KR101284685B1 - Cold recycling asphalt mixtures and manufacturing method thereof - Google Patents

Abstract

PURPOSE: A room temperature recycled asphalt concrete mixture is provided to make construction of road pavement possible without an extra heating process by including a recycled aggregate of reclaimed asphalt pavement, a new aggregate, cement, and EVA (Ethylene Vinyl Acetate) modified asphalt emulsion. CONSTITUTION: A room temperature recycled asphalt concrete mixture comprises 85-95 weight percent of an aggregate mixture and 5-12 weight percent of an asphalt emulsion modified by an ethylene vinyl acetate emulsion. The aggregate mixture comprises a recycled aggregate of reclaimed asphalt pavement, a new aggregate, and cement. The aggregate mixture is adjusted to be suitable to a gradation specification of the room temperature recycled asphalt concrete mixture indicated in GR F 4026. The aggregate mixture comprises below 50-98 weight percent of the recycled aggregate of the reclaimed asphalt pavement, over 0 and about 44 weight percent of the new aggregate, and 2-6 weight percent of the cement. A manufacturing method of the room temperature recycled asphalt concrete mixture comprises following steps. (i) the recycled aggregate of the reclaimed asphalt pavement and the new aggregate are mixed in a mixer. (ii) One half of the modified asphalt emulsion required is mixed to the mixture on the step (i). (iii) The cement is mixed to the mixture on the step (ii). And (iv) the rest one half of the modified asphalt emulsion required is mixed to the mixture on the step (iii).

Description

Room temperature recycled asphalt concrete mixture and its manufacturing method {COLD RECYCLING ASPHALT MIXTURES AND MANUFACTURING METHOD THEREOF}

The present invention relates to a room temperature reclaimed asphalt concrete mixture and a method for manufacturing the same, and more particularly, to a road using a room temperature regenerated asphalt concrete mixture including waste asphalt, new aggregate, cement, and EVA (ethylene vinyl acetate) modified emulsion asphalt. By paving, the present invention relates to a room-temperature reclaimed asphalt concrete mixture and a method for manufacturing the same, which can be paved at room temperature without a separate heating process.

As domestic traffic increases rapidly compared to the increase rate of roads, cracks are generated in road pavements and rainwater penetrates into the gaps to further develop pavement damage. As such, the pavement maintenance costs of national roads that are expended due to the breakage of road pavement are continuously increasing. Also, more than 90% of pavement of domestic roads is due to the asphalt concrete pavement, but the rapid increase of traffic on asphalt pavement. Due to the plastic deformation and cracks, the service life is not increased due to failure, and the maintenance cost is increased due to damage, and the safety accident of the vehicle due to the damage to the pavement is increasing.

As the maintenance method of the asphalt concrete pavement, there is an overlay method and a cutting overlay method. The overlay method, which has been mainly adopted in the past, increases the road surface by the thickness of the overlay every time it is constructed. There is a risk of accidents, problems such as deterioration of the drainage structure, maintenance of the height of the road boundary boundary, manholes, etc., height difference with the surrounding structures, and the need to overlay unnecessary road shoulders.

In addition, the cutting overlay method, which is widely used in recent years, is a method of overlaying after cutting an existing road surface, which can solve most of the problems of the overlay method, but requires a huge construction cost for cutting and reconstruction, and cuts an existing road surface. As a method of treating waste asphalt concrete, which is generated in the process of wastewater, has emerged as an environmental problem, a fundamental solution is needed.

In recent years, as a result of research on the regeneration technology of road pavement for the purpose of energy conservation and resource recycling in developed countries, the plant hot mix recycling and hot in-place surface recycling methods However, both the plant method and the surface regeneration method are difficult to install at room temperature and have to be constructed by heating. In order to solve this problem, by using the recycled aggregate derived from the waste ascon mixed with emulsified asphalt at room temperature, it is possible to reduce waste disposal costs and to produce eco-friendly production.

However, ascon (asphalt concrete) produced by such a recycling method has a problem in that the initial mixture is easily detached due to not having a large bonding force between the particles at the initial stage of construction, and there is a problem of early cracking or destruction. In addition, there is a problem that the distribution of the particles of the asphalt concrete aggregate is not constant, so it is difficult to satisfy the quality standards of the asphalt mixture.

The present invention has been made to solve the above problems, the room temperature regenerated asphalt concrete mixture according to the present invention and a method for producing the same, by adjusting the ratio of the recycled waste asphalt recycled aggregate, new aggregate, cement, GR, To provide room temperature reclaimed asphalt concrete mixtures that meet the particle size criteria of recycled room-temperature asphalt concrete mixtures, and that meet the stability, porosity and saturation, etc. specified in GR F 4026 by mixing modified asphalts. The purpose.

 In addition, the room temperature regenerated asphalt concrete mixture according to the present invention and the method for producing the same, increase the bonding strength between the particles at the beginning of the construction to prevent the separation of the initial construction mixture, high resistance to cracking, room temperature regeneration to prevent plastic deformation It is an object to provide an asphalt concrete mixture.

The present invention, in order to solve the above problems of the prior art, to prevent the increase in cost due to the use of a large amount of additives and modifiers, and also by using recycled aggregates derived from waste ascon, protection of natural aggregate resources and environmental protection It is designed to provide a reclaimed asphalt concrete composition that combines the strength, hardness, viscosity, stability and flexibility that asphalt concrete has, while circulating to meet the aggregate particle size standards of the recycled room temperature asphalt concrete mixture of GR F 4026. Modified by adding ethylene vinyl acetate emulsion (EVA) to mix the aggregate, new aggregate and cement, and to give point and adhesive properties to the emulsion mixture for mixing aggregates using emulsifiers with good mixing properties with cement. Room Temperature Recycling Asphalt Concrete Using Modified Emulsified Asphalt It provides the compounds.

According to the present invention, the waste ascon is crushed to comply with KS F 2572 asphalt concrete circulating aggregate standard, and the circulating aggregate derived from the waste ascon is mixed with new aggregate and cement, and filling material is defined in GR F 4026. Adjust to suit the particle size.

In addition, modified emulsification prepared by adding 1% to 20% by weight of ethylene vinyl acetate emulsion in order to impart adhesion and adhesion properties to cationic emulsion asphalt containing surfactants having good mixing properties with aggregate and cement. Prepared by mixing asphalt.

In mixing the aggregate and the modified emulsified asphalt prepared in the above step, the recycled aggregate derived from the waste ascon and a new aggregate are added to the mixer so that the aggregate is well mixed, wherein the modified emulsion asphalt is 50% by weight of the total requirement ( Room temperature regeneration produced by mixing by adding 1/2), mixing by adding cement, and adding and mixing the remaining 50% by weight (1/2) of the modified emulsion asphalt thereto. Provide an asphalt concrete mixture.

The present invention has a very eco-friendly effect can be used to recycle waste ascon efficiently by using waste ascon and new aggregate.

In addition, since the construction of the reclaimed asphalt concrete mixture is possible at room temperature, the construction is simple and construction costs are reduced, as well as there is almost no problem of oxidation and aging of the asphalt has the effect that the physical properties of the asphalt concrete mixture does not change.

In addition, since the heating step is omitted during the production of the recycled asphalt concrete mixture, there is no generation of harmful gas has an effect that does not cause environmental problems.

In addition, it is possible to optimally secure the porosity, which is the most effective parameter when paving roads and factory floors, and can play a role as a very stable paving material. It is an asphalt concrete composition.

 In addition, the modified emulsion asphalt prepared by adding ethylene vinyl acetate emulsion to the emulsion asphalt for mixing cationic aggregates using an emulsifier having good mixing properties with cement is used to remove the aggregate and fine powder after construction. It is possible to provide a room temperature regenerated asphalt concrete composition that can prevent).

The present invention is paving the road by using a room temperature recycled asphalt concrete mixture containing waste ascon, new aggregate, cement and EVA modified asphalt, room temperature recycled asphalt concrete mixture that can be paved road at room temperature without additional heating process And a method for producing the same, hereinafter, the present invention will be described in more detail.

The room temperature regenerated asphalt concrete mixture according to the present invention uses waste ascon and is constructed as it is at room temperature without a separate heating process. By adjusting it consists of 88% to 95% by weight of the aggregate mixture adjusted to meet the particle size criteria of the recycled room temperature asphalt concrete mixture of GR F 4026 and 5% to 12% by weight modified asphalt asphalt.

Aggregate mixtures of the components constituting the room temperature regenerated asphalt concrete of the present invention are as follows.

Waste ascon, which is the first component of the aggregate mixture of the present invention, means waste of asphalt concrete used in general road pavement, and the type thereof is not limited. And in the present invention, the waste ascon is to be in accordance with the quality standard KS F 2572, to be used by grinding the waste ascon used in the pavement. At this time, the waste ascon, that is, circulating aggregate is used to sort by size after removing the waste ascon foreign matter. At this time, the size of the selection is preferably 25mm ~ 13mm, 13mm or less, respectively, but is not necessarily limited thereto.

These recycled aggregates are the total aggregate mixture 50 wt% to less than 98 wt%. When the amount of the recycled aggregate is less than 50% by weight, the amount of waste ascon is less, so that the role of the recycled ascon is insignificant, and the physical properties of the packaging layer may be reduced.

The new aggregate (crushed stone) which is the second component of the aggregate mixture of the present invention preferably satisfies the quality standard of KS F 2357.

These new aggregates are greater than 0 to 44 weight percent of the total aggregate mixture. Included as. In addition, if the new aggregate is more than 44% by weight is rather excessive because the amount of recycled aggregates used is less because the role of recycled asphalt concrete is insignificant.

Cement, the third component of the aggregate mixture of the present invention, can be any cement type and can be any type of cement, including portland cement, crude steel portland cement, crude steel portland cement, medium heat portland cement, white portland cement, blast furnace portland cement, silica cement, fly ash cement. It can be selected from general cements used for road paving, such as alumina cement, expanded cement, sulfate resistant cement, jet cement, blast furnace colloid cement and colloid cement. Preferably it is very effective to use Portland cement.

Such cements comprise from 2% to 6% by weight of the total aggregate mixture. At this time, the content of cement is 2% by weight to 6% by weight. If the amount of cement exceeds 6% by weight, it will not be suitable for the particle size specified in GR F 4026, and after curing, the mixture loses the characteristics of the flexible pavement, which is inherent to asphalt concrete, and acts as a rigid pavement. Cracking becomes easy to occur. In addition, when the amount of cement is less than 2%, stability and plastic deformation resistance decrease after curing the mixture.

The modified emulsion asphalt of the present invention has good mixing properties with cement in the asphalt emulsion for aggregate mixing (emulsified asphalt MSC-2 of KS M 2203), and is widely used as an adhesive and an tackifier. Ethylene Vinyl Acetate Emulsion It is preferable to use a modified emulsion asphalt prepared by mixing 2% to 20% by weight of the total modified emulsion asphalt. That is, it is preferable to use a modified emulsion asphalt consisting of 98% to 80% by weight of the emulsified asphalt MSC-2 for aggregate mixing and 2% to 20% by weight of ethylene vinyl acetate emulsion.

Ethylene Vinyl Acetate (EVA) Emulsion used in the present invention is prepared by suspension polymerization (emulsion polymerization, Emulsion Polymerization), the vinyl acetate (Vinyl Acetate) content of 40% to 60% by weight It is mainly used for bonding purposes. The ethylene vinyl acetate emulsion has excellent mixing properties with cement, and when mixed with cement mortar, water-tightness increases, elasticity after curing, and adhesion increases. If the ethylene vinyl acetate emulsion is less than 2% by weight, the adhesion is insufficient when the emulsion asphalt is mixed with the aggregate, and if it exceeds 20% by weight, the cost increases as well as the adhesion becomes too large, resulting in the curing of the mixture. After the removal, the adhesive is adhered to the tire or the like to increase the detachment of the mixture.

Method for producing a room temperature reclaimed asphalt concrete mixture of the present invention, the recycled aggregate of waste ascon in the aggregate mixture adjusted to meet the particle size criteria of the recycled room temperature asphalt concrete mixture of the GR F 4026, and the new aggregate to the mixer A first mixing step of injecting and mixing;

A second mixing step of mixing 1/2 of the modified emulsion asphalt required for the mixture obtained in the first mixing step;

A third mixing step of mixing cement by adding cement to the mixture obtained in the second mixing step;

It is prepared by including a fourth mixing step of mixing by adding the remaining half of the modified emulsion asphalt to the mixture obtained in the third mixing step.

In the present invention, the modified emulsion asphalt is divided into two stages and four stages as described above, and the modified emulsion asphalt added in the second stage serves to coat aggregate, and the emulsion asphalt added to the fourth stage is mixed with cement. This is to improve the watertightness and adhesion of the cement after curing.

Hereinafter, the present invention will be described in more detail with reference to specific examples. However, the scope of the present invention is not limited by the following examples, and those skilled in the art to which the present invention pertains should be within the scope equivalent to the technical idea of the present invention and the claims to be described below. Various modifications and variations will be possible.

≪ Example 1 >

(1) design of the aggregate mixture

In order to meet the particle size of BB-2 for base material of GR F 4026, recycled aggregates selected from 25mm to 13mm by crushing waste ascon and recycled aggregates selected from 13mm or less by crushing waste ascon were removed Particle size analysis was performed, and new aggregate (number range 40mm ~ 5mm) and fine aggregate of KS F 2357 No. 467 were analyzed. As a result, when 25% by weight of recycled aggregates selected from 25mm to 13mm and 34% by weight of recycled aggregates selected from 13mm or less, 23% by weight of new aggregate No. 467, 14% by weight of new fine aggregate, and 4% by weight of ordinary portland cement were mixed. It was confirmed that it was suitable for the BB-2 particle size for the base layer of F 4026.

(2) Preparation of Modified Emulsified Asphalt

93% by weight of an emulsified asphalt for mixing aggregates (MSC-2 specified in KS M 2203 emulsified asphalt) was mixed with 7% by weight of ethylene vinyl acetate emulsion having a solid content of 55% by weight or more and a viscosity of 3,500 to 4,500 cPs at 25 ° C. To produce a modified emulsified asphalt.

(3) Preparation of room temperature regenerated asphalt mixture

Of the aggregate mixture 93.3% by weight of the aggregate mixture designed in the aggregate mixture design, the cement mixture except cement was mixed and mixed well, followed by adding 3.35% by weight of the modified emulsion asphalt prepared above, and mixing the aggregate into modified asphalt emulsion. After coating, the cement mixture was added and mixed with the designed aggregate mixture, and then, 3.35 wt% of the modified asphalt modified asphalt was mixed to prepare a BB-2 room temperature regenerated asphalt concrete mixture for GR F 4026. The prepared room temperature regenerated asphalt mixture was compacted 50 times on both sides using a Marshall compactors to prepare a test specimen for Marshall test, and then cured. Cured Marshall test specimens were tested for the properties specified in GR F 4026.

<Example 2>

(1) design of the aggregate mixture

In order to make the GRF 4026 fit the surface granularity of 20mm, the recycled aggregates selected from 13mm or less after crushing the waste ascon were removed by asphalt using a combustion tester and analyzed by particle size analysis. Particle size range 20mm ~ 5mm) and fine aggregate were analyzed. As a result, mixing 67% by weight of circulating aggregate selected by 13mm or less, 21% by weight of new aggregate No. 65, 7% by weight of new fine aggregate, and 5% by weight of ordinary portland cement were suitable for 20mm particle size of GRF 4026. It was confirmed.

(2) Preparation of Modified Emulsified Asphalt

Aggregate Emulsion Asphalt (MSC-2 as defined in KS M 2203 Emulsion Asphalt) is mixed with 85% by weight of ethylene vinyl acetate emulsion having a solid content of 55% by weight or more and a viscosity of 1,500 to 2,500 cPs at 25 ° C. To produce a modified emulsified asphalt.

(3) Preparation of room temperature regenerated asphalt mixture

Of the aggregate mixture 91.5% by weight of the aggregate mixture designed in the aggregate mixture design, the cement mixture except cement was mixed well and then mixed by adding 4.25% by weight of modified emulsion asphalt prepared above, and the aggregate was modified as an asphalt emulsion. After coating, cement was added to the aggregate mixture designed therein, and then mixed with 4.25% by weight of modified emulsion asphalt to prepare a 20 mm room temperature regenerated asphalt concrete mixture of GR F 4026. The prepared room temperature regenerated asphalt mixture was compacted 50 times on both sides using a Marshall compactor to prepare a test specimen for Marshall test, and then cured. Cured Marshall test specimens were tested for the properties specified in GR F 4026.

<Example 3>

(1) design of the aggregate mixture

In order to make the GRF 4026 suitable for the 13mm particle size of the surface layer, the recycled aggregates selected from 13 mm or less after crushing the waste ascon were removed by asphalt using a combustion tester and analyzed by particle size analysis. Particle size range 13mm ~ 2.5mm) and fine aggregate were analyzed. As a result, when 80% by weight of circulating aggregate selected from 13mm or less, 15% by weight of new aggregate No. 78, and 5% by weight of ordinary portland cement were mixed, it was confirmed that GRF 4026 was suitable for 20mm particle size of surface layer.

(2) Preparation of Modified Emulsified Asphalt

Aggregate Emulsion Asphalt (MSC-2 as defined in KS M 2203 Emulsion Asphalt) is mixed with 85% by weight of ethylene vinyl acetate emulsion having a solid content of 55% by weight or more and a viscosity of 1,500 to 2,500 cPs at 25 ° C. To produce a modified emulsified asphalt.

(3) Preparation of room temperature regenerated asphalt mixture

In the aggregate mixture 90.3% by weight of the aggregate mixture designed in the aggregate design, the aggregate mixture excluding cement was added well to the mixing mixer, followed by mixing by adding 4.85% by weight of the modified emulsion asphalt prepared above, and mixing the aggregate into the modified asphalt emulsion. After coating, the cement of the aggregate mixture designed therein was added and mixed, followed by 4.85% by weight of modified asphalt modified asphalt to prepare a granularity 13 mm room temperature regenerated asphalt concrete mixture for GR F 4026. The prepared room temperature regenerated asphalt mixture was compacted 50 times on both sides using a Marshall compactor to prepare a test specimen for Marshall test, and then cured. Cured Marshall test specimens were tested for the properties specified in GR F 4026.

The physical properties of the mixtures were evaluated by the resistance test against the plastic flow of the asphalt composition using KS F 2337, Marshall tester, respectively, for the room temperature regenerated asphalt concrete prepared in the examples. The results are shown in the table below.

Quality Evaluation of Substrate Mixtures Item Quality standards Example 1 Stability (25 ℃, N) More than 3,500 15,435 Flow value (1 / 100cm) 10 to 50 42 Porosity (%) 3-12 7.3

 Quality Evaluation and Results of Surface Mixtures Item Quality standards Example 2 Example 3 Stability (25, N) More than 5,000 18,535 17,430 Flow value (1 / 100cm) 20 to 40 32 28 Porosity (%) 3 to 10 4.8 4.1 Saturation (%) 60 ~ 85 68 72 Indirect tensile strength (25, MPa) 0.15 0.28 0.31 Residual tensile strength ratio 0.75 0.79 0.84

As shown in the above table, the GRF 4026 recycled room temperature asphalt concrete mixture shows a very good result in all the examples, which is a very suitable recycled ascon for road paving and floor paving.

In addition, the present invention does not need any heating at the time of the road paving work and can be carried out immediately by transporting the recycled ascon composition to the road paving site, even after paving, no cracking occurs on the paved road.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (10)

delete delete delete delete delete By mixing the recycled aggregate, new aggregate and cement produced by crushing the waste ascon, the aggregate mixture adjusted to fit the particle size of the room temperature reclaimed asphalt concrete mixture specified in GR F 4026, and an ethylene vinyl acetate emulsion A method for producing a room temperature regenerated asphalt concrete mixture comprising a modified modified asphalt,
A first mixing step of mixing the recycled aggregate of waste ascon and the new aggregate into a mixer in the aggregate mixture adjusted to meet the particle size criteria of the recycled room temperature asphalt concrete mixture defined in GR F 4026;
A second mixing step of mixing 1/2 of the modified emulsion asphalt to be used in the mixture obtained in the first mixing step;
A third mixing step of mixing cement by adding cement to the mixture obtained in the second mixing step;
And a fourth mixing step of mixing the remaining half of the modified emulsion asphalt to be used in the mixture obtained in the third mixing step. The method according to claim 6,
The aggregate mixture of the room temperature regenerated asphalt concrete mixture is 88% to 95% by weight, and the modified emulsion asphalt accounts for 5% to 12% by weight. 8. The method according to claim 6 or 7,
Aggregate mixture is 50% to less than 98% by weight of recycled aggregates produced by grinding waste ascon, new aggregates are more than 0% to 44% by weight; The cement comprises from 2% by weight to 6% by weight. 8. The method according to claim 6 or 7,
Modified emulsion asphalt modified with ethylene vinyl acetate emulsion is 80% to 98% by weight of emulsion asphalt MSC-2 and 2% to 20% by weight of ethylene vinyl acetate emulsion. Characterized in that the method. The method of claim 9,
Ethylene Vinyl Acetate (EVA) Emulsion is prepared by suspension polymerization (Emulsion Polymerization), and the vinyl acetate content is 40 to 60% by weight, which is used for adhesion purposes. Characterized in that the method.