KR101151832B1 - A reducing noise-drainage pavement for improving permanence and paving method thereof - Google Patents

Abstract

The present invention provides a packaging method for packaging a low noise drainage package with improved durability, the base layer forming step of forming a base layer by paving the asphalt concrete mixed with aggregate and asphalt 4 cm or more; A mixing process of preparing a filler by mixing an adhesive having a particle size of 0.1 to 1.5 and an adhesive having a viscosity of 600 to 900 cps containing a methyl methacrylate (MMA) resin; And it relates to a durable drainage package and its packaging method comprising a filling step of filling the filler material with a surface porosity of 15 to 25% of the base layer to 0.1 ~ 0.8kg / ㎡.

Description

Low noise drainage package with improved durability and its packaging method {A REDUCING NOISE-DRAINAGE PAVEMENT FOR IMPROVING PERMANENCE AND PAVING METHOD THEREOF}

The present invention relates to a drainage pavement with improved durability and a method for packaging the same, in particular, after the drainage asphalt concrete pavement is packaged, durability to prevent the degradation of the durability of the pavement caused by the aggregation of the surface due to the movement of the vehicle, etc. This improved drainage package and its packaging method.

The pavement of the road is different depending on the person passing through it. In general, concrete or asphalt concrete is paved on the road for moving the vehicle, and sidewalk blocks are mainly used on roads where people move. It is usually wrapped in stone or gravel.

As for conventional or recent roads, asphalt concrete having excellent water resistance, adhesiveness, elasticity, impact resistance, friction resistance, and easy processing is used as a paving material.

The spread of drainage pavement began in recent years and became standard construction method on expressway and city highway by having traffic safety and noise reduction function, but leave problem in the durability depending on common condition

However, drainage asphalt concrete pavement is easy to form wheel marks by traffic load, and in the case of surface drainage type pavement, water puddles may be created at the wheel marks, and when the drainage asphalt concrete is laminated on the road surface, In the drainage surface layer, asphalt combined with aggregate receives the traffic load of auto window repeatedly, and large amounts of aggregate are separated, destroyed, and worn by the frictional force of tires of cars, spike tires or chains, and eventually pavement. This is destroyed.

In addition, powder, such as aggregate caused by fracture or abrasion, in the drainage asphalt concrete pavement blocks the internal voids of the pavement, and the drainage function is deteriorated, and the voids in the pavement due to the deformation of the pavement due to the traffic load. It may decrease gradually, leading to poor drainage.

In addition, the asphalt concrete asphalt is significantly reduced in its properties due to the action of sunlight and oxygen in the air, the bond strength between the aggregates of the drainage asphalt concrete pavement is further lowered, resulting in surface failure, wear and consolidation To promote.

Therefore, many of the currently drained asphalt concrete pavement had a problem that requires continuous repair work.

The present invention was invented to increase the durability of the drainage asphalt concrete pavement as described above, by filling the surface voids with a filler so as not to reduce the drainage function of the drainage asphalt concrete pavement to further strengthen the bonding strength between aggregates wear and aggregate An object of the present invention is to provide a drainage package having improved durability against scattering and the like.

In addition, an object of the present invention is to provide a packaging method of a water-resistant drainage package having improved durability, such as packaging the drainage package having improved durability.

The present invention provides a packaging method for packaging a low noise drainage package with improved durability, the base layer forming step of forming a base layer by paving the asphalt concrete mixed with aggregate and asphalt 4 cm or more; A mixing process of preparing a filler by mixing an adhesive having a particle size of 0.1 to 1.5 and an adhesive having a viscosity of 600 to 900 cps containing a methyl methacrylate (MMA) resin; And a filling process of filling the filler with a surface porosity of 15 to 25% of the base layer at 0.1 to 0.8 kg / m 2, thereby providing a method for packaging a low noise and drainage package having improved durability.

In addition, the mixing process is a method for packaging a low noise and drainage package with improved durability, characterized in that for mixing the adhesive containing the aggregate and methyl methacrylate (MMA) resin in a weight ratio of 85:15 ~ 95: 5. to provide.

In addition, the adhesive provides a method for packaging a low noise drainage package having improved durability, characterized in that it further comprises a photocurable adhesive.

In addition, there is provided a packaging method of the low noise drainage package with improved durability characterized in that it further comprises a pigment in the adhesive.

In addition, there is provided a packaging method of the low noise drainage package with improved durability, characterized in that the rubber powder is added in the mixing process.

In addition, it provides a packaging method of the low noise and drainage package with improved durability, characterized in that the addition of the thermal coating coating process after the filling process.

In addition, there is provided a low noise drainage package with improved durability characterized in that the packaging method.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

As used herein, the terms 'about', 'substantially', and the like, are used at, or in close proximity to, numerical values when manufacturing and material tolerances inherent in the stated meanings are set forth, and an understanding of the present invention may occur. Accurate or absolute figures are used to help prevent unscrupulous infringers from unlawful use of the disclosure.

The present invention forms a base layer 100 of asphalt concrete mixed with aggregate and asphalt in a package packaging method including a base layer forming process, a mixing process, and a filling process, as shown in FIG. The present invention relates to a packaging method and a package for packaging a low noise drainage package having improved durability by filling surface pores of a base layer.

When the porosity of asphalt concrete is measured by the method of KS F 2364, the formula is as follows.

Porosity = {1- (apparent density / theoretical maximum density)} X 100

The apparent density is obtained by KS F 2446 and the theoretical maximum density is obtained by KS F 2366.

Usually, the porosity of drainage asphalt concrete measured by the method as described above is 14 to 20%. This is because when the porosity is less than 14%, the drainage is lowered, so it may be difficult to smoothly perform the drainage function, and when the porosity exceeds 20%, the asphalt concrete may be degraded due to the decrease in strength.

In addition, the surface porosity is a ratio of the total unprinted portion without color pigments to the total surface area of the paper by applying color pigments on the surface of the asphalt concrete, as if printed with 100 ~ 200g / ㎡ paper. Same as

Surface porosity = (unprinted area / paper total area) x 100

In general drainage asphalt concrete, the surface porosity of the water-based asphalt concrete is 40 ~ 60%, and many aggregates are formed between the aggregate and the aggregate with large particle size, and the depth of the bone is formed deeper than the general concrete asphalt. .

When the aggregate between the aggregate and the aggregate is subjected to the load, after weakening the binding force between the aggregates, after packaging, the binding force between the aggregates is weakened as the package is used, the aggregate is released.

As shown in FIG. 2, the package of the present invention fills the surface voids of the base layer 100 with a filler mixed with an aggregate and forms a filler 200 to increase the bonding force between the aggregates to form a surface by traffic load. It prevents the aggregate from falling off by preventing the binding force between the aggregates.

When filling the bone between the aggregates as described above, the surface porosity of the package is too low may reduce the drainage of the package. In order for the drainage property of a drainage package not to fall, it is preferable to form surface porosity similar or slightly higher than an internal porosity.

Therefore, the surface porosity should be adjusted to be similar to the internal porosity of the package during the filling process of filling the surface pores with the filler of the present invention.

The surface porosity of the low noise drainage package of the present invention will be preferably 15 to 25% of the aggregate separation layer.

The base layer forming process of the present invention is a process of forming a base layer 100 by paving asphalt concrete mixed with aggregate and asphalt 4 cm or more can be used on the market as general asphalt concrete mixed with aggregate and asphalt, but improved physical properties It would be desirable to use modified asphalt for this purpose.

The modified asphalt is preferably a modified asphalt mixed with asphalt 60 to 95% by weight, rubber powder 4.8 to 35% by weight, polyphosphoric acid 0.2 to 5% by weight.

Preferably, the high powder is a decured rubber powder, and the decured rubber powder gives pressure to the rubber powder so that mechanical pressure and thermal energy due to shear force accumulate as internal energy of the injected material and explode to crush. What is manufactured by the method can be used. The decured rubber powder prepared in this way is chemically activated at the surface of the particle size, and the surface of the particle forms a microporous pore structure, thereby maximizing the surface area, thereby resulting in chemical reactivity and physical adsorption and chemical adsorption by the micropores ( Improved chemisorption improves the properties of asphalt.

The polyphosphoric acid (PPA) used in the present invention is a condensed acid produced by concentrating orthophosphoric acid or hydrating phosphorus pentoxide [H _{n + 2} P _n O _{3n + 1} ] or It is represented by [H (HPO ₃ ) _n OH].

Commercially available polyphosphoric acid is specified by the P ₂ O ₅ or H ₃ PO ₄ equivalent expressed in percent relative to the weight of the acid. Thus there is a so-called superphosphate classification, its H ₃ PO ₄ equivalent is greater than 100. In the present invention, a condensation acid of 105 to 120% can be used.

The amount of the polyphosphoric acid (PPA) is preferably 0.01% by weight or more, preferably 0.2-5% by weight, based on 60 to 95% by weight of asphalt. If the amount is less than 0.2% by weight, the use effect is insignificant, and if the amount is more than 5% by weight, excessive viscosity increase may occur, which may be vulnerable to low temperature cracking.

As described above, the modified asphalt prepared by mixing asphalt, rubber powder, and polyphosphoric acid has excellent physical properties than asphalt because each component organically acts on each other.

The modified asphalt as described above is to produce a modified asphalt concrete prepared by mixing 4 to 12 parts by weight of modified asphalt to 100 parts by weight of aggregate to form a base layer.

The aggregate may be used as a composition ratio of 70 to 90% by weight of coarse aggregates, 7 to 27% by weight of fine aggregates, 3 to 8% by weight of filling material, to prepare drainable asphalt concrete.

In addition, the base layer 100 may be configured as a multilayer according to the intended use. When the base layer is composed of multiple layers, it may be preferable to form a lower portion of the base layer as a modified asphalt concrete layer using aggregate of 19 mm or less, and an upper portion of asphalt concrete layer using aggregate of 5 mm or less.

The mixing process is a process for preparing a filler containing methyl methacrylate resin by mixing an aggregate containing a particle size of 0.1 ~ 1.5㎜ and an adhesive containing methyl methacrylate (MMA) resin, the particle size of 0.1 ~ 1.5㎜ Aggregate can be used either natural stone or artificial stone.

In the mixing step, the mixing ratio of the aggregate and the adhesive containing methyl methacrylate resin is preferably mixed in a weight ratio of 85:15 to 95: 5. When the mixing amount of the adhesive is less, the filling part 200 may be separated after the filling process, the effect of strengthening the aggregate bonding strength may be insignificant, and when the mixing amount of the adhesive is increased, it is difficult to expect the effect as much as the amount used.

The adhesive bonds the aggregate and the base layer by forming an aggregate release prevention layer together with the aggregate. The adhesive may be used by mixing an adhesive such as polyester, polyurethane, acrylic resin, and the like with methyl methacrylate (MMA) resin according to the use state. If it can, it can be used alone.

The adhesive may be preferably used by mixing other functional additives with methyl methacrylate (MMA) resin having good physical properties and performance.

The methyl methacrylate (MMA) resin is prepared by treating acetone with hydrogen cyanide to produce acetonecyanhydrin, dehydrating it with concentrated sulfuric acid, and treating it with methanol. Methyl methacrylate resin is widely used in various applications because it has excellent durability, heat resistance, chemical resistance, abrasion resistance, and UV safety.

The methyl methacrylate is cured when a small amount of hardener is added. The methyl methacrylate is a super fast curing resin which is completely cured within 1 hour after the start of curing, and the construction time of the package can be shortened.

In addition, a photocurable adhesive may be added to the adhesive.

The photocurable adhesive is an adhesive having a complex function of curing and irradiating light such as ultraviolet light or visible light or forming a network structure by crosslinking reaction in a molecule by moisture in the air. The photocurable adhesive is an acrylic oligomer, It is manufactured by adding a photoinitiator to an adhesive using an acrylic monomer and is classified into an ultraviolet or visible light curable adhesive depending on whether the photoinitiator absorbs ultraviolet rays and visible light.

The photocurable adhesive is prepared by radical polymerization, and the initiator is alpha-diketones such as camphorquinone, alpha-naphthyl and benzyl, trimethylzenzoyl diphenylphosphine oxide, 2,4-diethylthioquixanthone, methylthioki Santon can be used.

As described above, the aggregate release prevention layer to which the photocurable adhesive is added is adhered to the base layer in a short time with strong adhesive force by sunlight, and cured to increase the initial strength of the package, thereby shortening the construction time of the package.

When the photocurable adhesive is added to the adhesive, it will be preferable to add the photocurable adhesive to the total weight of the adhesive by 10 to 60%.

When the content of the photocurable adhesive is less than 10%, the function of the photocurable adhesive may not appear. When the photocurable adhesive exceeds 60%, there is no obvious improvement in function, and the economical efficiency may be lowered during commercialization.

By adjusting the viscosity of the adhesive, it is preferable to prevent the adhesive from flowing between the aggregates so that the filler comprising methyl methacrylate resin is formed firmly. Therefore, the viscosity of the adhesive will preferably be 600 ~ 900cps. If the viscosity of the adhesive is less than 600 cps, if the adhesive can flow down the aggregate, if the adhesive exceeds 900 cps, the viscosity may be high and workability may be reduced.

In addition, by including the pigment in the adhesive can ensure the cyanity of the package, it can be packaged in a package having a variety of colors according to the regional characteristics and environmental characteristics of the package is packaged.

In addition, it is possible to manufacture a filler comprising methyl methacrylate resin to add a rubber powder in the mixing step.

The rubber powder improves the elasticity and low noise of the package. When the rubber powder is added, the rubber powder may be added in an amount of 1 to 5% by weight based on the total weight of the filler including methyl methacrylate resin.

The filling process is a process of forming a filling part 200 by filling a gap between aggregates with a filling material containing methyl methacrylate resin as shown in FIG. 2 to 0.1 to 0.8 kg / m 2. It is a process of filling the surface void of a base layer.

The filling material containing methyl methacrylate resin on the base layer may be filled in the surface voids by using a mechanism such as a roller or a straw to perform the filling process.

The amount of the filler containing the methyl methacrylate resin should be adjusted according to the condition of the package and the aggregate used. However, when the filler containing the methyl methacrylate resin is used less than 0.1 kg / ㎡, the surface voids are filled. The filling part 200 may be reduced, so that the aggregate separation prevention effect may be insignificant. When the content exceeds 0.8 kg / m 2, the surface voids may be too small to reduce the drainage of the package.

The heat shielding function of the low noise drainage package can be strengthened by adding the heat shield coating process after the mall filling process.

The heat shield coating process is a process of extending the life of the package by applying a heat shield coating to the package to block the heat transferred to the package.

The heat shielding paints can be used in any of the currently available heat shielding paints that can be used in the present invention as a paint including an inorganic compound having an insulating effect that blocks heat transfer, but has a low thermal conductivity and a fine circular hollow body having a noise preventing function. It would be desirable to use a thermal barrier paint containing a compound in the form of a powder (Ceramic Microscopic Hollow Spheres).

Examples of the compound having the form of Ceramic Microscopic Hollow Spheres include aluminosilicate or silica beads.

The low noise and drainage package having improved durability, which is packaged by the package packaging method according to the present invention described above, fills the valleys between the aggregates forming the surface pores with a filler containing methyl methacrylate resin to improve the dispersion effect of the traffic load. To increase the durability of the package to reduce the load received by the aggregate, strengthen the bonding strength between the aggregates to prevent the departure of the aggregate to maintain the functionality of the package for a long time after packaging.

The low noise drainage pavement with improved durability according to the present invention is aggregate and adhesive is applied to the surface of the asphalt concrete, the aggregate separation prevention layer is the base layer to strengthen between the base layer and the aggregate and strengthen the bond between the aggregate and the aggregate of the surface layer according to the departure There is an effect of improving the durability of the package by preventing breakage and abrasion.

In addition, by using a methyl methacrylate (MMA) resin and a photocurable adhesive for the adhesive to increase the initial strength of the package and shorten the construction time, there is a high work efficiency effect.

1 is a process diagram of a low noise drainage package having improved durability according to the present invention.
2 is an enlarged cross-sectional view of a low noise drainage package having improved durability according to the present invention.

Hereinafter, an embodiment of manufacturing a low noise drainage package having improved durability of the present invention is shown, but is not limited thereto.

Example 1

5cm of asphalt concrete is mixed with 80% by weight of coarse aggregate of KS F 2357 standard, 11% by weight of fine aggregate of KS F 2357 standard, 3.7% by weight of filler material of KS F 3501 standard, 5.3% by weight of asphalt of KS M 2201 standard A base layer forming process is performed to form a base layer, and a filler containing methyl methacrylate resin is prepared by mixing an aggregate having a particle size of 0.1 to 1.5 mm and an adhesive in which a red pigment is mixed with methyl methacrylate resin in a weight ratio of 90:10. After the mixing step, the low noise-drainable package according to the present invention was packaged by a filling step of filling the surface voids using 0.6 kg / m 2 of the filler containing the methyl methacrylate resin.

Example 2

The package was packaged in the same manner as in Example 1, but the asphalt was polyphosphate having 87% by weight of asphalt of KS M 2201 standard, 10% by weight of rubber powder, 2.0% by weight of SBS (Styrene Butadiene Styrene), and 105% of H ₃ PO _4. A low noise drainage package according to the present invention was packaged using a modified asphalt mixed with 1.0% by weight.

Comparative Example 1

Pavement packaged with 80% by weight of coarse aggregate of KS F 2357 standard, 11% by weight of fine aggregate of KS F 2357 standard, 3.7% by weight of filling material of KS F 3501 standard, 5.3% by weight of asphalt of KS M 2201 standard Was prepared.

Comparative Example 2

The package was packaged in the same manner as in Comparative Example 1, but the asphalt was 91% by weight of KS M 2201 standard asphalt, 7% by weight of decured waste tire powder, 1.5% by weight of SBS (Styrene Butadiene Styrene), and 105% of H ₃ PO ₄ equivalent. The package was packaged using a modified asphalt mixed with 0.5% by weight of polyphosphoric acid.

? Comparative Experiment of Examples and Comparative Examples

Examples and comparative examples prepared as described above were measured Marshall stability, immersion Marshall residual stability, Cantabro loss rate, dynamic stability, water permeability, internal porosity, surface porosity.

1. Experimental Method

1) Marshall stability test is to measure the plastic resistance to the flow of asphalt mixture and was measured according to the test method for resistance to plastic flow of bitumen mixture using Marshall tester (KS F 2337).

2) The dynamic stability according to the wheel tracking test is a test for evaluating the plastic deformation dynamic resistance of the asphalt mixture. The dynamic stability (times / mm) measured at this time is determined according to the wheel tracking test (KS F 2374) of the asphalt concrete mixture. Measured.

3) Permeability test was conducted to evaluate the permeability of the drainage asphalt mixture package. Indoor permeability test was performed according to the permeability test method (KS F 2322) using the specimen prepared indoors.

4) The cantabro test is carried out to verify the validity of the permeability and drainage mixtures for aggregate scattering resistance as a surface material and is measured according to the cantabro test method for asphalt mixtures (KS F 2492).

5) Porosity test is carried out to measure the porosity of permeable and drainable asphalt mixture. In general, the porosity is measured by the method of KS F 2364. The apparent density is KS F 2446 and the theoretical maximum density is KS F 2366.

6) The surface porosity is obtained by applying the color pigment on the surface of the asphalt concrete, and then printing it with 150g / m² paper, indicating the ratio of the unprinted part without the color pigment to the total paper area.

※ Surface porosity = (unprinted area / paper total area) X 100

Examples and comparative examples by the method described above are shown in Table 1 by measuring Marshall stability, immersion Marshall residual stability, Cantabro loss rate, dynamic stability, permeability, internal porosity, surface porosity.

Item Test Methods unit Example 1 Example 2 Comparative Example 1 Comparative Example 2 Marshall stability KS F 2337 N 7057 9,041 4,135 8,579 Submersible Marshall
Residual stability KS F 2337 % 74 88 70 84 Cantabros
Loss rate KS F 2492 % 7 5 25 8 Dynamic stability KS F 2374 Times / mm 2,190 5,882 1,245 4,816 Permeability KS F 2322 cm / sec 0.019 0.055 0.020 0.062 Internal porosity KS F 2337 % 20.5 21.3 19.5 22.7 Surface porosity - % 21.3 21.8% 53.4 45.3%

As shown in Table 1, in Examples 1 and 2 according to the present invention, the surface porosity is not significantly different from the internal porosity, but the water permeability is almost similar to those of Comparative Examples 1 and 2.

In addition, Example 1 according to the present invention using the general asphalt concrete can be seen that all the physical properties are improved compared to Comparative Example 1, canthabro test results can be seen that there is a significant improvement.

In addition, Example 2 according to the present invention using the modified asphalt can be seen that all the physical properties are improved compared to Comparative Example 2, the results of the cantabro test of Example 1 and Example 2 is significantly improved than the comparative examples Can be.

<Description of Major Symbols in Drawing>
100: base layer 200: filling part

Claims (7)

In the packaging method for packaging a low noise drainage package with improved durability,
A base layer forming step of forming a base layer by paving 4 cm or more of asphalt concrete mixed with aggregate and asphalt;
Methyl methacrylate by mixing an adhesive having a particle size of 0.1 to 1.5 mm, an adhesive having a viscosity of 600 to 900 cps including a methyl methacrylate (MMA) resin, a pigment, and a photocurable adhesive in a weight ratio of 85:15 to 95: 5 A mixing step of preparing a filling material containing a resin;
The filling material is a durable low noise drainage package packaging method characterized in that it comprises a filling process for filling the surface voids with a surface porosity of 15 ~ 25% to 0.1 ~ 0.8kg / ㎡ using a roller or a push rod. delete delete The method of claim 1,
Durability improved low noise drainage package characterized in that it further comprises a pigment in the adhesive packaging method. The method of claim 1,
Durability improved low noise drainage package characterized in that the addition of the rubber powder in the mixing step. The method of claim 1,
The method of packaging a low noise and drainage package with improved durability, characterized in that the addition of the thermal coating coating step after the filling process. The low noise and drainage package with improved durability, characterized in that the packaging method of any one of claims 1, 4, 5, 6.

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