KR20060099547A - Asphalt-concrete grout material with rapid-hardening and semi-rigid - Google Patents

Abstract

The present invention relates to an injection material for asphalt concrete, in particular, to have a medium strength between the asphalt pavement and the cement pavement to reduce the breakage rate of the road due to the movement of the overweight, and to adjust the setting speed according to the road conditions As well as to accelerate the opening time, it is possible to reduce the noise generated during the running of the vehicle, and relates to an asphalt concrete injection material having fast rigidity and semi-rigidity to improve the strength.

Asphalt concrete injection material according to the present invention, in the asphalt concrete injection material used in road construction, one kind of cement 40 ~ 80 parts by weight; 10 to 35 parts by weight of cemented carbide cement; Anhydrous gypsum 10-20 parts by weight; It consists of 5 to 15 parts by weight of fine fine powder having a particle size of silica sand, and 2 to 4 parts by weight of fluidized fire according to the construction environment.

Asphalt concrete injection material, flow resistance, semi rigidity

Description

Asphalt-concrete grout material with rapid-hardening and semi-rigid}

The present invention relates to an injection material for asphalt concrete, and more particularly, to an injection material for providing fluid resistance and anti-stiffness to asphalt concrete.

Moreover, by having an intermediate strength between the asphalt pavement and the cement pavement, it reduces the damage rate of the road due to the movement of the overweight, and adjusts the condensation speed according to the road conditions, and accelerates the opening time. It is possible to reduce the noise generated during the running of the asphalt concrete injection material having a fast rigidity and semi-rigidity to improve the strength.

In general, the pavement of the road is divided into asphalt concrete (hereinafter referred to as "ascon") paving and cement concrete paving.

The ascon is formed by stacking a base layer on the top of the roadbed, and sequentially stacking an intermediate layer and a surface layer on the top of the base layer, wherein the surface layer is formed by mixing asphalt remaining in petroleum with a crushed stone having a constant particle size. It is stablely seated by the asphalt, and a constant elastic force is given by the asphalt, so that there is a shock absorbing effect against the pressurized pressure from the top, thus generating less noise when driving the vehicle and reducing the wear of the tire.

However, the ascon road has a disadvantage that the road surface is submerged or deformed easily when a large weight is applied, especially when the geothermal heat is high in summer, because the rigidity and adhesion are small.

In addition, the cement concrete pavement is formed by the cement concrete road has a large rigidity has the advantage of less damage even when a truck, such as a large weight is running, there is a disadvantage that the noise is large, the tire wear degree is large.

Therefore, in the developed countries, semi-rigid road paving materials, which are both new materials having both properties such as ductility of cement and rigidity of cement, have been developed and released.

The semi-rigid road pavement is formed by the surface of the crushed asphalt concrete, and the asphalt concrete is injected into the surface layer, the asphalt concrete is injected into the porous surface of the road is completed.

Therefore, the semi-rigid road paving material is an important composition for determining the properties of the road ascone injection material adhering the crushed stone, the situation is required for various studies to improve the quality of the semi-rigid road paving material.

The present invention was prepared to solve the above-mentioned problems, as a kind of cement, ultrafast cement, anhydrous gypsum, mixed with the fine powder having a particle size of about 8 silica sand, to prepare ascon injection material, the ascon injection material is a road fault layer An open road that forms the top layer of the surface is injected into ascon to provide ascon injection material used for the construction of semi-rigid roads having both ductility and cement road stiffness.

In addition, ascon injection material of the present invention can be applied to a variety of roads, such as roads of pedestrians and bicycles and roads of heavy or light traffic, such as by further mixing the fluidizing agent powder, the coagulation delay agent and the coagulation accelerator to shorten the road opening time. To provide a useful product.

An object of the present invention as described above, in the asphalt concrete injection material used in road construction, one kind of cement 40 ~ 80 parts by weight; 10 to 35 parts by weight of cemented carbide cement; Anhydrous gypsum 10-20 parts by weight; It is made of asphalt concrete injection material, characterized in that consisting of 5 to 15 parts by weight of fine powder having a silica sand particle size.

Hereinafter, the asphalt concrete (hereinafter referred to as "ascon") injection material of the present invention will be described in detail.

Ascon injection material according to the present invention can be divided into a complete type, a fast diameter, super fast diameter according to the mixing ratio of the mixture.

First, the finished ascon injection material according to the present invention is prepared by mixing one kind of cement, an ultrafast cement, an anhydrous gypsum, a fine powder having a particle size of No. 8 silica sand, and a fluidizing agent.

The mixing ratio of the composition for forming the finished ascon injection material is 60 to 80 parts by weight of one kind cement, 10 to 20 parts by weight cemented carbide, 10 to 20 parts by weight anhydrous gypsum, 5 to 15 parts by weight of light fine powder Melamine base fluidizing agent powder is mixed with 1 to 2 parts by weight, and lignin base fluidizing agent 0.5 to 1 part by weight is added to the proportion.

The first cement is used to impart the rigidity of the asphalt concrete, and portland cement is typically used.

When the first cement is mixed in an amount of 40 parts by weight or less, the initial cement hardening ratio of cement and cement becomes relatively high, and thus the initial rigidity of the cement is increased too much, and the required usable time (housework time) is secured for about 1 hour. It is difficult, if more than 80 parts by weight of the relatively low initial stiffness is preferably mixed in the range of 40 to 80 parts by weight.

The cemented carbide cement is intended to shorten the curing time of the ascon injection material, including cemented carbide cement, alumina cement, calcium sulfoaluminate (CSA) cement, etc. Typically, calcium sulfoaluminate cement mixed with calcium, sulfo, and aluminate Use

When the cemented carbide is mixed in an amount of 10 parts by weight or less, curing time is long and rigidity is weakened. When 35 parts by weight or more is mixed, the hydration reaction temperature is rapidly increased to generate heat, it is difficult to ensure fluidity, and the manufacturing cost is increased, and it is preferable to mix in the range of 10 to 35 parts by weight.

The anhydrous gypsum is to increase the rigidity, delay the condensation, and when mixed to 10 parts by weight or less, the increase in stiffness and the delay of setting the condensation is insufficient, and when 25 parts by weight or more is mixed, the condensation time is There is a disadvantage in that it takes too long, it is preferable to mix in the range of 10 to 25 parts by weight.

The fine powder having the particle diameter of No. 8 silica sand is added to increase the friction of the road, and when mixed to 5 parts by weight or less, the friction increase effect is insufficient, and when 15 parts by weight or more is mixed, Since the bonding force is lowered and the breakage rate is increased, it is preferable to mix in the range of 5 to 15 parts by weight.

The fluidizing agent powder may be used one or two or more selected from the group consisting of naphthalene base, melamine base, lignin base.

The naphthalene base fluidizing agent is advantageous in securing initial fluidity, but when it is more than 30 minutes, the fluidity drops drastically.

Melamine-based fluidizing agents are less likely to generate bubbles than naphthalene-based fluidizing agents and are advantageous in terms of their initial strength, but they are supplemented with lignin-based fluidizing agents because cost increases and liquidity is difficult to secure until 1 hour.

It is preferable to set it as 1-2 weight part of melamine bases, and 0.5-1 weight part of lignin bases. When the melamine-based fluidizing agent is mixed at 1 part by weight or less, it is difficult to secure initial fluidity, and when mixed at 2 parts by weight or more, the liquidity within 1 hour, which is a cost increase and pot life (working time), is encountered. As a lignin-based fluidizing agent, it keeps 8 cps or less until 1 hour of pot life.

When the lignin base fluidizing agent is also less than 0.5 parts by weight, the effect is insufficient, and when it is 1 part by weight or more, it is advantageous to secure fluidity in the pot life, but the initial rigidity is inferior.

In this case, the mixed ascon injection material is maintained at an initial viscosity of 8 cps (KS M 3825) or less for 1 hour when the ratio (w / c) of water and ascon injection material mixture is 40 to 45%. After this, more than 100kgf / cm ² strength is generated. In other words, when the gel-like asphalt concrete is injected into the surface of the road, the asphalt concrete is permeated into the pores of the porous pavement ascon surface for 1 hour with an initial viscosity of 8 cps or less to completely fill the voids in the surface layer. The road is made of semi-rigid roads.

On the other hand, the finished ascon injection material may increase the ratio of the use of ultra-fast cement and anhydrous gypsum to a certain portion in order to secure fluidity and shorten the final setting time.

Next, the fast diameter ascon injection material is melamine-based fluidized to 40 ~ 70 parts by weight of one kind cement, 20 to 35 parts by weight cemented carbide, 10 to 25 parts by weight anhydrous gypsum and 5 to 15 parts by weight fine tailing powder 1 to 2 parts by weight, lignin base fluidizing agent 0.5 to 1 parts by weight of the extrapolation is prepared and mixed.

In this case, the mixed fast ascon injection material maintains the initial viscosity at 8 cps or less for 1 hour when the ratio (w / c) of water and ascon injection material mixture is 40 to 45%, and 100kgf / cm after 24 hours of curing. ^Two or more intensities are generated. In other words, when the gel-like ascon injection material is injected into the surface of the road, the ascon injection material penetrates into the pores of the porous surface layer for 1 hour with an initial viscosity of 8 cps or less to completely fill the voids of the surface layer, and then condensation takes place for 24 hours. After that, a road with semi-rigidity is constructed.

On the other hand, it is possible to manufacture a super fast ascon injection material that shortens the final condensation and strength expression time than the fast ascon injection material.

The super fast ascon injection material may be further added to the fast curing ascon injection material in order to express the strength in a short time coagulation delay agent and coagulation accelerator.

The reason why the coagulation delay agent and the coagulation accelerator are added together is that the coagulation delay agent increases the ratio of the cemented carbide in order to shorten the strength expression, thereby securing the pot life, and the coagulation accelerator is the coagulation delay for the pot life. At the same time as the ritual ends, it is used to further promote condensation.

The coagulation delay agent may be used by selecting one or more from the group consisting of tartaric acid, citric acid, sodium gluconate, and the like, since tartaric acid has a longer coagulation delay effect than citric acid and sodium gluconate. desirable.

In addition, the coagulation accelerator may be used at least one selected from the group consisting of soda ash, manganese, lithium hydroxide, lithium carbonate, and the like, and it is preferable to use lithium carbonate having a similar reaction time with tartaric acid.

Such a coagulation delay agent and a coagulation accelerator are preferably mixed in a range of 0.1 to 0.5 parts by weight of tartaric acid and 0.1 to 0.5 parts by weight of lithium carbonate based on the fast-drying ascone injection material mixture. When tartaric acid is mixed at 0.1 parts by weight or less, the retardation effect is insignificant, and when mixed at 0.5 parts by weight or more, condensation is delayed and causes initial stiffness to be weak. When lithium carbonate is also mixed at 0.1 parts by weight or less, In case of less than 0.5 parts by weight of the promotion effect is difficult to increase the cost and initial liquidity.

That is, the super fast cemented ascon injection material in which the coagulation delay agent and the coagulation accelerator are mixed is 40 to 70 parts by weight of one kind cement, 20 to 35 parts by weight cemented cement, 10 to 25 parts by weight anhydrous gypsum, and tailings having particle size of No. 8 silica sand. 1 to 2 parts by weight of melamine base fluidizing agent powder, 0.5 to 1 part by weight of lignin base fluidizing agent powder, 0.1 to 0.5 part by weight of tartaric acid, and 0.1 to 0.5 parts by weight of lithium carbonate are added and mixed to prepare 5 to 15 parts by weight. .

The ultra-compact ascon injection material mixed in this way is maintained at an initial viscosity of 8 cps or less for 1 hour when the ratio (w / c) of water and ascon injection material mixture is 40 to 45%, and after 2 to 3 hours of curing At least 100 kgf / cm ² of strength is generated. In other words, when the gel-based asphalt concrete is injected into the surface of the road, the asphalt concrete is permeated into the pores of the porous pavement ascon surface for 1 hour with an initial viscosity of 8 cps or less to completely fill the voids in the surface layer. Condensation takes ~ 3 hours to build a semi-rigid road.

As described above, the asphalt concrete injection material of the present invention is a cement of one kind, cemented cemented carbide, anhydrous gypsum, the finished ascon injection material prepared by mixing the fine powder having a particle size of No. 8 silica sand, and the cement of one kind in the finished asphalt concrete injection material Reduce the ratio, increase the ratio of cemented carbide and anhydrous gypsum, and further mix the lignin-based fluidizing agent powder to prepare a fast-drying ascon injection material, and further mixed with tartaric acid, lithium carbonate to the fast-drying ascon injection material ultra-fast ascon injection material To manufacture, each ascon injection material will be applicable to various road construction sites by varying curing time.

That is, in general, when constructing a road, a complete ascon injection material may be used, and when a traffic opening of the road is to be carried out quickly, a fast or super fast ascon injection material may be used. The super fast ascon injection material can be used to resume traffic within 2 to 3 hours after construction.

In addition, the ascon injection material may vary the depth of injection and the thickness of the semi-rigid pavement layer according to the purpose of use of the road.

On roads where large loads are transmitted, the asphalt concrete can be used to solidify by injecting the asphalt concrete into the voids of the asphalt concrete.On the roads where only relatively small loads such as pedestrian or bicycle roads are carried, the asphalt concrete is placed only on the voids formed at the upper part of the surface layer. It can be built by infiltration.

The thickness of the semi-rigid packaging layer to which the ascon injection material is administered is sequentially stacked on the road in the case of a heavy traffic road with an auxiliary base layer of 30 cm, an asphalt base layer of 15 to 20 cm, and an anti-rigid packing layer of 5 to 7 cm. In case of a plaza, it is sequentially stacked on the road with 15cm of auxiliary base, 5 ~ 15cm of asphalt base, and 4 ~ 5cm of semi-rigid paving layer. It can be modified under a variety of purposes, such as by using a lamination, it can be a variety of colors by adding a pigment within the range does not lower the bonding strength of the mixture.

In the following, the ratio of the composition according to each embodiment will be described in detail, and the characteristics thereof will be described.

Example 1

According to the present invention, 60 parts by weight of one kind cement, 20 parts by weight cemented carbide, 10 parts by weight of anhydrous gypsum, 10 parts by weight of fine fine powder having a particle size of No. 8 silica sand, 1 part by weight of melamine-based fluidizing agent powder, 0.5 parts by weight of lignin-based fluidizing agent It is the test result of the complete ascon injection material mixed and added by weight.

As the road design pavement construction guideline established by the Korean Ministry of Construction does not have the quality standards prescribed for the specifications of ascon injection material, the tests are conducted according to the standards set in the asphalt pavement syllabus of the Japan Road Association and considering the necessary matters on site construction. The results are shown in Table 1 below.

As shown in the above test results, although the test was carried out 72 hours after the curing time earlier than the standard value prescribed by the Japan Highway Association, the results exceeded the requirements.

Example 2

According to the present invention, 50 parts by weight of one kind cement, 26 parts by weight cemented carbide, 14 parts by weight of anhydrous gypsum, 10 parts by weight of fine fine powder having a particle size of No. 8 silica sand, 1 part by weight of melamine base fluidizing agent powder, lignin base fluidizing agent powder It is the test result of the fast diameter ascon injection material mixed by adding 0.5 parts by weight. As the road design pavement construction guideline established by the Korean Ministry of Construction does not have the quality standards prescribed for the specifications of ascon injection material, the tests are conducted according to the standards set in the asphalt pavement syllabus of the Japan Road Association and considering the necessary matters on site construction. The results are shown in Table 2 below.

As shown in the above test results, the results exceeded the requirements even though the curing time was tested 24 hours after the curing time earlier than the standard value specified by the Japan Highway Association.

Example 3

According to the present invention, 50 parts by weight of one kind cement, 26 parts by weight cemented carbide, 14 parts by weight of anhydrous gypsum, 10 parts by weight of fine fine powder having a particle size of No. 8 silica sand, 1 part by weight of melamine base fluidizing agent powder, lignin base fluidizing agent powder It is the test result of the ultra-fast ascon injection material mixed with 0.5 parts by weight, 0.5 parts by weight of tartaric acid as a coagulation delay agent, and 0.5 parts by weight of lithium carbonate as a coagulation accelerator. As the road design pavement construction guideline established by the Korean Ministry of Construction does not have the quality standards prescribed for the specifications of ascon injection material, the tests are conducted according to the standards set in the asphalt pavement syllabus of the Japan Road Association and considering the necessary matters on site construction. The results are shown in Table 3 below.

As shown in the above test results, the results exceeded the requirements despite the three hours curing after the curing time was earlier than the standard set by the Japan Highway Association.

As described above, the ascon injection material according to the present invention is mixed with the first type cement, cemented carbide cement, anhydrous gypsum, the fine powder having a no. 8 silica sand particle diameter to prepare ascon injection material, the ascon injection material is the top layer of the road fault layer By injecting the asphalt concrete to form the surface layer, the performance of the injection material which enables the construction of semi-rigid roads with both ductility of asphalt concrete and stiffness of cement road was confirmed.

In addition, it is possible to shorten the road opening time by further mixing the fluidizing agent powder, the condensation delaying agent and the condensation accelerator, and it is possible to provide useful products applicable to various roads such as automobile roads, pedestrians and bicycle roads of heavy or light traffic. Was done.

Claims (6)

Asphalt concrete injection material used for road construction, 40 to 80 parts by weight of one kind of cement; 10 to 35 parts by weight of cemented carbide cement; Anhydrous gypsum 10-20 parts by weight; Asphalt concrete injection material, characterized in that consisting of 5 to 15 parts by weight of fine powder having a silica sand particle size. The asphalt concrete injection material of claim 1, wherein the asphalt concrete injection material is added to 2 to 4 parts by weight of fluidizing material. The asphalt concrete injection material of claim 1 or 2, wherein the asphalt concrete injection material is 0.1 to 0.5 parts by weight of tartaric acid as a coagulation retardant and 0.1 to 0.5 parts by weight of lithium carbonate as a coagulation accelerator. . The asphalt concrete injection material according to claim 1 or 2, wherein the cemented carbide is any one of calcium aluminate, calcium fluoroaluminate, calcium sulfoaluminate, and amorphous calcium aluminate. 4. The asphalt concrete injection material according to claim 3, wherein the cemented carbide is any one of calcium aluminate, calcium fluoroaluminate, calcium sulfoaluminate, and amorphous calcium aluminate. The asphalt concrete injection material according to claim 2, wherein the fluidizing material is any one of naphthalene base fluidizing agent, melamine fluidizing agent, and lignin base fluidizing agent.