KR100471989B1 - Method for paving of a road and paving materials - Google Patents

Abstract

PURPOSE: A road pavement method with semi-rigidity and watertightness and road pavement materials are provided to prevent breakage of pavement by restricting plastic deformation and to improve comfortableness in walking or traveling by reducing a heat island in summer. CONSTITUTION: An open-graded asphalt mixture is manufactured by using modified asphalt(S1) in paving a street with asphalt, and poured and compacted(S2). Waterproof cement paste is manufactured by mixing cement with waterproof materials(S3). The manufactured waterproof cement paste is filtrated into pores of the constructed open-graded asphalt mixture pavement(S4). The pavement material infiltrated with the cement paste is poured and cured for the predetermined(S5). Dynamic stability of the open-graded asphalt mixture is more than 3000 times/mm. The modified asphalt mixture is composed of asphalt, asphalt modifier, coarse aggregate, fine aggregate and filler, and the void ratio of the pavement is 15 to 30 % in compacting the asphalt mixture.

Description

Road paving method and road paving material having semi-rigidity and conservatism {METHOD FOR PAVING OF A ROAD AND PAVING MATERIALS}

The present invention relates to a road paving method having semi-rigidity and water retention, and more particularly, to the voids of flexible pavement asphalt pavement mixture pavement. In order to penetrate the water-retaining cement paste having rigidity, it is to have both anti-rigidity and water retention.

Representative pavement method of the conventional road pavement has a pavement method using concrete and a pavement method using asphalt, looking at the problems of such concrete pavement and asphalt pavement as follows.

First of all, concrete pavement is rigid pavement, which has long construction and curing period, cracks caused by dry shrinkage, and has relative disadvantages compared to asphalt pavement in terms of increased running noise, running and slip resistance, Although it does not cause damage, its function is less than that of asphalt road paving in terms of walking, running stability and comfort, and it is not easy to apply except the new section of the road because the curing time of cement concrete is long and the installation time of pavement is long. It has a disadvantage.

Asphalt pavement, another pavement method, is a flexible pavement that has the advantages of a concept contrary to the disadvantages of concrete pavement listed above, but in recent years, with the annual average temperature rising, Plastic deformation of asphalt pavement acts as an absolute factor of damage of asphalt pavement due to traffic jam due to increased traffic volume, resulting in shortening of pavement life and increase of maintenance cost of roads. The heat island phenomenon caused by the rise of the temperature of the package due to the increase of the discomfort during the road driving and walking due to the radiant heat also appeared at the same time.

In the case of the conventional color asphalt pavement, color pigmentation and discoloration are promoted by heating the colored pigment together in the manufacture of the asphalt mixture, and the wheel marks due to stickiness of the pavement surface due to the flow caused by the softening of the asphalt in summer. Not only do contaminants adhere to loss of color function, but also have a weak resistance to plastic deformation.

At present, most of the road pavement in Korea is asphalt pavement, the problems caused by the plastic deformation of the asphalt pavement is a serious situation, to list the problems, first of all to maintain the flatness of the pavement surface Lack of surface thickness due to chipping the surface causes premature breakage of the pavement, drainage of the road surface is not smooth during rainfall, causing spray by the driving vehicle, water film phenomenon, driving stability due to reduced road friction. Not only does it occur, it is easy to freeze in winter, and the road surface is not flat, which causes poor steering and driving, which can cause traffic accidents, and frequent maintenance work due to short pavement life. It causes many problems, including congestion.

In order to remedy this problem, some improvement measures are currently in the development or implementation stage, but the fundamental measures have not been established yet. As an improvement measures in the implementation stage, the asphalt binder is modified to improve the temperature and flow resistance. Polymer modified Asphalt packing with improved behaviour, and SMA (Stone Mastic Asphalt) packing with improved aggregates and improved fiber particle size are used. Under the current road traffic environment, the basic measures for preventing plastic deformation and the countermeasure against the long life of the pavement are also insufficient.

In the asphalt pavement that is currently implemented, such plastic deformation occurs mainly in summer, and it is known that it is caused by the lack of fluid resistance of asphalt pavement due to the use of inadequate pavement materials, formulation of inadequate pavement mixtures, and construction methods. As mentioned above, the main cause of plastic deformation occurring in the above-mentioned is due to the increase of temperature due to global warming phenomenon, that is, the temperature of package in the stall area due to heavy vehicle and traffic increase along with long-term high temperature in summer. As a conventional asphalt road paving method has a limitation as a countermeasure against such a change in the road environment, it is a time when the development of suitable pavement materials and paving methods as a fundamental countermeasure is urgently required.

As part of the above countermeasures, in recent years, the application of semi-rigid road pavement has gradually spread in Japan, which contributes to the improvement of pavement durability and economic feasibility by securing pavement fluid resistance and long pavement life. Doing. In addition, in recent years, as interest in the environment has increased, semi-rigid conservative road pavement methods using conservative materials have been developed as part of eco-friendly pavement methods. Increasing the maximum absorption rate of the cement paste by increasing the amount of water-retaining material, the strength of the cement paste decreases due to the nature of the water-retaining material, and it is difficult to secure the load resistance of the semi-rigid package. Difficult to apply is emerging as a disadvantage.

In more detail, the decrease in strength expression according to the increase in water retainability of the water-retaining cement paste is lower than the maximum absorption rate of 10% in the case of the general cement paste, whereas in the case of the water-retaining cement paste, the temperature of the package due to the water retention is increased. In order to have an inhibitory effect, the maximum absorption rate must be increased to 40 to 80%, thereby increasing the compounding ratio of the water-retaining material. The increase in the compounding rate of the water-retaining material delays or decreases the condensation and curing of the cement paste due to the nature of the water-retaining material. This becomes difficult. This phenomenon occurs when the cement paste containing the superabsorbent polymer, which is a water-retaining material, is condensed and cured at the same time, so that the hydration of the cement and the formation of the polymer film are simultaneously performed, thereby forming an integrated matrix phase including a network of polymers, that is, a co-matrix phase. As the cement cement paste has the characteristics, when the amount of super absorbent polymer is increased to improve water retention, the network structure and absorption porosity ratio of the polymer increases on the co-matrix, resulting in a decrease in the hydration temperature and condensation of the cement paste due to the superabsorbency. In addition to the delay of time, the amount of air entrained also increased, there was a problem that the strength is lowered.

As an example of the change in strength according to the increase in water retention of the water-retaining cement paste, the maximum absorption rate of 40% of the water-retaining cement paste having a maximum absorption rate of 7 days is 80 kg, which is twice as high as the maximum absorption rate of about 100 kg / cm ² . As the compressive strength of high-maintenance cement paste is only about 10 kg / cm ^2, which is about 1/10 of it, it is not applicable to pavement such as roads with high traffic load. In the semi-rigid road pavement, etc., it is necessary to develop a water-retaining cement paste having high water-retainability and capable of expressing at least 100 kg / cm ^{2 of} cured compressive strength, which is a required strength standard.

Accordingly, an object of the present invention is to solve the problems of the conventional road paving method, to penetrate the void of the asphalt mixture pavement with improved flow resistance, to penetrate the cement paste having water-retaining anti-stiffness and water-retaining By paving the road to have a road, it is possible to fundamentally prevent plastic deformation by improving the dynamic stability, which is a measure of flow resistance at high temperature, by up to 40 times or more, compared with the conventional pavement by various asphalt mixtures. The present invention provides a road paving method and a road paving material with semi-rigidity and conservatism which can reduce the maintenance cost of the pavement by realizing the famous painting.

Still another object of the present invention is to mix the superabsorbent polymer, which is a water-retaining material, in the manufacture of cement paste, thereby lowering the temperature of the package by about 30% or more compared with asphalt pavement, and thus running by radiant heat generated from the summer package. And improve the problems in walking, and for the problem of the decrease in strength manifestation due to the increase of the water-retaining property of the infiltration cement paste in the water-resistant semi-rigid packaging, a special additive is used to maintain the high water-resistance and durability of the semi-rigid package. Can be secured at the same time, so that it can be applied to the pavement of the roadway in which the traffic load is large.As a result, when the cement paste is manufactured by using a mixture of colored pigments and glass beads for road marking paints at room temperature, the pigments are heated and the asphalt is heated during the summer. The color cloth which does not have a possibility of the change of color and the discoloration by the stickiness of the It is a paving method has a semi-rigid and to have a water retention function and luminous function, and the road to provide packaging materials.

Road paving method having semi-rigidity and water retention according to the present invention for achieving the above object,

Preparing a modified asphalt mixture by using modified asphalt (S1); Laying and compacting the prepared degree of asphalt mixture (S2); Preparing a water-retaining cement paste by mixing cement with the water-retaining material (S3); Infiltrating the water-retaining cement paste into the pores of the construction of the degree of paving asphalt mixture (S4); And curing the package in which the cement paste has penetrated for a predetermined time (S5). Characterized in that comprises a.

In addition, the road pavement material according to the present invention is to install and compact the modified asphalt mixture by using the modified asphalt, and to penetrate the water-retaining cement paste by mixing cement and water-retaining materials into the voids formed on the compacted asphalt pavement After curing for a certain time is characterized in that the processing and cutting in a certain form.

Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the present invention to the extent that those skilled in the art may easily implement the present invention.

First, the modified asphalt mixture is prepared (S1) using modified asphalt.

At this time, the modified asphalt is to mix the asphalt modifier to the asphalt as a binder, the modified asphalt mixture is made by mixing the modified asphalt, coarse aggregate, fine aggregate and filling material.

In addition, in order to allow the cement paste to easily penetrate, the pavement of the asphalt mixture is to secure a porosity of 15 to 30%, and the mixing ratio of each material is determined by an appropriate mixing design method so as to satisfy the specifications of the asphalt mixture. Make a decision.

At this time, if the porosity is less than 15%, not only the cement paste is not easily penetrated, but also the rigidity and durability of the semi-rigid package are reduced, so that the target fluid resistance is difficult to be secured. Since it loses flexibility, it is preferable to set 15%-30% as a target porosity.

The modified asphalt modified using the modifier should have a softening point of 60 ° C. or higher and a viscosity of 135 ° C. of 1,000 to 4,000 cp. The modified asphalt mixture using the modified asphalt has a dynamic stability of 3,000 times / It should be more than mm, because the softening point of the unmodified asphalt pavement currently used is about 40 to 50 ℃, the viscosity of 135 ℃ is about 300 to 500 cp, it is difficult to secure the fluid resistance at high temperature in summer In addition, since the thickness of the asphalt coating becomes thin and there is a problem in securing the durability of the asphalt pavement, the softening point of the asphalt modified with the modifier is 60 ° C or higher, so that it is resistant to flow even at 60 ° C or more, which is the highest temperature of the summer pavement. In order to improve, the viscosity of 1,000 to 4,000 cp is established when the viscosity is less than 1,000 cp. In the manufacture of asphalt mixture, the thickness of the asphalt coating is not only easy to reduce the durability, but also the compaction performance of the asphalt mixture decreases the compaction performance during construction because the use of coarse aggregate is 70% or more to secure high porosity of 15-30%. This is because it is easy to be poor in compaction, and if it is more than 4,000 cp, the mixing operation during the manufacture of the asphalt mixture is not easy and the asphalt coating is not good.

As the dynamic stability of the asphalt mixture is less than 3,000 times / mm, the dynamic stability of the asphalt mixture is difficult to secure flow resistance in a high-temperature traffic environment in the summer, thereby improving the softening point and high temperature viscosity of the asphalt mixture. This is to ensure that the dynamic stability, a fluid resistance indicator, is secured more than 3,000 times / mm.

When the asphalt mixture is prepared as described above (S1), it is laid and compacted in a conventional construction method suitable for the function and characteristics of the pavement to complete the porous asphalt pavement with a porosity of 15% to 30% (S2).

When the package is completed as described above (S2), to prepare a water-soluble cement paste to mix the cement and the water-retaining material to penetrate the voids of the asphalt pavement construction (S3).

The water-retaining cement paste is obtained by mixing cement, a super absorbent polymer as a water-retaining material, silica fume as a strength-improving material, other additives, and water, and having a maximum water absorption of 40% to 80% and a flow value as a penetration workability index of 9 to 9. 15 seconds, 7 days curing The compressive strength is to have a water retention and required strength of 100 Kg / cm ² or more.

The maximum water absorption rate of the water-retaining cement paste is 40% to 80%, and in the case of general cement paste, the maximum water absorption is less than about 10%. As a result of measuring the temperature of the package by infrared irradiation test, In comparison, the semi-rigid package using the general cement paste has a less than 10% temperature drop effect, and the semi-rigid conservative package using the water-retaining cement paste having a maximum absorption rate of 40% or more exhibits a temperature drop of more than 30%. If the maximum absorption rate of the water-retaining cement paste is less than 40%, the water-retaining property decreases and the temperature drop effect of the package is insignificant. If the maximum absorption rate of the water-retaining cement paste exceeds 80%, the strength of the cement paste becomes difficult to develop. Because.

The reason why the strength is difficult to develop is to increase the compounding ratio of the water-retaining material because the maximum water absorption must be increased in order to have a high water-retaining property. This is because not only increases the volume ratio of the network structure of the polymer and the absorption pores of the water-retaining material on the matrix, but also the amount of entrained air increases, thereby delaying or decreasing the rate of solidification and curing of the cement paste.

For example, based on the maximum absorption rate of 40% of the water-retaining cement paste, the strength development tends to decrease by about 20% with respect to an increase of about 10% of the maximum absorption rate. However, in the water-retaining cement paste having a maximum absorption rate of 80% or more, even when the strength-improving material is used, it is very difficult to express more than 100 kg / cm ² of the required curing strength of 7 days.

In the present invention, in order to improve the problem of lowering the strength expression according to the increase in the water retention of the water-retaining cement paste, while improving the factor of delaying the condensation and curing rate of the water-retaining cement paste, air entrainment according to the increase of the amount of the super absorbent polymer used The present invention has been devised to promote and enhance the strength development by suppressing the increase of strength, and this method can improve the deterioration factor of the strength development without affecting the repairability of the cement paste. In addition, it has a fine particle structure and high hydrophilicity, which can cause hydration reaction early to accelerate the condensation and curing speed, thereby improving the strength expression, and by adsorbing entrained air in the pores of fine particles, it can suppress the amount of entrained air. Silica fume The amount compounded was to 7 days compressive strength of cured cement paste water holding property even at the maximum absorption rate of 80% can be expressed 100kg / cm ² or more.

In addition, the flow value, which is a measure of the workability of the cement paste for penetration, is set to 9 to 15 seconds, when the flow value is less than 9 seconds, the fluidity becomes too large, and water and cement materials are easily separated. This is because the fluidity is lowered and the workability is lost, making the penetration work difficult.

In addition, the 7-day curing compressive strength of cement paste is more than 100 kg / cm ² , when the compressive strength is less than 100kg / cm ² , it is difficult to ensure the load resistance of the cement paste, the anti-stiffness due to traffic load in the roadway This is because securing the durability of the package becomes difficult.

In addition, in the production of the water-retaining cement paste, a small amount of colored pigments, paint glass balls, and mixtures thereof may be additionally mixed for the purpose of color packing, wherein the colored pigments may be iron oxide, when red, depending on the color; In the case of green chromium oxide, in the case of blue ultramarine, etc. can be used, but not limited to this, select the appropriate pigment for each color according to the result of the mixing design to use the appropriate amount within the use range.

In addition, the glass beads for paints selectively used for the luminous function should be suitable for the specification of the road specification.

When the water-retaining cement paste is prepared (S3), a water-retaining cement paste that slightly exceeds the anticipated penetration per unit area is spread on the surface of the asphalted pavement, and then vibrated with a vibration plate or a vibrating roller. The cement paste is sufficiently penetrated (S4) while extracting the bubbles, and the excess cement paste remaining on the surface is scraped and removed so that the aggregate of the asphalt mixture is exposed by rubber reiki or the like, thereby taking measures to prevent slippage.

The cement paste used in this process can be colorless or colored, and of course, depending on the curing time until the traffic opening, the curing type is about 3 days, the roughing type is about 1 day, and the curing period is about 3 hours. Of course, it is possible to select and use a paste suitable for the purpose of the road, such as phosphorus superhard type.

When injecting the water-retaining cement paste, it should be carried out after the temperature of the asphalt mixture reaches 50 ° C or lower, and protects the road surface by using vinyl sheet to prevent contamination and damage around the existing road surface before constructing the cement paste for penetration. Of course, the precautions should be taken, and the construction ends should be taken to prevent cement paste from spilling.

After the infiltration of the water-retaining cement paste for penetration is completed (S4), curing is performed for a predetermined time (S5) to complete a semi-rigid package having a characteristic of 10,000 times / mm or more of dynamic stability of the package and 40 BPN or more of slip resistance.

In addition, if necessary, additional measures may be taken, such as sandblasting or grinding the pavement surface at an appropriate time before opening the traffic.

In the same manner as described above, the asphalted asphalt mixture prepared by using the modified asphalt is laid and compacted, and the water-retaining cement paste obtained by mixing cement and water-retaining materials is infiltrated into the pores formed on the compacted asphalt pavement and cured for a predetermined time. After that, by processing and cutting to a certain form it is possible to manufacture a road paving material.

In other words, if the asphalt mixture is laid and compacted in a separate mold, and cement paste penetrates and cures, it is possible to manufacture a separate road paving material. The more convenient, it is possible to easily apply the road paving method of the present invention not only to the road, but also to the delivery, and the air is shortened so that there is no inconvenience in the use of the road or the delivery.

Since the modified asphalt used in the road paving material of the present invention, the modified asphalt mixture, the composition such as water-retaining cement paste, compounding ratio, physical properties, etc. have already been described, the description thereof will be omitted.

Hereinafter, each composition used in the present invention, the blending ratio and characteristics thereof are as follows.

As the binder used in the preparation of the asphalt mixture (S1), the asphalt can be used for road paving asphalt or a resin-based discoloring binder. The amount of use thereof is within a range that satisfies the specifications of the asphalt mixture according to the type of asphalt mixture. Determined by the appropriate formulation design method.

As the modifier of the asphalt and the resin-based decolorizing binder should be used to improve the flow resistance of the asphalt mixture and the compaction performance, styrene butadiene rubber (SBR), rubber powder (CMR) and styrene butadiene styrene (SBS) Either one of them is suitable, and this rubber-based modifier improves the thermosensitivity of the asphalt used in the preparation of the mixture, resulting in a hard asphalt mixture at high common temperature in summer, and elasticity to resist fatigue cracking at medium common temperature. In addition, it has the effect of having flexibility to resist temperature cracking at low common temperature in winter, and also improves the high-temperature viscosity of asphalt due to high viscosity, thereby increasing the thickness of the asphalt coating of the aggregate. To improve the compaction performance of the asphalt mixture In addition to acting, it also provides a function of reducing the running noise and slip resistance due to the elasticity of the rubber component.

The selection of such rubber modifiers is determined according to the type of asphalt mixture and the function and characteristics of the road, and the amount of asphalt mixture used for the softening point of the modified asphalt satisfies the range of 1,000 to 4,000 cp with a softening point of 60 ° C or higher and 135 ° C. It is decided by the formulation design method which satisfies the specification standard of asphalt mixture.

The coarse aggregate used in the above asphalt mixture production (S1), using a thick aggregate of 25mm, 20mm, 13mm, 10mm coarse aggregate to ensure sufficient continuous porosity after construction of the asphalt mixture, but 5mm sieve Less than 20% shall be used, and fine aggregates shall be suitable for fine aggregates for general asphalt mixtures, but the amount of coarse aggregates and fine aggregates shall be determined according to the design continuous porosity of the asphalt mixture and the particle size distribution of coarse aggregates and fine aggregates used.

In addition, if necessary, mixed colored aggregates and recycled aggregates are used, but those suitable for the specification of aggregates for asphalt mixtures are used.

Pavement filler used in the asphalt mixture production (S1) is used that meets the standard filler material for asphalt mixture, the amount used is determined in a range that satisfies the synthetic particle size criteria.

The cement used in the manufacturing of the water-retaining cement paste (S3) is a material suitable for the function and characteristics of the packaging, according to the curing time until the traffic opening, usually portland cement, crude steel cement, cemented steel cement, alumina cement or a combination thereof In either case, those that meet the durability and workability standards should be used.

The superabsorbent polymer, which is a water-retaining material that is particularly used in the production of the water-retaining cement paste (S3), may be any one of a starch-based polymer by graft polymerization, a cellulose-based polymer by carboxy methylation, and a synthetic polymer-based polymer by crosslinking-providing polymerization. Choose a material suitable for the function and characteristics of the packaging, and the amount to be used shall be determined by a compounding test in which the maximum absorption rate of the cement paste containing the superabsorbent polymer is in the range of 40 to 80%.

The superabsorbent polymer, which is a water-retaining material, is a polymer that absorbs water at least several tens of its own weight and does not discharge water even when some force is applied. This is because it slightly crosslinks an electrolyte polymer having an ionic group or a hydrophilic polymer having a hydroxyl group. When water enters a polymer having a cross-linked structure, water and polymer are combined and water is difficult to be discharged out. Therefore, water has a water-retaining function. When the humidity of the rigid water-retaining package is adjusted and the evaporation of the water retained in the package, the endothermic phenomenon occurs due to the latent heat of vaporization. It will show the function to drop more than%.

In addition, the water-retaining cement paste containing superabsorbent polymer is superior to the general cement paste, but the water-retaining cement paste having a maximum water absorption of 40 to 80% has a high water retention rate. Since the strength is difficult to develop strength, the maximum absorption rate of 40% or more is required to use a material capable of enhancing strength for the expression of the curing strength of 100kg / cm ² or more, which is the required strength of semi-rigid packaging, for 7 days Since there will be, using the following strength expression enhancing material.

Silica fume is suitable as a strength expression enhancing material which is used for the strength development of the required strength during the production of the water-retaining cement paste (S3), and its physical properties are specific gravity of 2.0 or higher, powder of 200,000 cm ² / g or higher, and silica content of 90 Use more than%

These silica fumes not only have high powder, but also high hydrophilicity, so that they react within a short time after contact with water, and the hydrates form a gel layer between the cement particles, and the lime component and premature pozzolane during the hydration reaction of the cement. It reacts to produce calcium silica hydrate (CSH), a stable cement complex, which promotes and promotes strength development in the early and long term.

In addition, the strength development is reduced by about 20% with respect to the maximum absorption rate of the water-retaining cement paste by about 10%. As such, the amount of silica fume is increased to increase the water retention of the cement paste. The amount to be used shall be a compounding amount capable of expressing at least 100kg / cm ² of the 7-day curing compressive strength, which is a necessary strength standard, within the range of 40 to 80% of the maximum absorption rate of the water-retaining cement paste. .

For example, the 7-day curing compressive strength of water-retaining cement paste using 10% silica fume, which is the strength-improving material at the maximum absorption rate of 80%, is expressed over 100 kg / cm ² , while the maximum absorption is 80% without the strength-improving material. In the case of the water-retaining cement paste, only the strength of less than 10 kg / cm ² is expressed. Therefore, it can be seen that the use of the strength-improving material is required in order to satisfy the strength criteria required for the production of the water-absorbing cement paste of 40 to 80%. will be.

In addition, other additives that are commonly used in the cement paste manufacturing (S3), such as dry shrinkage and freeze-thaw prevention material, anti-slip material, fluidity improving material, condensation adjusting material is used, as the dry shrinkage and freeze-thawing prevention material Is selected from the group consisting of rubber emulsion, synthetic rubber latex, acrylic resin emulsion or asphalt emulsion and polymer emulsifier, and these materials reduce dry shrinkage to suppress cracking and improve resistance to freeze-thawing. At the same time, the amount used should be determined according to the compounding test so that the dynamic modulus of elasticity is maintained at 60% or more in 150 cycles as a result of the resistance test against freezing and thawing of the cement paste.

In addition, the dry shrinkage and freeze-thawing prevention properties of the other properties is because the affinity with the asphalt used in the preparation of the asphalt mixture (S1) of the degree of openness, and also acts to strengthen the adhesion of the asphalt mixture and cement paste in the semi-rigid pavement. .

As the anti-slip material, silica sand is used, and the wear resistance is excellent, and the shape of the mold is relatively rich in ridges, so it is excellent in sliding resistance, and the absorbance is low. The amount determined in accordance with the formulation test to be above the BPN.

The fluidity improving material and the condensation adjusting material which are selectively used among the other additives are determined and used by the compounding test within a range that satisfies the target flow value and compressive strength criteria.

Hereinafter, the present invention will be described in detail with reference to the following examples.

(Example)

Table 1 is a result of the formulation and quality characteristics test of the modified asphalt according to the present invention.

Test results of quality characteristics of modified asphalt and general asphalt division Compounding ratio (% by weight) Test result asphalt Modifier Softening point (℃) Viscosity (cp) General asphalt 100 - 45 450 Modified asphalt 80 20 85 2200

Table 1 is a comparison of the softening point and the viscosity of the high temperature characteristics of asphalt modified asphalt and asphalt modified material using the asphalt modifier, the asphalt of the material is 60 pavement grade of pavement asphalt of the Korea Industrial Standard 80 ~ (AP-5) was used, and as an asphalt modifier, rubber powder (CRM) was used, but 20% of the total amount of the binder was mixed and used.

As can be seen from the above test results, the softening point of the unmodified general asphalt is 45 ° C, while the softening point of the modified asphalt is 85 ° C, and the modified asphalt has an estimated maximum temperature of 60 ° C or higher in summer pavement. It can be seen that it is possible to stably improve the resistance to flow.In the viscosity test results, the normal asphalt is 450cp and the modified asphalt is 2,200cp. By doing so, it can be seen that the degree of durability and compaction performance of the asphalt mixture can be improved.

Table 2 shows the results of the blending and quality characteristics of the asphalt mixture.

Asphalt mixture formulation and quality test results division Material Blending Rate (%) Test result asphalt Modifier Coarse aggregate Fine aggregate Filler Density (g / cm ² ) Porosity (%) Stability (kg) Dynamic Stability (times / mm) General (density 13mm) 6.0 - 45 45 4.0 2.35 4.0 920 550 Modification (Gap Particle Size 13mm) 4.8 1.2 50 40 4.0 2.30 4.5 1,150 5,200 Half bend (opening degree 13mm) 4.8 1.2 75 15 4.0 1.95 22 470 4,450

The general (density 13mm) of Table 2 is a compactness asphalt mixture using ordinary asphalt, the modification (gap particle size 13mm) is a gap particle size asphalt mixture using modified asphalt, the semi-bending (deformation degree 13mm) is a modified asphalt As an example of mixing the asphalt mixture for the semi-rigid pavement, the coarse aggregate is 13mm (78) of aggregate size, and it uses crushed crushed granite of 5% sieve through 15% of granules. KS) was used, the fine aggregate used crushed sand and passed 95% of the 5mm sieve, which meets the physical property standard of the Korean Industrial Standard, and limestone powder was used.

As can be seen in Table 2, the porosity of the general (density) asphalt mixture and the modified (gap particle size) asphalt mixture equally compacted with 50 times of both sides of the compaction recovery is 4.0 to 4.5%, and is for semi-rigid paving (deformation). Considering the porosity of 22% after compaction of the asphalt mixture, it can be seen that a porous asphalt mixture having a void for penetrating the material for infiltration was made.

In addition, the stability of the semi-rigid paving (depth) asphalt mixture is lower than that of the normal (density) and modified (gap granularity) asphalt mixtures because the porosity has increased by about five times. Compared to gap particle size asphalt mixture and semi-stiffness modified asphalt mixture, the dynamic stability of asphalt mixture is about 10 times higher than that of modified asphalt. It was found that this was improved.

Table 3 is a result of the quality characteristics test according to the formulation of the cement material for penetration.

Quality Characteristics Test Results According to Mixing of Cement Material division Material Blending Rate (%) Water / cement ratio (%) Test result cement Water-retaining material Strength Expression Enhancer Anti-slip material Dry shrinkage and freeze thaw prevention materials Pigment bead Flow in seconds Absorption (%) Relative dynamic modulus (%) Air volume (%) 7 days compressive strength (kg / cm ² ) usually Carbide General Cement Paste 96.0 - - - - - 4.0 - 43 13 9 60 or less 2.0 118 Water-Retaining Cement Paste (1) 45.0 20.0 10.0 10.0 10.0 5.0 - - 48 13 81 60 or more 4.7 135 Water-Retaining Cement Paste (2) 55.0 20.0 5.0 - 10.0 5.0 4.0 1.0 45 13 39 60 or more 7.2 98

Table 3 is an example of comparing the characteristics of a cement paste using a general cement paste and a water-retaining polymer material. In order to maintain water-retaining property, a compound using a water-absorbing superabsorbent polymer, a strength-improving agent, and other additives is used. The results of the comparison of the quality characteristics of the test results. Among the materials used, water-repellent polymer powder of synthetic polymer type was used, silica fume was used as the strength-improving material, and acrylic emulsion resin was used as the material for preventing the shrinkage and freeze-thawing. As the non-slip material, hard silica was used, and the particle size of silica was 100% passed through 5mm sieve and 10% passed through NO.50 sieve. Pigment used red iron oxide, glass grain Glass No. 2 with a specific gravity of 2.50 was used, and the water / cement ratio to obtain the same flow value was obtained. Were 43%, 48% and 45%, respectively.

In addition, in order to investigate the compressive strength properties of the cement paste according to the amount of the use of the water-retaining material, the change in the maximum absorption rate, and the amount of the use of the strength-improving material, the compounding and the test were carried out separately for the water-retaining cement paste (1) and the water-retaining cement paste (2). .

As can be seen from Table 3, the maximum absorption rate of the water-retaining cement paste is increased by about 4 to 9 times or more, compared to the general cement paste, it was found that the temperature control of the package by the water-retainability of the water-retaining cement paste is possible. , The air content of the water-retaining cement paste using the superabsorbent polymer is higher than the air amount of the general cement paste. Despite the fold increase, it was judged that the reduced air entrainment amount rather than the water-retaining cement paste 2 was an effect of the air entrainment function of the strength-improving material.

In addition, when 10% of the silica fume, which is a strength expression enhancer, was used, the 7-day curing compressive strength, which is the required strength standard, was higher than 100kg / cm ² even at the maximum absorption rate of 81% of the water-retaining cement paste. In the case of the non-conservative cement paste (2), which shows that the required strength criteria are not satisfied even at the maximum absorption rate of 39%, it is understood that the strength expression enhancer should be used to improve the water retention and to express the required strength. Could.

In terms of resistance to freezing and thawing, the cement paste using the antifreeze thawing agent can secure a relative dynamic modulus of 60% or more in 150 cycles, while the cement paste without the freeze thaw preventing agent is the same. It was found that it was shown to 60% or less under the conditions.

Table 4 is a result of the quality characteristics test according to the road paving method according to the present invention.

Test results of quality characteristics according to material mixing ratios of Examples and Comparative Examples division Material Blending Rate (%) Test result Asphalt mixture Penetrating Materials Dynamic Stability (times / mm) Package body temperature (℃) Slip Resistance (BPN) Night visibility Normal (Dense) Reforming (Gap Particles) Semi-bending (Overview) General Cement Paste Water-Retaining Cement Paste (1) Water-Retaining Cement Paste (2) Example 1 - - 80 20 - - 15,000 50 59 usually Example 2 - - 80 - 20 - 21,000 35 71 - Example 3 - - 80 - - 20 13,000 40 68 height Comparative Example 1 100 - - - - - 550 56 63 - Comparative Example 2 - 100 - - - - 5,200 55 65 lowness

Example 1 of Table 4 is a formulation using the general cement paste of Table 3 as the penetration material of the semi-rigid packaging, Example 2 using the water-retaining cement paste (1) of Table 3 as the material for penetration, Example 3 uses the water-retaining cement paste 2 of Table 3 as the penetration material.

In addition, Comparative Example 1 is a blended 13mm asphalt mixture blended using a normal asphalt, Comparative Example 2 is a blended example of a gap 13mm asphalt mix using modified asphalt.

As can be seen from the test results of Table 4, compared to the dynamic stability of the 13 mm asphalt mixture of the compactness of 13 mm asphalt mixture using the general asphalt of Comparative Example 1 and the 13 mm asphalt mixture of the modified asphalt of Comparative Example 2, From the fact that the dynamic stability of the semi-rigid pavement mixtures of Examples 2 and 3 was up to 40 times higher, it was found that the flow resistance of the semi-rigid pavement was remarkably improved compared to the asphalt pavement, which significantly improved the resistance to plastic deformation. As can be seen from the temperature measurement results of the various pavement specimens by infrared irradiation test, the temperature of the semi-rigid mixture pavement using water-retaining materials is lower than about 30% compared to the various asphalt pavement mixture specimens. Increasing the amount of water-retaining material used to increase the maximum absorption up to 80% of Example 2 Since the temperature of the rigid water-retaining package is the lowest, it can be seen that the temperature of the package can be controlled to some extent according to the amount of the water-retaining material used. Thus, the heat island phenomenon at high temperature in summer can be improved and the plasticity can be improved. It can be seen that it can also contribute to improving the resistance to deformation.

In addition, the slip resistance is slightly lower than that of the asphalt pavement of Comparative Examples 1 and 2 in the case of the semi-rigid pavement which does not use the anti-slip material of Example 1, and the anti-slip pavement is not used in the semi-rigid pavement. It was found that the slip resistance is reduced, but in the case of the semi-rigid conservative packaging using the non-slip material of Examples 2 and 3, the slip resistance value is high, and the semi-rigid packaging using the non-slip material is generally used for the semi-rigid packaging. It could be seen that there is no problem in securing slip resistance that may be a disadvantage, and in the case of semi-rigid water-retaining packaging using luminous glass balls, night visibility was found to be the highest.

Although the present invention has been described as described above only in the above embodiments, it is not necessarily limited thereto, and various modifications may be made without departing from the scope and spirit of the present invention.

As is apparent from the above description, according to the present invention, the dynamic stability of the semi-rigid pavement mixture is at least 40 times higher than that of the conventional pavement-based asphalt pavement mixture or the asphalt-based asphalt pavement mixture using modified asphalt. By significantly improving the flow resistance of semi-rigid pavement, it is possible to provide suitable pavement methods and pavement materials as a fundamental countermeasure for preventing plastic deformation under any current road traffic environment, and to prevent premature breakage of pavement. As a result, it is possible to realize a long service life of the package, thereby providing useful effects such as a reduction in packaging maintenance cost.

In addition, the temperature of the pavement can be maintained at about 30% lower than that of various asphalt road pavements, and greatly improves the heat island phenomenon caused by the radiant heat of the pavement in summer, thereby improving the comfort of driving and walking. In addition, it provides useful effects such as improving the environment for preventing global warming and improving the fluid resistance of the package.

1 is a flow chart of the road paving method having anti-stiffness and water retention according to the present invention.

Claims (13)

In the road paving method, Preparing a modified asphalt mixture by using modified asphalt (S1); Laying and compacting the prepared degree of asphalt mixture (S2); Preparing a water-retaining cement paste by combining cement with the water-retaining material (S3); Infiltrating the water-retaining cement paste into the pores of the construction of the asphalt road pavement (S4); And Curing the package in which the cement paste has penetrated for a predetermined time (S5); Road paving method having a semi-rigidity and water retention, characterized in that it comprises a. The method of claim 1, The paving road asphalt mixture is semi-rigidity and water retention method, characterized in that the dynamic stability has a flow resistance of more than 3,000 times / mm. The method according to claim 1 or 2, The above-mentioned degree asphalt mixture is made of a mixture of asphalt, asphalt modifier, coarse aggregate, fine aggregate and filling material, semi-rigidity and water retention, characterized in that the porosity of the package 15 to 30% during compaction construction (S2) Road paving method having. The method of claim 3, wherein The asphalt modifier is made of any one of styrene butadiene rubber, rubber powder and styrene butadiene styrene, semi-rigidity characterized in that the softening point of the modified modified asphalt is more than 60 ℃, 135 ℃ viscosity of 1,000 ~ 4,000 cp Road paving method with conservatism. The method of claim 1, The water-retaining cement paste is a road paving method having semi-rigidity and water retention, characterized in that the maximum water absorption of 40 to 80%. The method of claim 5, The water-retaining cement paste is made of a mixture of cement, superabsorbent polymer, strength expression enhancer, dry shrinkage and freeze-thaw prevention material, anti-slip material, fluidity improving material, condensation adjusting material and water, and a flow value of 9 to 15 seconds, The road paving method having semi-rigidity and water retention, characterized in that the maximum 7 days curing compressive strength of 100kg / cm2 or more at 40-80% maximum absorption. The method of claim 6, The superabsorbent polymer may be any one of a starch polymer by graft polymerization, a cellulose polymer by carboxy methylation, and a synthetic polymer polymer by crosslinking polymerization. The method of claim 6, The strength-improving material is a road paving method having a semi-rigidity and water retention, characterized in that the specific gravity is more than 2.0, the powder is 200,000 cm 2 / g or more and silica content of more than 90% silica fume. The method of claim 6, The drying shrinkage and freeze-thaw prevention material is a road paving method having a semi-rigidity and water retention, characterized in that any one of a rubber-based emulsion, synthetic rubber latex, acrylic resin emulsion, asphalt emulsion and polymer emulsifier. The method of claim 1, In the step (S3) of manufacturing a cement paste for penetration, a road paving method having semi-rigidity and water-retaining property, characterized by further mixing any one of a small amount of colored pigments, paint glass beads and mixtures thereof. The method of claim 1, The cured pavement is a road paving method having semi-rigidity and water retention, characterized in that the dynamic stability of 10,000 times / mm or more, the sliding resistance value of 40BPN or more. In the road paver, After installing and compacting the modified asphalt mixture using modified asphalt, and infiltrating the pores formed on the compacted asphalt pavement with cement and water-retaining materials, the water-retaining cement paste was mixed and cured for a predetermined time. A road paving material having semi-rigidity and water retention, characterized by being processed and cut. The method of claim 12, The road paving material has a semi-rigidity and water retention, characterized in that the block form.