KR101255147B1 - Heat-shielding pigments composition for pavement and heat-shielding pavement method - Google Patents

Abstract

PURPOSE: A heat-shielding composition for pavement and a pavement method using the same are provided to improve constructionability by being directly applied to on-site construction and to enhance a heat-shielding performance. CONSTITUTION: A heat-shielding composition for pavement and a pavement method using the same comprise 20-40 wt% of a first composition, 15-30 wt% of petroleum resin, 15-30 wt% of ethylene vinyl acetate, and 20-40 wt% of aromatic oil. The first composition is a mixture of hollow ceramics, black iron oxide, glass bead, and binder.

Description

Heat-insulating packaging composition and packaging method using same {HEAT-SHIELDING PIGMENTS COMPOSITION FOR PAVEMENT AND HEAT-SHIELDING PAVEMENT METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat shielding pavement composition for use in pavement and a pavement method using the same, in order to suppress the temperature of the pavement surface from rising due to the amount of solar energy.

Due to the rapid industrialization, the area of green space is decreasing due to the increase in population density, residential, commercial space and public facilities.

In particular, due to the increase in artificial heat and various air pollutants in the urban area of the large city, the heat island phenomenon occurs frequently because the temperature of the urban energy in summer is higher than the surrounding areas. have.

One of the factors that causes this heat island phenomenon is the urban surface is paved with artificial structures.

Infrared rays, which make up half of the sun's rays, generate heat energy by touching the surfaces of roads, roofs, or exterior walls, and heat is transferred from these surfaces to the interior, increasing the temperature on the road or inside the building, and increasing the indoor temperature of the building. do.

In particular, asphalt concrete pavement during road pavement increases the surface temperature of the pavement due to the loss of heat and the rapid heat transfer of near-infrared rays of sunlight and heat of the atmosphere.

The increase in the temperature inside the building due to heat island phenomenon consumes a lot of energy for cooling, so it is necessary to effectively block the heat generated by infrared absorption to minimize the change of road surface or room temperature and to reduce the consumption of existing fossil fuel energy. There is.

In order to minimize the change of road surface or room temperature by effectively blocking heat, we can consider heat shielding pavement. In this case, the definition of heat shield pavement is that the road surface temperature of new asphalt pavement is 60 ℃ in indoor irradiation test. When it reaches, the pavement is expected to suppress the surface temperature rise of more than 10 ℃ in the case of the brightness of 50 by the function of high reflecting near infrared rays to prevent heat absorption of the pavement surface.

For heat shield packaging, heat shields capable of highly reflecting near-infrared rays are required, and related to such heat shields, 'road shielding paints' of Korean Patent No. 10-0741147 (registered date: July 12, 2007); Republic of Korea Patent Registration 10-0886174 (Registration Date: February 23, 2009) of the 'coating finish coating method using the heat shield coating composition and heat shield coating composition'; Republic of Korea Patent Registration 10-0990663 (Registration Date: October 22, 2010) 'Asphalt color paving composition with enhanced permeability and heat shielding function and anti-slip function, and color pattern permeable paving material using the same and construction method thereof; Republic of Korea Patent Registration 10-1123151 (Registration Date: February 27, 2012) has been disclosed a technology for the 'heat shield coating composition'.

In addition, the Republic of Korea Patent Publication No. 10-2009-0039514 (published April 22, 2009) in relation to the paving method 'block road paving method'; Republic of Korea Patent Registration 10-0855315 (Registration date August 25, 2008) 'Surface non-slip packaging material composition and construction method having a heat shield function'; Republic of Korea Patent Registration 10-1109537 (Registration date January 18, 2012) 'Eco-friendly elastic packaging material with heat shielding and anti-slip function and road packaging method thereby; Republic of Korea Patent Registration 10-1201850 (Registration date November 09, 2012) has been disclosed a technology for the 'heat shielding method of the roof of metal and asphalt shingle building'.

However, the above-described techniques are not only difficult to apply to paving works because they are not excellent in heat shielding performance, and there is a problem in that the construction of the technique is not suitable to be directly applied to pavement construction.

Therefore, the present inventors provide a heat-shielding packaging composition through the present invention by improving the heat shielding performance and allowing the pavement construction to be carried out immediately after mixing with the aggregate during road paving to solve such problems. I would like to.

In addition, in the method, conventionally, the heat-shielding coating was carried out mainly in the coating method, but in the present invention, two methods of packaging using a mixture with aggregate in addition to the coating is performed in parallel.

The reason why the two methods are used in parallel is to apply differently depending on the presence or absence of vehicle traffic, and the application method is used in the section with little traffic, and the mixture with aggregate is used in the existing road with traffic. Thus, the present invention is intended to provide a construction method that can be used in combination with the two construction methods in accordance with the vehicle traffic by not damaging the heat shield film even by the vehicle.

Patent Registration 10-0741147 (Registration Date: July 12, 2007) Patent Registration 10-0886174 (Registration Date: February 23, 2009) Patent Registration 10-0990663 (Registration Date: October 22, 2010) Patent Registration 10-1123151 (Registration Date: February 27, 2012) Publication 10-2009-0039514 (published April 22, 2009) Patent Registration 10-0855315 (Registration date August 25, 2008) Patent Registration 10-1109537 (Registration date January 18, 2012) Registered Patent 10-1201850 (Registration date November 09, 2012)

In order to solve the above problems, the present invention provides a heat-shielding packaging composition to enhance the heat shielding functionality, and can be directly applied to the road paving construction in the field, and a packaging method using the heat shielding packaging composition The purpose of the invention is to provide.

To achieve the above object,

The present invention has a component composition of SiO ₂ 71 ~ 80wt%, CaO 6 ~ 15wt%, Na ₂ O 3 ~ 8wt%, B ₂ O ₃ 2 ~ 6wt%, specific gravity (g / cc) 0.12 ~ 0.60, impact strength (psi) 250 to 30,000, melting point (℃) 600, particle size (μm) of 15 to 350 wt% of white hollow ceramic (a1),

10-30 wt% of black iron oxide (a2) having a pH of 6 to 8, specific gravity of 5.9, density (g / mL) of 5.16, and an average particle diameter of 3 µm,

15-30 wt% of glass beads (a3) with a refractive index of 1.5, specific gravity (g / cc) 2.5, particle size (microns / volume) 45-63, pH 8.5,

A first composition composed of a mixture (a1 + a2 + a3 + a4) of 10-30 wt% of any one or two or more binders (a4) selected from methyl methacrylate (MMA) resin, urethane resin, and urea resin ( A) 20-40 wt%;

Petroleum resin (B) 15-30wt%;

Ethylene vinyl acetate (EVA) (C) 15-30 wt%;

A heat shieldable packaging composition composed of a mixture of aromatic oil (D) 20-40 wt% (A + B + C + D) is the main technical configuration.

The heat shield paving composition according to the present invention has a very high heat shielding function, and can be mixed with aggregate at the time of pavement construction so that the heat shield can be prevented from being damaged by the vehicle even when the vehicle is frequently installed on the road. There is an advantage that can increase the reliability of the construction in the heat shield function.

Hereinafter, a detailed description of the above technical configuration will be made.

As described above,

The heat shield packaging composition according to the present invention comprises a first composition composed of a mixture (a1 + a2 + a3 + a4) of a hollow ceramic (a1), black iron oxide (a2), glass beads (a3), and a binder (a4) 20-40 wt% of the composition (A);

Petroleum resin (B) 15-30wt%;

Ethylene vinyl acetate (EVA) (C) 15-30 wt%;

Aromatic oil (D) is composed of a mixture of 20 to 40wt% (A + B + C + D).

The first composition is used to impart a heat shielding function to the composition according to the present invention, SiO ₂ 71 ~ 80wt%, CaO 6 ~ 15wt%, Na ₂ O 3 ~ 8wt%, B ₂ O ₃ 2 ~ 6wt% White hollow ceramic (a1) having a composition of components of specific gravity (g / cc) of 0.12 to 0.60, impact resistance (psi) of 250 to 30,000, melting point (° C) of 600, particle size (μm) of 15 to 350 With ~ 30wt%,

10-30 wt% of black iron oxide (a2) having a pH of 6 to 8, specific gravity of 5.9, density (g / mL) of 5.16, and an average particle diameter of 3 µm,

15-30 wt% of glass beads (a3) with a refractive index of 1.5, specific gravity (g / cc) 2.5, particle size (microns / volume) 45-63, pH 8.5,

It consists of a mixture (a1 + a2 + a3 + a4) of 10-30 wt% of any one or two or more types of binders (a4) selected from methyl methacrylate (MMA) resin, urethane resin, and urea resin.

The hollow ceramic is a glass material having a component composition of SiO ₂ 71 ~ 80wt%, CaO 6 ~ 15wt%, Na ₂ O 3 ~ 8wt%, B ₂ O ₃ 2 ~ 6wt%, because the hollow hollow hollow form into the coating It improves the heat shielding performance by refracting and reflecting incoming infrared rays.

In addition, since it is a completely spherical body, it is excellent in resistance to shrinkage and thus prevents shrinkage or twisting deformation. Since the main component is glass, it has excellent chemical properties such as chemical resistance, heat safety, abrasion resistance, and water resistance.

And the void ratio (%) of the volume of the hollow ceramic is 20 to 30, this hollow ratio affects the extrusion strength and the ceramic particle size has the effect of enhancing the strength of the heat shield packaging composition.

When the amount of the hollow ceramic is less than 15wt%, the heat shielding function may be lowered, and when the amount of the hollow ceramic is more than 30wt%, there may be a decrease in the physical properties of the pavement formed by mixing the heat shielding pavement composition and aggregate for road pavement. It is preferable to limit the amount of the hollow ceramic to be used in the range of 15 to 30 wt% with respect to the total amount of the heat shield packaging composition.

The black iron oxide has a chemical formula FeO · Fe ₂ O ₃ having a pH of 6 to 8, a specific gravity of 5.9, a density (g / mL) of 5.16, and an average particle diameter (μm) of 3, and a FeO content of 24% is used. Such black iron oxide has heat insulating and infrared reflecting properties, thereby improving heat shielding properties by using the paint of the present invention.

If the amount of the black iron oxide is less than 10wt%, there is a problem that the heat insulation and infrared reflection function is not high. If the amount of the black iron oxide is more than 30wt%, the physical properties of the package including the heat shielding packaging composition may be deteriorated. It is preferable to limit the amount of iron oxide used in the range of 10 to 30 wt% based on the total amount of the heat shield packaging composition.

The glass beads use a refractive index of 1.5 ~ 2.2, specific gravity (g / cc) 2.5, particle size (microns / volume) 45 ~ 63, pH 8.5. In this case, the refractive index of the glass beads affects the spectral reflectance of the visible light region and the near infrared ray, and the higher the refractive index, the higher the spectral reflectance.

In other words, since the shape is a round bead, when the light is projected on the glass bead, the mirror surface is formed as the light is refracted in the glass bead, and the stress is the same in any direction due to the circular shape. There is a characteristic.

If the amount of the glass beads is less than 15wt%, there is a problem in that the spectral reflectance by the glass beads does not appear high, and when the amount of the glass beads exceeds 30wt%, there is a fear of deterioration of physical properties of the package including the heat-shielding packaging composition. It is preferable to limit the amount of the black iron oxide used in the range of 15 to 30 wt% based on the total amount of the heat shield packaging composition.

The binder may be any one or two or more selected from methyl methacrylate (MMA) resin, urethane resin, and urea resin.

When the amount of the binder is less than 10wt%, there is a problem that the bonding strength between the components constituting the composition is lowered, and when the amount of the binder is more than 30wt%, the coating is not easy due to the increase in viscosity. It is preferable to limit in the range of 10-30 wt% with respect to the total amount of a composition.

The first composition formed by mixing the hollow ceramic, black iron oxide, glass beads, and a binder is mixed with petroleum resin, ethylene vinyl acetate (EVA) and aromatic oil to form a heat shielding packaging composition for use in packaging.

At this time, the amount of the first composition is limited in the range of 20 to 40wt% with respect to the total amount of the heat-shielding packaging composition, which is difficult to properly exhibit the heat shielding function when the amount is less than 20wt%, and exceeds 40wt%. In this case, the strength of the package may be degraded because the binding force between the heat-shielding packaging composition and the aggregate may be adversely affected.

In addition, the first composition may form a first composition by further adding titanium dioxide to the components constituting the first composition in order to increase thermal insulation functionality, wherein the titanium dioxide (TiO ₂ ) used has a refractive index of 2.7. Its rutile crystal structure, and its particle shape is 618 nm in the form of a plate, the surface of which is treated with aluminum hydroxide to have hydrophilic properties, the amount is 5 ~ the total amount of the first composition It is limited in the range of 15 wt%.

Next, the petroleum resin, ethylene vinyl acetate (EVA) and aromatic oils constituting the thermally insulating packaging composition will be described sequentially.

 The petroleum resin is composed of an unsaturated hydrocarbon oil of C5 ~ C10 (5 to 10 carbon atoms) generated in the naphtha cracking process for producing ethylene and propylene, and is a natural material of rosin or its It has similar properties to derivatives.

The petroleum resins are defined as low molecular, amorphous and thermoplastic polymers, and are widely used as point and adhesive agents, processing aids in the rubber processing field, modifiers in the paint and ink field, and additives in plastics.

Chemically, petroleum resins are classified into Aromatic, Aliphatic, Aromatic Modified Aliphatic and Cyclolic Olefin according to the main monomers. The monomer molecules may be represented by C9, C5, or C9-C5 systems, respectively, corresponding to the average number of carbon atoms.

In the present invention, any one or two or more selected from C9 petroleum resin, C5 petroleum resin, C9-C5 copolymerized petroleum resin, maleated petroleum resin, and esterified petroleum resin are used.

Since the petroleum resin affects the soft characteristics of the petroleum resin according to the amount of the petroleum resin used, it is preferable to limit the amount of the petroleum resin used in the range of 15 to 30 wt%.

The ethylene vinyl acetate (Ethylene-Vinylacetate Copolymer; EVA) is a plastic polymer, the plastic behavior and when used in the package makes the package more rigid. However, the disadvantage is that the package can be made too rigid.

The ethylene vinyl acetate (EVA) may be easily mixed through low shear mixing with the constituents of the heat-shielding packaging composition, but a problem may occur in that EVA is separated in terms of storage stability. If the amount of the ethylene vinyl acetate (EVA) is less than 15wt%, the function of preventing the heat shielding film from being damaged from the vehicle may be impaired, and if the amount exceeds 30wt%, the package may be made too rigid. It is preferable to limit the amount of ethylene vinyl acetate (EVA) used in the range of 15-30 wt% with respect to the total amount of the heat shield packaging composition.

The aromatic oil is used to improve the adhesion to the aggregate of the heat-resistant packaging composition according to the present invention, if the amount is less than 20wt%, the adhesiveness with the aggregate is reduced, the packaging material is added to the heat-resistant packaging composition When the strength of the product is lowered and exceeds 40wt%, the amount of the aromatic oil used is 20% based on the total amount of the heat-shielding packaging composition because the package containing the heat-shielding packaging composition is difficult to properly exhibit strength at room temperature. It is preferable to limit to within the range of -40 wt%.

Specific component mixing examples for the heat shield packaging composition are the same as in Example 1. Example 2 shows an example in which titanium dioxide is included in the first composition.

The heat shield packaging composition according to the present invention is first composed of a mixture of 25wt% hollow ceramic, 25wt% black iron oxide, 25wt% glass beads, and 25wt% binder of methyl methacrylate (MMA) resin 30wt% ;Wow,

Petroleum resin 20wt%;

20 wt% ethylene vinyl acetate (EVA);

30 wt% of aromatic oils;

The heat shield packaging composition according to the present invention is first composed of a mixture of 15wt% titanium dioxide, 20wt% hollow ceramic, 20wt% black iron oxide, 20wt% glass beads and 25wt% binder of methyl methacrylate (MMA) resin 30 wt% of the first composition;

Petroleum resin 20wt%;

20 wt% ethylene vinyl acetate (EVA);

30 wt% of aromatic oils;

Hereinafter, the construction method using the heat shield packaging composition according to the present invention.

The construction method according to the present invention is carried out using only the heat-shielding packaging composition and aggregate, and is made by a coating method or a packaging method according to the construction method, in the case of the coating method in a section with little vehicle traffic. It is the applicable method, and the paving method is used for existing roads with vehicle traffic.

The coating formula is applied to the cut-off portion of the road to be constructed using a spray gun to first apply a heat-resistant packaging composition to a thickness of 0.4 ~ 2㎜ to form a coating layer, spraying the aggregate over the coating layer and then again the aggregate The application is completed by curing for 30 minutes to 1 hour after applying the heat shield packaging composition.

And, the packaging method is a step of forming a package by combining 20 ~ 40wt% of the heat shield packaging composition and 60 ~ 80wt% aggregate;

Laying the package;

After placing the package is made through a step of compacting using a roll.

When the amount of the heat-shielding packaging composition used in the package composition step is less than 20wt%, the heat shielding function may fall, and when the amount of the heat-shielding packaging composition exceeds 40wt%, the durability of the road pavement surface may decrease. It is preferable to limit the amount to 20 to 40wt% in the total weight of the package.

In addition, when the amount of the aggregate is less than 60wt%, the amount of heat shielding pavement composition is relatively increased, so that durability of the road pavement surface decreases, and when the amount of the aggregate exceeds 80wt%, the amount of heat shielding pavement composition is relatively reduced. Since the heat shield function may fall, the amount of the aggregate is preferably limited to the range of 60 to 80wt% of the total weight of the package.

The heat shield packaging composition according to the present invention has great industrial applicability because of its excellent practical suitability for construction.

Claims (5)

SiO ₂ 71 ~ 80wt%, CaO 6 ~ 15wt%, Na ₂ O 3 ~ 8wt%, B ₂ O ₃ 2 ~ 6wt% component composition, specific gravity (g / cc) 0.12 ~ 0.60, impact strength (psi) 15 to 30 wt% of white hollow ceramic (a1) having 250 to 30,000, melting point (℃) 600 and particle size (μm) of 15 to 350,
10-30 wt% of black iron oxide (a2) having a pH of 6 to 8, specific gravity of 5.9, density (g / mL) of 5.16, and an average particle diameter of 3 µm,
15-30 wt% of glass beads (a3) with a refractive index of 1.5, specific gravity (g / cc) 2.5, particle size (microns / volume) 45-63, pH 8.5,
A first composition composed of a mixture (a1 + a2 + a3 + a4) of 10-30 wt% of any one or two or more binders (a4) selected from methyl methacrylate (MMA) resin, urethane resin, and urea resin ( A) 20-40 wt%;
Petroleum resin (B) 15-30wt%;
Ethylene vinyl acetate (EVA) (C) 15-30 wt%;
A composition for packaging heat shield, characterized in that the composition is composed of a mixture of aromatic oil (D) 20 ~ 40wt% (A + B + C + D).
The method according to claim 1,
Hollow ceramic is a heat shield packaging composition, characterized in that the hollow ratio (%) to 20 to 30 by volume.
The method according to claim 1,
The first composition is a rutile crystal structure with a refractive index of 2.7, and the particle shape is a plate-like form having a particle size of 618 nm, and the surface is treated with aluminum hydroxide and further includes 5 to 15 wt% of titanium dioxide having hydrophilic property. Heat shield packaging composition characterized in that it is.
The method according to claim 1,
The petroleum resin is any one or two or more selected from the group consisting of C9 petroleum resin, C5 petroleum resin, C9-C5 co-polymer petroleum resin, maleized petroleum resin, esterified petroleum resin.
Comprising 20 to 40wt% of the heat shield packaging composition of claim 1 and 60 to 80wt% aggregate to form a package,
Laying the package;
Packing method using a heat-shielding packaging composition, characterized in that it comprises the step of laying the package and then using a roller.