KR101982186B1 - Repairing Method for Pavement on Bridge Using Ultra Rapid Modified Mortar and concrete Composition with Bio-Polymer - Google Patents

Abstract

The present invention relates to a repair method for pavement on a bridge deck by using a rapid hardening modified mortar composition and a rapid hardening modified concrete composition each including a biopolymer, comprising: a repair target surface cleaning step of removing and cleaning foreign substances on a surface of a bridge deck to be repaired; a primer layer formation step of forming a primer layer on the clean surface to be repaired; a composition pavement step of paving a rapid hardening modified mortar composition including a biopolymer; and a curing step of curing the rapid hardening modified mortar composition including a biopolymer.

Description

Technical Field [0001] The present invention relates to an ultra rapid modifying mortar composition containing a biopolymer and a method of repairing a pavement using ultra rapid modifying concrete composition.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pavement pavement construction method using a quick-release modified concrete composition containing a biopolymer.

In recent years, more than 5,000 tons of horns have been imported from China in the south coast and the Jeju Island coast, causing serious damage to farms and fishing boats. As the hot weather continues, odor of environmental deterioration becomes a big problem. The incoming pollutants are corroded and odor is generated, and the environmental pollution is proceeding, and it causes social and economic damages because huge costs are incurred in the treatment of horns. Especially, it is not easy to apply hoe hoe mackerel from China to Korea through algae because of its inherent limit due to severe contamination.

The purpose of the bridge pavement is designed and constructed to protect the bridge deck from impacts due to traffic loads, various chemical erosion and other weather conditions while ensuring the running ability of the vehicle. In the case of concrete bridge pavement, LMC (Latex Modified Concrete) method has been developed to improve the excellent crack prevention effect, waterproof property, and adhesion performance because it can not satisfy the design life due to local cracks, breakage and deterioration due to chloride penetration. The commercial cost of the synthetic polymer increases the construction cost, resulting in poor economical efficiency and environmental pollution due to the separation of latex after concrete hardening.

Patent Document 001 discloses a method for removing a packing layer using a road surface crusher; After the removal of the pavement layer, the pavement was used to remove the waterproof layer and to flatten the surface layer of the irregularities. In order to increase the adhesive force of the concrete, the deteriorated part of the concrete, floating stone and contaminants were removed using a shot blaster or water jet, A surface treatment step of cleaning the surface; After the surface treatment step, 0.1 to 6% by weight of alkali silicate, 5 to 60% by weight of partially hydrophobized water-soluble silica sol, 30 to 50% by weight of a solvent and 0.1 to 10% by weight of boric acid are mixed Applying a surface layer strengthening agent to the substrate; Casting quick-setting acrylic modified concrete; A step of stopping the pavement surface using a double vibrator or a concrete finisher so that the poured concrete is flat with the existing pavement surface; And a stabilizing step of stabilizing the surface by using a longitudinal tilting machine to prevent slipping in a state where it is not completely cured immediately after stopping and spraying a surface protective agent to prevent the initial cracking of the concrete and to improve the quality thereof It is a cross-pavement method using hard acrylic modified concrete and surface strengthening agent. It can be used for quick construction, excellent bonding with existing pavement, quick-hard acrylic modified concrete and superficial reinforcement to ensure excellent long-term strength and durability. It is aimed to provide a pavement pavement method.

Patent Document 002 discloses a method of manufacturing a semiconductor device, Casting the composition with impregnated mortar on the cleaned face; Placing a concrete composition for paving pavement on a surface on which the mortar composition for impregnation is placed; The mortar composition for impregnation comprises 100% by weight of cement; Wherein the concrete composition for cross-pavement comprises 100 wt% of cement, 10 to 40 wt% of an alumina powder, 10 to 16 wt% of calcium aluminosulfate, 10 to 16 wt% of anhydrous gypsum, 55 to 70 wt% , 8 to 15 wt% of fly ash, 0.1 to 1 wt% of an anticorrosive agent, aggregate, and water. In the present invention, the quality, workability, And to solve the problems such as cost and economy.

Patent Document 003 discloses a method for producing a latex modified concrete composition, which comprises: forming a latex modified concrete composition; A latex modified concrete composition; Wherein the step of forming the latex modified concrete composition comprises the step of mixing the liquid latex comprising the first latex particles and the second latex particles having different characteristics from the first latex particles, Mixing the two liquid latexes to form a mixed liquid latex; Mixing the mixed liquid latex with cement and aggregate; Forming a first latex particle and a second latex particle into a single layer, wherein the first latex particle and the second latex particle comprise a styrene-butadiene rubber latex, wherein the glass transition temperature of the second latex particle is at least one of a first Wherein the first latex particle and the second latex particle have a glass transition temperature lower than the glass transition temperature of the latex particle and the glass transition temperature of the second latex particle is in the range of 13 degrees to 22 degrees, 2 latex particles are larger than the average size of the first latex particles, the average size of the first latex particles is 180 nm to 210 nm, the average size of the second latex particles is 240 nm to 300 nm, The latex particles are contained in an amount larger than that of the second latex particles, 80 to 93 parts by weight of the first latex particles are contained in 100 parts by weight of the total of the plurality of latex particles, Wherein the butadiene content of the second latex particles is less than the butadiene content of the first latex particles and the butadiene content of the first latex particles is from 32 to 38 parts by weight based on 100 parts by weight of the total of the first latex particles, Wherein the butadiene content of the second latex particles is 25 to 30 parts by weight based on 100 parts by weight of the total of the second latex particles, the first latex particles have a single structure, the second latex particles have a core- Wherein the core of the second latex particle has a larger volume than the shell of the second latex particle and the shell of the second latex particle and the shell of the second latex particle comprise a styrene-butadiene rubber latex, To a method of constructing a pavement pavement layer comprising a latex modified concrete having a lower glass transition temperature of the shell of the second latex particle than the glass transition temperature The present invention provides a method of constructing a pavement pavement layer including a latex modified concrete capable of improving characteristics of a pavement pavement layer.

KR 10-0849528 (August 06, 2008) KR 10-2009-0087742 (August 18, 2009) KR 10-1827960 (February 13, 2018)

The present invention has been developed in the context of the above-mentioned situation, and utilizes a biopolymer existing in the horn-breeder habitat as a typical construction material in which a synthetic polymer latex is used, and a cement-based composition capable of using a biopolymer And to develop eco-friendly construction materials and commercialization technology that exceeds the performance of conventional concrete pavement repairing materials. In order to solve the problems of latex concrete, it is necessary to utilize the biopolymer of alginic acid from Chinese horns, and to overcome the limitation of concrete modification technique which is dependent on existing synthetic latex, and various requirements (structural performance, durability, Workability, etc.), a repair method using a composition for a bridge pavement, and a construction method.

The present invention relates to a method of repairing pavement packing using a quick-release modified mortar composition containing a biopolymer, the method comprising the steps of: cleaning a surface to be cleaned after removing foreign matter on the surface to be paired; A primer layer forming step of forming a primer layer on a surface to be cleaned; A step of installing a composition for installing a quick-release modified mortar composition including a biopolymer; And a curing step of curing the quick release modified mortar composition containing the biopolymer.

The step of cleaning the surface to be cleaned includes removing the contaminants using a shot blaster or a water jet and removing the contaminants through the inhaler to improve adhesion between the surface to be cleaned and the primer layer.

The primer layer to be applied to the primer layer forming step may be one or more of (meth) acrylate resins, polymerizable unsaturated monomers and (meth) acrylate among urethane (meth) acrylate resin, epoxy (meth) acrylate resin or polyester And a one-component or two-component primer composition containing a curing agent.

The primer layer fills a gap formed in the surface of the substrate to be repaired, and is excellent in adhesion, so that the adhesion between the surface to be treated and the quick-setting modified mortar composition including the biopolymer can be improved, thereby improving durability.

(Meth) acrylate resin has excellent permeability and adhesion with aggregates, thereby filling voids formed on the surface of the substrate to be repaired, and improving adhesion with the ultra rapid modified mortar composition including the upper biopolymer It is most effective for.

The surface protective agent spraying step further comprises spraying a surface protective agent between the composition laying step and the curing step.

The surface protective agent includes at least one material selected from water-soluble polyurethane, styrene-butadiene latex, acrylic emulsion, ethyl vinyl acetate, silane compound and modified sodium silicate compound.

The surface protective agent functions to prevent initial breakage such as initial cracking of the installed mortar composition.

The method of constructing a bridge pavement using the ultra rapid modified concrete composition including the biopolymer according to the present invention minimizes the use of the synthetic polymer to prevent the economical efficiency from being increased due to the increase in the construction cost due to the use of the synthetic polymer, The problem of environmental pollution due to separation can be solved. In addition, by using polluted seaweeds, environmental problems can be solved and at the same time, they can be recycled, thereby generating economic high value-added.

FIG. 1 shows a process of pulverizing a biopolymer (collection step, washing step, salinity measurement step, drying step, preservation step).
FIG. 2 shows a process of pulverizing a biopolymer (crude pulverization step, triple pulverization step).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, numerous specific details are set forth, such as specific elements, which are provided to aid in an overall understanding of the present invention, and it is to be understood that the present invention may be practiced without these specific details, It will be obvious to those who have it. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

(Example 1-1)

The present invention relates to a method of repairing pavement packing using a quick-release modified mortar composition containing a biopolymer, the method comprising the steps of: cleaning a surface to be cleaned after removing foreign matter on the surface to be paired; A primer layer forming step of forming a primer layer on a surface to be cleaned; A step of installing a composition for installing a quick-release modified mortar composition including a biopolymer; And a curing step of curing the quick release modified mortar composition containing the biopolymer.

(Example 1-2)

The present invention relates to a method for repairing pavement packing using a biocompatible ultra-quick modified mortar composition, and further includes a surface protecting agent spraying step of spraying a surface protective agent between the curing step and the curing step in Example 1-1 do.

(Example 1-3)

The present invention relates to a method for repairing pavement packing using a freshly modified mortar composition including a biopolymer. In the method of cleaning a surface to be cleaned in Example 1-1, a shot blaster, Removing the contaminants using a water jet, and removing contaminants through the inhaler.

(Examples 1-4)

The primer layer used in the primer layer forming step in Example 1-1 is a urethane (meth) acrylate resin, an epoxy (meth) acrylate resin, 1-part type or 2-pack type primer composition comprising at least one (meth) acrylate resin, a polymerizable unsaturated monomer and a curing agent in a (meth) acrylate resin or a polyester (meth) acrylate resin.

The primer layer fills a gap formed in the surface of the substrate to be repaired, and is excellent in adhesion, so that the adhesion between the surface to be treated and the quick-setting modified mortar composition including the biopolymer can be improved, thereby improving durability.

(Meth) acrylate resin has excellent permeability and adhesion with aggregates, thereby filling voids formed on the surface of the substrate to be repaired, and improving adhesion with the ultra rapid modified mortar composition including the upper biopolymer It is most effective for.

(Example 1-5)

The present invention relates to a method for repairing pavement packing using a freshly modified mortar composition containing a biopolymer, wherein the surface protective agent is a water-soluble polyurethane, styrene-butadiene latex, acrylic emulsion, ethylvinylacetate, silane Based compound and a modified sodium silicate compound.

The surface protective agent functions to prevent initial breakage such as initial cracking of the installed mortar composition.

(Example 2-1)

The present invention relates to a method for repairing pavement packing using a biomolecule-containing quick-release modified mortar composition. In Example 1-1, the quick-release modified mortar composition containing a biopolymer, , Biopolymers, fine aggregates and water.

(Example 2-2)

The present invention relates to a method of repairing pavement packing using a quick-release modified mortar composition containing a biopolymer. In Embodiment 2-1, cement is used as cement.

The fast curing cement is a bonding material applied as a concrete repair material for bridge pavement. It contains a large amount of calcium aluminate-based minerals, and if it is kneaded with water, it produces hydration minerals such as etrin zai to rapidly develop strength.

(Example 2-3)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer. In Example 2-1, the fine aggregate is a natural grain of round particles, and the content of silicon dioxide is at least 98% .

(Example 2-4)

The present invention relates to a method for repairing pavement packing using a quick-release modified mortar composition containing a biopolymer, wherein the synthetic polymer is a styrene-butadiene rubber in the form of a liquid, 54% is applied. 64.5 to 67.5% by weight of styrene and 32.5 to 35.5% by weight of butadiene.

(Example 2-5)

The present invention relates to a method of repairing pavement packing using a quick-release modified mortar composition containing a biopolymer. In Example 2-1, the biopolymer is a seaweed and includes a hornblende.

(Example 2-6)

The present invention relates to a method of repairing pavement packing using a quick-release modified mortar composition containing a biopolymer, wherein the quick-release modified concrete composition containing a biopolymer further comprises a high-performance fluidizing agent and a retarding agent .

(Example 2-7)

The present invention relates to a method for repairing pavement packing using a freshly modified mortar composition containing a biopolymer. In Example 2-6, the high performance fluidizing agent includes a polycarboxylic acid-based high-performance water reducing agent.

Since cement particles have a large specific surface area, they have the property to form and stabilize agglomerates in mixed water. In the case of a polycarboxylic acid-based high-performance water reducing agent, it adsorbs on the particles and disperses by the repulsive force. Therefore, as the substitution ratio of the biopolymer increases, the specific surface area increases, which is applied to secure a certain flow. In addition, in the case of a high-performance fluidizing agent, the dispersibility of the cement particles is remarkably improved compared with general fluidizing agents, and workability is greatly improved without increasing the water-cement ratio.

Also, high performance fluidizers can prevent the expected decrease in fluidity when a liquid synthetic latex is replaced with a biopolymer.

(Example 2-8)

The present invention relates to a method for repairing pavement packing using a biocompatible quick-release modified mortar composition, and in Example 2-6, the retardant comprises citric acid (citric acid). Delay agents delay the condensation of cement at very fast speeds and are effective for hot weather and other purposes such as summer and can be seen to have a large effect in small amounts. Mainly organic acids and salts are used. They are composed of water-soluble and very fine particles and are uniformly dispersed and exhibit the best effect at pH neutralization.

(Example 3-1)

The present invention relates to a method of repairing pavement packing using a quick-release modified mortar composition containing a biopolymer. In Example 2-1, the biopolymer is a seaweed, and includes a hornblende.

(Example 3-2)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition including a biopolymer. In Example 3-1, the chemical components through the spectroscopic analysis of the horns of the horns were 66.2% of silicon oxide (SiO2) Wollastonite 11.7%, and aluminum oxide (Al2O3) 3.2%.

(Example 3-3)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer. In Example 3-1, the pearl mortar is pulverized through a pulverizing step.

(Example 3-4)

The present invention relates to a method of repairing pavement packing using a fresh-modified mortar composition containing a biopolymer. In the embodiment 3-3, the powdering step includes a step of collecting the horns, a step of washing the horns, The step of measuring moth salt salinity, the step of drying the horns, the step of preserving the dried horns, and the step of crushing the horns.

(Example 3-5)

The present invention relates to a method for repairing pavement packing using a freshly modified mortar composition containing a biopolymer. In Example 3-4, the step of washing the horns is performed until the salinity of the wash water is less than 0.1% The drying step is carried out in a dryer maintained at a dry temperature of 60 to 80 ° C until the constant amount is reached.

(Example 3-6)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer, wherein in the embodiment 3-4, the step of preserving the pike horns is performed in a dry and airtight chamber, Prevent penetration.

(Example 3-7)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer. In Example 3-4, the crushing step of the hornslip mortar comprises a coarse crushing step and a three crushing step using a ball mill, A limestone fine powder is added during the pulverization step.

The limestone fine powder is added in an amount of about 1 to 5% by weight of the object to be ground, so as to improve the storage stability by effectively pulverizing and preventing the re-agglomeration phenomenon of the pulverized material.

(Example 4-1)

The present invention relates to a method for repairing pavement packing using a quick-release modified mortar composition containing a biopolymer. In the practical example 2-6, an average particle diameter of the biopolymer is 60 占 퐉 or more and 80 占 퐉 or less.

(Example 4-2)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer, wherein the water of the freshness-modified mortar composition containing a biopolymer is 50%, the fine aggregate 300 %, And biopolymer is 12%. The fluidizing agent also contains 0.3% of the total volume.

(Example 4-3)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer, wherein the flow of the freshly modified mortar composition including the biopolymer is 170 mm or more, the air content is 4.8% or less, Absorbency 4.7% or less, 4 hours compressive strength 21 MPa or more, 4 hour aging bending strength 4.5 MPa or more, 4 hours Aging strength 1.4 MPa or more.

For the flow test, KS F 2467 'Test method of polymer cement mortar', KS F 2421 'Air content test method by pressure method of unreinforced concrete - Air chamber pressure method', absorption rate, compressive strength, bending strength And adhesion test were carried out according to KS F 2476 'Test method of polymer cement mortar'.

(Example 4-4)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer, wherein the water of the freshness-modified mortar composition containing a biopolymer is 50%, the fine aggregate 300 %, Synthetic polymer 4%, and biopolymer 8%. The fluidizing agent also contains 0.2% of the total volume.

(Example 4-5)

The present invention relates to a method for repairing pavement packing using a freshly modified mortar composition containing a biopolymer, wherein the flow rate of the freshly modified mortar composition including the biopolymer is at least 230 mm, the air content is at most 3.5% The water absorption rate should be 3.2% or less, the 4-hour compressive strength 22.5 MPa or more, the 4-hour aging bending strength 5.2 MPa or more, and the 4-hour aging adhesion strength 1.7 MPa or more.

(Example 4-6)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer, wherein the water of the freshness-modified mortar composition containing a biopolymer is 50%, the fine aggregate 300 %, Synthetic polymer 8%, biopolymer 4%. The fluidizing agent also contains 0.1% of the total volume.

(Example 4-7)

The present invention relates to a method of repairing pavement packing using a freshly modified mortar composition containing a biopolymer, wherein the flow of the fresh mortar composition containing a biopolymer is 250 mm or more, the air content is 3.3% or less, The water absorption rate is 2.73% or less, the 4-hour compressive strength is 24.2 MPa or more, the 4-hour aging bending strength is 6.1 MPa or more, and the 4-hour aging adhesion strength is 1.9 MPa or more.

The mortar strength of the concrete repair material for the pavement pavement was found to satisfy the above-mentioned criteria in the above Examples 4-2 to 4-7, with the 4-hour age-based compressive strength of 21 MPa, the flexural strength of 4.5 MPa and the adhesion strength of 1.4 MPa.

OPC URHC L12BH0 L8BH4 L4BH8 L0BH12 L0BH16 L0BL12 L0BL16 Flow (mm) 170 170 280 250 230 170 150 175 150 Air volume (%) 5.4 5.9 2.8 3.3 3.5 4.8 5.1 5.2 5.8 Absorption Rate (%) 5.26 5.02 1.34 2.73 3.20 4.66 5.56 5.21 6.26 Compressive strength (MPa) - 21.1 7.0 24.2 22.5 21.3 14.9 17.0 11.9 Flexural strength (MPa) - 5.7 8.7 6.1 5.2 4.9 3.5 3.9 3.0 Bond strength (MPa) - 0.5 1.4 1.9 1.7 1.4 1.1 0.9 0.6

Here, OPC refers to mortar with ordinary Portland cement without synthetic polymer and biopolymer, URHC refers to mortar with ultra rapid cement without synthetic polymer and biopolymer, L12BH0 to L0BL16 refers to mortar with ultra rapid cement , L12 and the like are mixed with the synthetic polymer, BH0 and the like are mixed with a biopolymer having a particle diameter of 60 탆 or more and 80 탆 or less, and BL12 is mixed with a biopolymer having a particle diameter of 60 탆 or less.

(Example 5-1)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modifying concrete composition containing a biopolymer, comprising: a bridge cleaning step of removing foreign matter on a bridge surface before cleaning; A primer layer forming step of forming a primer layer on the cleaned face; A step of installing a composition for installing a quick-release modified concrete composition containing a biopolymer; And a curing step of curing the quick-release modified concrete composition containing the biopolymer.

(Example 5-2)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modifying concrete composition comprising a biopolymer, wherein the surface protective agent spraying step spraying a surface protective agent is further provided between the step of curing the composition and the step of curing do.

(Example 5-3)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modifying concrete composition comprising a biopolymer, wherein in the step 5-1, the bridge bridge cleaning step uses a shot blaster or a water jet to improve the adhesion between the bridge and the primer layer Removing the contaminants, and removing contaminants through the inhaler.

(Example 5-4)

The primer layer used in the primer layer forming step in Example 5-1 is a urethane (meth) acrylate resin, an epoxy (meth) acrylate resin, One or two-component primer composition containing at least one (meth) acrylate resin, a polymerizable unsaturated monomer and a curing agent in a (meth) acrylate resin or a polyester (meth) acrylate resin.

The primer layer fills the gaps in the base material cross-section and is excellent in adhesion with the waterproof layer, so that the adhesion between the cross-section and the quick-release modified concrete composition including the biopolymer can be improved and durability can be improved.

(Meth) acrylate resin is excellent in permeability and adhesion to aggregate so that the voids in the base material bridge are filled, and the ultra rapid modifying concrete composition containing the upper biopolymer and the urethane (meth) effective.

(Example 5-5)

The present invention relates to a method of applying a pavement pavement using an ultra rapid modified concrete composition containing a biopolymer, wherein the surface protective agent is a water-soluble polyurethane, styrene-butadiene latex, acrylic emulsion, ethylvinylacetate, silane Based compound and a modified sodium silicate compound.

The surface protective agent functions to prevent initial breakage such as initial crack of the laid concrete composition.

(Example 6-1)

The present invention relates to a pavement pavement construction method using a quick-release modified concrete composition containing a biopolymer. In Example 5-1, the quick-release modified mortar composition containing a biopolymer, which is applied to the step of installing a composition, , Aggregate and water.

(Example 6-2)

The present invention relates to a method of pavement pavement construction using a quick-release modified concrete composition containing a biopolymer. In the embodiment 6-1, cement is used as cement paste.

 (Example 6-3)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modifying concrete composition comprising a biopolymer, wherein the aggregate comprises fine aggregate and coarse aggregate, fine aggregate of 5 mm or less is used, For coarse aggregate, use crushed gravel of 20mm or less.

(Example 6-4)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modified concrete composition containing a biopolymer. In Example 6-1, the biopolymer is a seaweed and includes a hornblende.

(Example 6-5)

The present invention relates to a pavement pavement construction method using a quick-response modified concrete composition containing a biopolymer, wherein the quick-release modified concrete composition containing a biopolymer further comprises a high-performance fluidizing agent.

(Example 6-6)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modified concrete composition comprising a biopolymer. In Example 6-5, the high performance fluidizer contains a polycarboxylic acid-based high-performance water reducing agent.

Since cement particles have a large specific surface area, they have the property to form and stabilize agglomerates in mixed water. In the case of a polycarboxylic acid-based high-performance water reducing agent, it adsorbs on the particles and disperses by the repulsive force. Therefore, as the substitution ratio of the biopolymer increases, the specific surface area increases, which is applied to secure a certain flow. In addition, in the case of a high-performance fluidizing agent, the dispersibility of the cement particles is remarkably improved compared with general fluidizing agents, and workability is greatly improved without increasing the water-cement ratio.

Also, high performance fluidizers can prevent the expected decrease in fluidity when a liquid synthetic latex is replaced with a biopolymer.

(Example 7-1)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modified concrete composition containing a biopolymer. In the sixth to sixth embodiments, the average particle diameter of the biopolymer is not less than 60 μm and not more than 80 μm.

(Example 7-2)

The present invention relates to a pavement pavement construction method using a quick-change modified concrete composition containing a biopolymer. In the pavement pavement construction method according to Example 7-1, 38% of the cement weight of the ultra rapid modified concrete composition containing a biopolymer is 38% 4%, 6%, 8%, and 10%, respectively. Also, the fine aggregate weight, which is the weight of the fine aggregate relative to the total aggregate, is 55%.

(Example 7-3)

The present invention relates to a pavement pavement construction method using an ultra rapid modified concrete composition comprising a biopolymer. In the case of Example 7-2, the high performance fluidizing agent has a mixing amount of the biopolymer of 4% And 0.06%, respectively, for 0.04%, 8%, and 0.08%, respectively, of the volume of the ultra rapid modified concrete composition containing the biopolymer in the case of 6%.

(Example 7-4)

The present invention relates to a method of constructing a bridge pavement using a ultra rapid modified concrete composition comprising a biopolymer, wherein the flow of the ultra rapid modified concrete composition containing a biopolymer is at least 160 mm, the air content is at most 5.6% A compression strength of 21 MPa or more for 4 hours, a 4-hour age-dependent flexural strength of 4.5 MPa or more, and an aging adhesion strength of 1.1 to 1.5 MPa for 4 hours.

The flow test was carried out by KS F 2402 'Concrete slump test method', the air content was measured by KS F 2421 'Air content test method by pressure method of unreinforced concrete - Compressed air pressure method' and the compressive strength of KS F 2405 ' Test method ', Bending strength is KS F 2408' Bending strength test method of concrete ', Bond strength is ASTM C1583-04' Test Method for Tensile Strength of Concrete Surfaces and Tensile Strength of Concrete Repair and Overlay Materials by Direct Tension Pull-off Method '.

URHC L12BH0 L0BH4 L0BH6 L0BH8 L0BH10 L0BH12 Flow (mm) 210 210 185 175 175 160 160 Air volume (%) 4.6 4.8 4.5 4.7 5.6 5.3 5.7 Compressive strength (MPa) 28.0 26.1 25.4 26.4 23.2 22.8 22.6 Flexural strength (MPa) 3.8 6.2 5.8 5.5 5.4 5.2 4.8 Bond strength (MPa) 0.8 1.6 1.5 1.1 1.3 1.5 0.8

Here, URHC represents a mortar to which the synthetic polymer and the fly ash cement are not added, L12BH0 to L0BL16 are cemented with ultra fast cement, and L12 and the like are mixed with the synthetic polymer and BH0 has a particle size of more than 60 μm Lt; RTI ID = 0.0 > um < / RTI >

(Example 8-1)

The present invention relates to a pavement pavement construction method using a quick-release modified concrete composition containing a biopolymer. In Example 5-1, the quick-release modified mortar composition containing a biopolymer, which is applied to the step of installing a composition, , Aggregate and water.

(Example 8-2)

The present invention relates to a pavement pavement construction method using a quick-release modified concrete composition containing a biopolymer. In the eighth embodiment, cement is used as a cement paste.

 (Example 8-3)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modifying concrete composition comprising a biopolymer, wherein the aggregate includes fine aggregate and coarse aggregate, fine aggregate has a size of less than 5 mm, For coarse aggregate, use crushed gravel of 20mm or less.

(Example 8-4)

The present invention relates to a cross-linked paving method using an ultra rapid modified concrete composition containing a biopolymer. In the eighth embodiment, the biopolymer is a seaweed, and includes a horn-sided mackerel.

(Example 8-5)

The present invention relates to a pavement pavement construction method using an ultra rapid modified concrete composition containing a biopolymer, wherein the ultra rapid modified concrete composition containing a biopolymer further comprises a high performance fluidizing agent and a curing accelerator .

(Example 8-6)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modified concrete composition containing a biopolymer. In the concrete example 8-5, the high performance fluidizer contains a polycarboxylic acid-based high-performance water reducing agent.

Since cement particles have a large specific surface area, they have the property to form and stabilize agglomerates in mixed water. In the case of a polycarboxylic acid-based high-performance water reducing agent, it adsorbs on the particles and disperses by the repulsive force. Therefore, as the substitution ratio of the biopolymer increases, the specific surface area increases, which is applied to secure a certain flow. In addition, in the case of a high-performance fluidizing agent, the dispersibility of the cement particles is remarkably improved compared with general fluidizing agents, and workability is greatly improved without increasing the water-cement ratio.

Also, high performance fluidizers can prevent the expected decrease in fluidity when a liquid synthetic latex is replaced with a biopolymer.

(Example 8-7)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modifying concrete composition containing a biopolymer. In Example 8-5, the curing accelerator includes lithium carbonate.

Curing accelerators used in cement can be divided into two types, organic and inorganic. Organic salt-based curing accelerators include amines, organic acids such as acetic acid and acrylic acid, lithium carbonate, and sodium carbonate. Amines react with gypsum to form etyrinite, and among the hydrates formed, etrinzite promotes the progress of the reaction with monosulfate to promote hydration. The inorganic salt curing accelerator includes calcium chloride, a fluoride, a silicate, a thiosulfate, and a calcium formate.

(Example 9-1)

The present invention relates to a method of constructing a pavement pavement using an ultra rapid modified concrete composition containing a biopolymer. In the eighth concrete example, the average particle diameter of the biopolymer is 60 占 퐉 or more and 80 占 퐉 or less.

(Example 9-2)

The present invention relates to a pavement pavement construction method using a quick-release modified concrete composition containing a biopolymer, wherein in the pavement pavement construction method according to the embodiment 9-1, the water content of the cement weight of the ultra rapid modified concrete composition containing the biopolymer is 38% Can apply 4%, 6%, 8%, 10% and 12%, respectively. Also, the fine aggregate weight, which is the weight of the fine aggregate relative to the total aggregate, is 55%.

(Example 9-3)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modified concrete composition comprising a biopolymer. In the case of Example 9-2, the mixing amount of the biopolymer in the high performance fluidizer is 4% 0.02% for 6%, 0.12% for 8%, 0.16% for 10%, and 0.2% for 12%, respectively, relative to the volume of the ultra rapid modified concrete composition containing the biopolymer .

(Example 9-4)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modified concrete composition comprising a biopolymer. In the case of Example 9-2, the curing accelerator is a biocompatible ultra rapid modified concrete composition 0.2% and 0.4%, respectively, of the volume of the water.

(Example 9-5)

The present invention relates to a method of constructing a bridge pavement using an ultra rapid modified concrete composition including a biopolymer, wherein the flow of the ultra rapid modified concrete composition containing a biopolymer is at least 210 mm, the air content is at most 5.6% Compressive strength of 21 MPa or more for 4 hours, 4-hour aging bending strength of 4.5 MPa or more, and 4 hours aging adhesion strength of 1.4 MPa or more.

The flow test was carried out by KS F 2402 'Concrete slump test method', the air content was measured by KS F 2421 'Air content test method by pressure method of unreinforced concrete - Compressed air pressure method' and the compressive strength of KS F 2405 ' Test method ', Bending strength is KS F 2408' Bending strength test method of concrete ', Bond strength is ASTM C1583-04' Test Method for Tensile Strength of Concrete Surfaces and Tensile Strength of Concrete Repair and Overlay Materials by Direct Tension Pull-off Method '.

BP4 BP6 BP8 BP10 BP12 0.2 0.4 0.6 0.2 0.2 0.2 0.2 0.4 0.6 0.2 0.4 0.6 0.2 0.4 0.6 Flow
(mm) 210 210 210 210 210 Air volume
(%) 4.9 4.9 5.2 4.7 4.8 5.0 5.6 5.4 5.5 5.3 5.2 4.9 4.9 5.1 4.6 Compressive strength (MPa) 25.1 26.5 24.4 24.8 27.0 22.8 22.6 24.7 20.8 21.8 22.8 20.0 21.7 23.7 20.0 Flexural strength (MPa) 4.60 4.65 4.20 4.65 4.80 4.55 4.80 5.00 4.45 4.63 4.80 4.18 4.61 5.03 4.25 Bond strength (MPa) 1.50 1.85 1.60 1.56 1.95 1.60 1.70 1.89 1.60 1.75 1.95 1.65 1.80 1.96 1.60

Here, BP4 represents the amount of incorporation with the biopolymer, and the numbers 0.2, 0.4 and 0.6 represent the incorporation amount of the added curing accelerator.

While the embodiments of the present invention have been described in detail with reference to various embodiments thereof, those skilled in the art will readily appreciate that the embodiments described in the Detailed Description of the Invention can be used interchangeably, It is to be understood that the invention is not limited to the described embodiments, but the invention is also encompassed by the invention in combination with various embodiments.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will readily appreciate that many modifications are possible, And the scope of the present invention should be understood as being within the scope of the following claims and their equivalents.

Claims (6)

In a method of repairing a pavement using a quick-release modified mortar composition including a biopolymer,
A cleaning target surface cleaning step of removing foreign matter on the surface to be subjected to the polishing treatment and cleaning;
A primer layer forming step of forming a primer layer on a surface to be cleaned;
A step of installing a composition for installing a quick-release modified mortar composition including a biopolymer;
A curing step of curing the quick-release modified mortar composition containing the biopolymer;
A surface protective agent spraying step of spraying a surface protective agent between the composition applying step and the curing step;
The primer layer to be applied to the primer layer forming step may be a one-component type or a two-component type including a methacrylate resin, a polymerizable unsaturated monomer and a curing agent among urethane methacrylate resin, epoxy methacrylate resin or polyester methacrylate resin Those comprising a liquid primer composition;
The surface protective agent may include at least one material selected from water-soluble polyurethane, styrene-butadiene latex, acrylic emulsion, ethyl vinyl acetate, silane compound and modified sodium silicate compound;
The biopolymer being formed into a powdered Horns moth with a powdered step;
Wherein the pulverizing step comprises a step of collecting the horns, a step of washing the horns, a step of measuring the washed horns, a step of drying the horns, a step of preserving the dried horns, a step of crushing the horns,
Wherein the step of washing the horns is performed at a salinity of the washing water of less than 01%;
Wherein the step of drying the horns is carried out at a drying temperature of 60 to 80 DEG C in a dryer, and a method of repairing the pavement using the ultra rapid modified mortar composition comprising the biopolymer.
delete The method according to claim 1,
The step of cleaning the surface to be cleaned comprises the step of removing the contaminants using a shot blaster or a water jet and removing the contaminants through the inhaler to improve the adhesion between the surface to be cleaned and the primer layer. A method of repairing pavement pavement by using a modified mortar composition containing a quick release.
delete delete A method of repairing a pavement using a quick-release modified concrete composition containing a biopolymer,
A cleaning target surface cleaning step of removing foreign matter on the surface to be subjected to the polishing treatment and cleaning;
A primer layer forming step of forming a primer layer on a surface to be cleaned;
A step of installing a composition for installing a quick-release modified concrete composition containing a biopolymer;
A curing step of curing the quick-release modified concrete composition containing the biopolymer;
A quick-release modified mortar composition containing a biopolymer, which is applied to the step of applying the composition, includes a curing accelerator, a fluidizing agent formed of a hypersulfur cement, a horn slurry, an aggregate, water, a polycarboxylic acid-based water reducing agent;
The aggregate is formed of a fine aggregate and a coarse aggregate. The fine aggregate is made of a lattice of 5 mm or less, the coarse aggregate is made of a slag of 20 mm or less;
Wherein the average diameter of the horns is in the range of 60 탆 to 80 탆;
The powdered powder is obtained by a powdering step, which comprises a step of collecting the horns, a step of washing the horns, a step of measuring the salted horns of the horns, a step of drying the horns, a step of drying the horns, Formed during the preservation stage of the moth, and the crushing stage of the horns;
The step of washing the horns is carried out until the salinity of the washing water is less than 01%, and the drying step of the horns is formed in a dryer maintained at a drying temperature of 60 to 80 ° C;
Wherein the curing accelerator is formed of lithium carbonate. 2. The method of claim 1, wherein the curing accelerator is lithium carbonate.

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