoxy resin, urethane mud Epoxy resin 5-7% by weight, flame retardant pentabromo diphenyl oxide 1.5-2.5% by weight, flocculant silicon oxide 3.8-5% by weight, carbon fiber chip 4-6% by weight, glass fiber chip 0.7-1.5% by weight It is preferable to form a first composition of the resin component by heating the carbon fiber chip glass fiber chip dispersion by heating and then compression and milling.

The second composition of the curing component is more preferably 55-65% by weight of polyamide, 20-30% by weight of metaxylenediamine, 10-15% by weight of polypropylene amine, and 10-15% by weight of triethylenetetraamine promoter. It is preferable to comprise 5-10% by weight of the razin mixture, and in order to increase the cohesiveness in the field, the triethylene tetraamine mixture is mixed with 100 parts of the first composition and 25 parts by weight of the second composition, and 0.5% of the flocculation regulator is mixed therein. It is preferable to use. This blending ratio is the optimum blending ratio obtained from various experimental results and field adaptation experiments. Epoxy resins or curing agents having different properties in the composition may be used, but the desired physical properties may not be obtained, and only ratio composition of the components may have physical properties as a reinforcing agent.

In addition, in the present invention, a pigment may be added in addition to the composition. As the pigment, an inorganic or organic pigment may be used. The addition amount may be used in 1-3 parts by weight based on 100 parts by weight of the main composition of the first composition. Specific examples include sio2-white, chromium-green, chadmium-red, ferrocyanides-blue, chromates-yellow, charbon-block, etc., and a pigment (pigment) in the main base resin in a weight ratio of 100: It is prepared by mixing and milling to 50 to 100: 100 and then adding it to the invented composition.

As described above, by applying the three-component reinforcing agent prepared in accordance with the present invention to the concrete structure deteriorated by the above-described method exhibits excellent physical and mechanical properties.

Hereinafter, the present invention will be described in detail with reference to Examples. However, the present invention is not limited to the Examples.

Example

1. Preparation of Resin Components (1st Composition)

2. Preparation of hardening components (second composition)

3.Agglomeration regulator

(11) As a primary amine mixture in the field of the composition: 100: 50 weight ratio of the composition of the composition: 0.5g of the coagulant control agent is mixed again with it, strong cohesiveness can be exhibited so as not to flow to facilitate the operation.

The composition is not limited to the examples.

The chemical component names and sources of the actual products used in the composition are as follows.

(1) Epoxy base resin: YD-128, Kukdo Chemical

(2) Reactive diluents: aliphatic polyglycidyl ether trifunctional resins

(3) Mudded resins: Urethane mud-modified epoxy resins.

(4) Flame Retardant: Pentabromo dipaniloxyde, manufactured by USA Grade Lakers

(5) Coagulant: silicon dioxyde

(6) carbon fiber chip: (carbon fiber chop)

(7) glass fiber chip: (glass fiber chop)

(8) Curing agent: polyamide National chemicals

(9) Curing agent: metatar xylen di amine

(10) Curing agent: polypropylene amine (poiy pro plene amine), Texas, USA

(11) Curing agents: triechylen tetramine

(10) Promoters: piperazine mixtures manufactured by Texark, Inc.

(11) Primary amines: diechylen tri amine (USA)

Experimental Example

The first, second, and third compositions prepared according to the above embodiments were mixed to 100: 25: 0.5 parts by weight, and then applied to the concrete surface degraded under extreme load and cured. The construction method is to clean the surface using a grinder on the virtual surface of the concrete structure, and then add the composition to the weight ratio in order and mix it well, and then compress and plaster it after 25 hours 48 hours. This was excellent.

After preparing the concrete test specimen and applying the multifunctional primer adhesive developed by the inventor to the base surface, the composition was cured by applying the composition to the cured surface layer with thickness of 5 / mm and 10 / mm, respectively. Fit test specimens were prepared and measured for tensile strength, tensile modulus and elasticity. As a result of measuring adhesion with concrete, the result of tensile strength of 582 (kgf / ㎠) and tensile modulus of 39.624.15 × 10 ⁴ (kg / ㎠) for 34 (kgf / ㎠) 5 / mm thickness and for 10 / mm thickness The strength was 906.75 (kgf / cm 2). The tensile modulus was 46.596.25 × 10 ⁴ (kg / cm 2).

From the above results, the reinforcement prepared according to the present invention was applied to the deteriorated concrete surface, and it was found to be very useful as a reinforcing agent because of its ease of application and excellent adhesion, tensile strength, and tensile modulus of elasticity. .

As described above, the reinforcing agent according to the present invention comprises a resin component composed of an epoxy base resin trifunctional reactive diluent, a mud feed resin, a flame retardant, a flocculant, a carbon fiber chip, a glass fiber chip, and a polyamide curing agent, metaxylene The composition comprising a diamine polypropylene amine triethylene tetra amine hardener, a piperazine-based mixture accelerator, a curing component comprising and a flocculation modifier die- ethylene triamine mixture used in the post-addition, has excellent properties and new process unlike the prior art. As a result, the present inventors developed a patent registration No. 167858 flooring material by applying the composition (re-applied with the multifunctional epoxy) to the surface of the deteriorated concrete structure by applying the cross-sectional repair and primer agent to the surface of the deteriorated concrete structure, and using the reinforcing agent formed in the present invention. The method of plastering on the concrete surface We review the effect of improving the (highly functional, lightweight, convenience and affordability) uniformly equipped because the books deterioration of concrete structures.

Claims (2)

Concrete reinforcing agent mainly composed of epoxy resin, characterized in that it does not flow during compression and plastering of concrete structure due to the cohesive force when mixing the main body and the hardener in the gel state where carbon fiber chip or glass fiber chip is mixed with liquid epoxy resin. Concrete section epoxy section repair and reinforcement. According to claim 1, wherein the reinforcing agent 70-80% by weight epoxy base resin. 7-13% by weight of reactive diluent having trifunctional group, 5-7% by weight of urethane mud-depth epoxy resin, 1.5-2.5% by weight of flame retardant pentabromo diphenyl oxide, 3.8-5% by weight of flocculant silicon oxide, carbon fiber chip (3 / mm-6 / mm) Polyamide curing agent 55- with respect to 100 parts by weight of the first composition of the resin component containing 4-6% by weight, 0.7-1.5% by weight of glass fiber chips (3 / mm-6 / mm) Preparation of the hardening component comprising 65% by weight, 20-30% by weight of the metaxylene diamine curing agent, 10-15% by weight of the polypropylene amine curing agent, 10-13% by weight of the triethylene tetraamine, and 5-10% by weight of the piperazine mixture. 2 composition of 25 parts by weight and the epoxy reinforcement of the concrete structure, characterized in that consisting of 0.5% by weight of the die- ethylene triamine mixture used in the post-addition.