KR100565947B1 - Environmentally friendly ground foundation materials, structure of pavement layer using ground foundation materials and construction method for pavement of farm road and street - Google Patents

Abstract

The present invention relates to an environmentally friendly ground stabilizer for farm roads and road pavements, including perlite, which is an inorganic material having improved water permeability due to porosity, and a road layer structure using the same, and its construction method. In addition, the present invention provides a natural environment-friendly ground stabilizer for farm roads and road pavement, and a road layer structure using the same, and a construction method thereof, in which drainage can be smoothly made by using a solidified component that can increase the permeability characteristic value.

The present invention uses a road ground stabilizer containing a ferrite, an inorganic material having improved water permeability due to porosity, and soil discharged directly from the site, so that the permeation of the farm and the ground is made smoothly, and the strength is also 180-200 kgf /. It has a stable uniaxial compressive strength corresponding to ㎠, and it is characterized by a natural environment-friendly ground stable treatment agent that can be used for the transportation of heavy equipment or for human sidewalks necessary for agricultural work, road layer structure and construction method using the same.

Environment-Friendly, Farm & Road Pavement, Perlite, Soil Stabilizer, Permeability, Uniaxial Compressive Strength

Description

Environmental friendly ground foundation materials, structure of pavement layer using ground foundation materials and construction method for pavement of farm road and street}

1 is a cross-sectional view showing a schematic farm road and road structure according to the present invention.

<Description of Symbols for Main Parts of Drawings>

(1): Farm roads and road grounds

(2): primary ground stable treatment layer

(3): secondary ground stable surface treatment layer

The present invention relates to a natural environment-friendly ground stable treatment agent for farm roads and road pavements, including perlite, which is an inorganic material having improved water permeability due to porosity, and a road structure and a construction method using the same. The present invention relates to a soil stabilizer for road and road pavement, and a road layer structure using the same, and a method of constructing the same, by forming a secondary or more ground stabilized layer on the ground to have stable compressive strength and excellent permeability.

Conventionally, in paving farm roads and roads, asphalt concrete and cement concrete, sidewalk blocks which are paving materials for sidewalks are mainly used.

However, this method improves the impermeability coefficient when each material is cured through curing time, and water is flooded when used on farm roads or roads where drainage is not well established due to poor water permeability. There was a problem that the seriousness of the summer is concentrated.

In addition, due to the high impermeability coefficient, there is a problem in that it is not natural friendly due to the destruction of the ecosystem on the paved road because the breathability is not smooth.

In addition, in the case of asphalt, cement concrete and sidewalk blocks, the interface between the media due to the lack of affinity with the ground by using asphalt or cement concrete and urethane or recycled sidewalk blocks, which are different from those of the base, When peeling occurs, and the ground is weakened by such a phenomenon, a problem may occur that leads to destruction of the upper pavement of the road.

Of course, in the late 1970s, advanced foreign countries developed permeable asphalt concrete and installed it in parking lots and plazas around the sidewalks, and gradually developed it to develop drainage pavement and inhalable pavement. However, since only asphalt is used as a binder, the strength and durability are weak, and the permeability decreases rapidly due to the adhesion of foreign substances due to the viscosity of asphalt due to the increase in surface temperature in summer.

In addition, there is a problem in that the pavement is economical in terms of cost reduction of transportation and material costs by using other materials, that is, asphalt, concrete, blocks, etc., without using the raw ground discharged during the flat or ground work of the road.

An object of the present invention for solving the above problems is a natural environment-friendly ground stabilizer for farm roads and road pavement that can be drained smoothly using a solidified component that can increase the permeability characteristics as well as uniaxial compressive strength, which is mechanical strength and To provide a road layer structure and a construction method using the same.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional defects is ground stability treatment agent characterized in that the perlite, using the primary ground stabilized treatment layer and secondary ground using the pit soil of the ground using the same It is composed of stable surface treatment layer, and it is characteristic of the technical idea to use such treatment agent and construction method that is eco-friendly.

The perlite contained in the ground stabilizer is a glassy rock formed by rapid cooling of lava generated by volcanic activity, which contains 2.5% of crystal water and is a porous particle formed when the crystal water is vaporized when it is rapidly heated at a temperature of 870 ° C. or higher. It is easy to absorb water and drains smoothly.

Hereinafter, the configuration and the operation of the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a schematic ground stabilized treatment structure according to the present invention, in which the primary ground stabilized layer 2 and the secondary ground stabilized surface layer treated layer 3 are formed from a base ground (bottom surface) 1. It is formed in a stacked structure in turn.

In the present invention, the ground stabilizer is 50-70 parts by weight of cement, 10-20 parts by weight of perlite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume, and 2-5 parts by weight of sodium silicate.

The ground stabilizer is a powder prepared by adding and mixing 50-70 parts by weight of cement, 10-20 parts by weight of perlite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume and 2-5 parts by weight of sodium silicate. Then, according to the saturn of the treated layer, the mixture is mixed with the soil and stirred to add water while preparing for compaction.

The cement is used in general portland cement and set the formulation according to the characteristics of the soil, especially in the soft ground may be a constant mixing of alumina cement and the like to improve its strength. Cement is a pozzolanic reaction to increase the high strength of the ground stabilized layer to give a strength that is less than the weight part when the strength is low, and in many cases the resistance to freeze thaw weakened can damage the ground layer.

The perlite is used to improve the permeability performance of the porous particles corresponding to the particle size of 2-4㎜, if less than the weight part, the permeation phenomenon is not made smoothly, and in many cases the high cohesion of the ground stabilized layer is lowered and the cost It is a factor of rise.

The calcium carbonate, silica fume, and sodium silicate are derivatives of the pozzolanic reaction, and are materials that contribute to strength enhancement, such as cement.

Calcium carbonate is a material that initially expresses the strength of the ground stabilized layer. If it is less than the weight part, the initial strength is not expressed. If the calcium carbonate is large, the initial strength is good, but the strength of the ground stabilized layer is lowered later.

Silica fume is amorphous silica that facilitates the hydration of cements and activates the pozzolanic reaction. If it is small, the strength of the ground stabilized layer decreases, and if it is large, there is a problem in cost increase.

Sodium silicate is crystalline sodium silicate, which is used as a curing agent or stabilizer for cement, and when it is less, the high cohesion and strength of the soil decrease.

According to the present invention, the road layer structure formed on the base is soil excavated from the base, 50-70 parts by weight of cement, 10-20 parts by weight of ferrite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume, and silicon silicate. A primary ground stabilized layer mixed with a ground stabilizer having a mixed composition of 2-5 parts by weight and compacted and stacked on a base;

Aggregate collected from the raw ground on the primary ground stabilized layer, 50-70 parts by weight of cement, 10-20 parts by weight of ferrite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume, and sodium silicate 2-5 A weight part consists of the secondary ground stabilized process layer which mix-composites and lays the ground stabilizer which mixed composition.

The first ground stabilized layer is stirred by adding 20-30 kg of ground stabilizer to the 100 kg of soil excavated,

The secondary ground stabilized layer is formed by adding and stirring 20-30 kg of ground stabilizer to 100 kg of aggregate.

The thickness of the said 1st and 2nd ground stability treatment layer is comprised by compacting to 20 cm or less.

Aggregate used in the secondary ground stabilization layer passes through 5mm pass rate 70-100% (weight ratio passed when soil is filtered through 5mm sieve among sieves prescribed in KS A 5101) and the 2mm pass rate is 25% or less. We construct using material.

The uniaxial compressive strength of the road layer composed of the primary ground stable treatment layer and the secondary ground stable treatment layer is 180-200 kgf / cm 2.

Looking at the construction method of the present invention by adding 50-70 parts by weight of cement, 10-20 parts by weight of perlite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume, 2-5 parts by weight of sodium silicate, Preparing a ground stabilizer;

After the above step, while adding and stirring 20-30 kg of the ground stabilizer treating agent based on 100 kg of soil excavated from the ground, the water corresponding to the optimum function ratio corresponding to the maximum dry density measured by the dry density experiment of the soil excavated from the ground was added. A first ground stable treatment layer construction step of compacting on the surface treated by the planarization work;

After the above step, while adding and stirring 20-30 kg of the ground stabilizer to 100 kg of aggregate collected from the ground, water corresponding to the optimum water content ratio corresponding to the maximum dry density measured by the dry density test of soil excavated from the ground. A secondary ground stable treatment layer construction step of compacting on the first ground stable treatment layer;

It is constructed after a curing period for one month after the step.

The thickness of the said 1st, 2nd ground stability treatment layer is 20 cm or less.

여기서 r_t : 흙의 습윤밀도 (g/cm³)
m₂ : 다진 후의 전체 무게(g)
m₁ : 몰드와 밑판의 무게(g)
V : 용량(cm³)
② 다진 흙의 건조밀도는 다음 식으로 산출한다.

여기서 r_d : 흙의 건조밀도 (g/cm³)
w : 함수비 (%)
③ 건조밀도를 세로축에 함수비를 가로축에 취하여 측정치를 기입하고 이들을 건조밀도-함수비 곡선으로 한다. 이 곡선의 건조밀도 최대치를 최대 건조밀도라하고 거기에 대응하는 함수비를 최적함수비(W)로 한다. Aggregate used in the secondary ground stabilization treatment layer is a material of 5mm pass rate 70-100% and 2mm pass rate 25% or less.
The description of the 'optimum function ratio' in the Korean Industrial Standard is as follows.
KS F 2312 (Soil Compaction Method)
A) compaction of soil
1) Weigh the mold and base plate (m ₁ ).
2) The sample is put into a mold and compacted by a predetermined compaction method. The compaction should be on a firm, level floor, with the thickness of each layer being approximately equal after chopping.
3) After the chopped, the upper surface of the sample should be slightly above not exceeding 10mm of the mold.
4) After chopping, remove the collar and carefully scrape off the excess dirt of the mold sand with a straight blade and trim it into a flat surface. Holes formed on the surface by removing rocks etc. are filled with small particles of soil.
5) Wipe off the dirt on the outside of the mold and base plate and weigh the entire weight (m ₂ ).
6) Take the sample out of the mold by using an extractor, etc. and find the water content (w).
7) Repeat the operations (2) to (6) with 6 to 8 types of functions including the optimal function ratio.
※ Calculation of water content and optimal water content
① Wet density of minced soil is calculated by the following equation.

Where r _t is the wet density of the soil (g / cm ³ )
m ₂ : total weight after chopping (g)
m ₁ : Weight of mold and base plate (g)
V: Capacity (cm ³ )
② The dry density of minced soil is calculated by the following equation.

Where r _d : dry density of soil (g / cm ³ )
w: water content (%)
③ Take the dry density on the vertical axis and the water content on the horizontal axis, and write down the measured values. The maximum dry density of this curve is called the maximum dry density, and the water content corresponding thereto is the optimum function ratio (W).

Hereinafter, Comparative Examples and Examples of the present invention.

The performance of the ground stabilized farm roads and roads is obtained after the test core of the soil formed through the following Comparative Examples and Examples KS F 2314 (test method of uniaxial compression of soil) and KS F 2322 (test method of soil permeability) ) And the results are shown in Table 1.

[Comparative Example 1] Perlite unused

The ground stabilizer is a powder prepared by adding and mixing 75 parts by weight of cement, 15 parts by weight of calcium carbonate, 5 parts by weight of silica fume, and 5 parts by weight of sodium silicate. The primary ground stability treatment layer is 100 kg of soil excavated from the ground. While adding and stirring 25 kg of solidified material (ground stabilizing agent), water was added to the optimum water content ratio corresponding to the maximum dry density measured by the dry density test of the soil excavated from the ground, and then placed on the surface treated by the flattening operation. Compaction should be 20 cm or less.

After that, the secondary ground stabilized layer was selected from aggregate collected from the ground (5mm pass rate 70-100% and less than 2mm pass rate 25% or less) to 100kg selected material 25kg solidified material (ground stabilizer) While adding and stirring, add water corresponding to the optimum water content ratio corresponding to the maximum dry density measured by the dry density test of soil excavated from the ground, and make it 20 cm or less on the primary ground stable treatment layer. The tea shall be compacted so that the thickness of the tea is less than 50cm, and the core is taken through the curing period for one month and tested.

Example 1 Use of Perlite

The ground stabilizer is a powder prepared by adding and mixing 60 parts by weight of cement, 20 parts by weight of ferrite, 10 parts by weight of calcium carbonate, 5 parts by weight of silica fume and 5 parts by weight of sodium silicate. While adding and stirring 25 kg of solidified material (ground stabilizer) to 100 kg of the soil, the water corresponding to the optimum water content ratio corresponding to the maximum dry density measured by the dry density test of the soil excavated from the ground was added to leveling work. Compacted to 20 cm or less on the surface treated with.

After that, the secondary ground stabilized layer was selected from aggregate collected from the ground (5mm pass rate 70-100% and less than 2mm pass rate 25% or less) to 100kg selected material 25kg solidified material (ground stabilizer) While adding and stirring, add water corresponding to the optimum water content ratio corresponding to the maximum dry density measured by the dry density test of soil excavated from the ground, and make it 20 cm or less on the primary ground stable treatment layer. The tea shall be compacted so that the thickness of the tea is less than 50cm, and the core is taken through the curing period for one month and tested.

[Table 1] Experimental value of uniaxial compressive strength and permeability coefficient

Test Items Test body Remarks Uniaxial Compressive Strength (㎏f / ㎠) Comparative example 205 Example 195 Permeability Factor (cm / s) Comparative example 2.7 × 10 ^-6 Example 5.1 × 10 ^-2

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention does not use a bitumen material such as asphalt, which is not vulnerable in strength and durability, and has the advantage that the peeling phenomenon between the interfaces can be effectively suppressed by simultaneously using the base and the pavement components of the ground.

In addition, by constructing the primary ground stable treatment layer on the pavement surface, it is possible to strengthen the bonding of the original ground and the secondary ground stable surface treatment layer, and to prevent damage or collapse of the ground layer due to the decrease in strength of the existing pavement surface.

In addition, since the first ground stable treatment layer is constructed by stirring the discharged soil and ground stable treatment agent during the flattening operation in the original ground, there is no problem of transporting and treating the separately discharged soil. It has a big effect.

In particular, the farm road and road pavement according to the present invention is a natural and useful invention that can prevent the deterioration of the underlying soil because the flow of air is better than conventional asphalt or concrete as well as the drainage is smooth. It is the invention which is expected greatly.

Claims (9)

50-70 parts by weight of cement, 10-20 parts by weight of perlite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume, and 2-5 parts by weight of sodium silicate. In the road layer structure formed on the ground, Soil stabilizer mixed with 50-70 parts by weight of cement, 10-20 parts by weight of ferrite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume and 2-5 parts by weight of sodium silicate. A primary ground stable treatment layer which is mixed and compacted and laminated on the ground; Aggregate collected from the raw ground on the primary ground stabilized layer, 50-70 parts by weight of cement, 10-20 parts by weight of ferrite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume, and sodium silicate 2-5 A road layer structure using an environmentally friendly ground stabilizer for farm roads and road pavements, characterized by comprising a secondary ground stabilized layer that is compacted and laminated by mixing a ground stabilizer having a mixed part by weight. The method of claim 2, The primary ground stabilized layer is stirred by adding 20-30 kg of ground stabilizer based on 100 kg of soil excavated, The secondary ground stabilization layer is a road layer structure using an environmentally friendly ground stabilizing agent for pavement and road pavement, characterized in that the composition was added and stirred 20 to 30 kg ground stabilizer to 100 kg aggregate. The method according to claim 2 or 3, The road layer structure using the environmentally friendly ground stabilizer for farm roads and road pavement, characterized in that the thickness of the first and second ground stable treatment layer is compacted to 20 cm or less. The method according to any one of claims 2 to 3, Aggregate used in the secondary ground stabilization treatment layer is a road using an environmentally friendly ground stabilizing agent for pavement and road pavement, characterized in that it is configured using a material having a 5mm pass rate of 70-100% and less than 2mm pass rate 25% Layer structure. The method of claim 2, Road layer structure using an environmentally friendly ground stabilizer for farm roads and road pavement, characterized in that the uniaxial compressive strength of the road layer composed of the primary ground stabilized layer and the secondary ground stabilized layer is 180-200kgf / ㎠ . 50-70 parts by weight of cement, 10-20 parts by weight of perlite, 10-15 parts by weight of calcium carbonate, 2-5 parts by weight of silica fume and 2-5 parts by weight of sodium silicate are added to prepare a ground stabilizer in powder form. Wow; After the above step, while adding and stirring 20-30 kg of the ground stabilizer treating agent based on 100 kg of soil excavated from the ground, the water corresponding to the optimum function ratio corresponding to the maximum dry density measured by the dry density experiment of the soil excavated from the ground was added. A first ground stable treatment layer construction step of compacting on the surface treated by the planarization work; After the above step, while adding and stirring 20-30 kg of the ground stabilizer to 100 kg of aggregate collected from the ground, water corresponding to the optimum water content ratio corresponding to the maximum dry density measured by the dry density test of soil excavated from the ground. A secondary ground stable treatment layer construction step of compacting on the first ground stable treatment layer; Construction method of the road using environmentally friendly ground stabilizer for farm roads and road pavement, characterized in that undergoing curing period for one month after the step. The method of claim 7, wherein The construction method of the road using the environmentally friendly ground stabilizer for farm roads and road pavement, characterized in that the thickness of the primary and secondary ground stabilized layer is 20 cm or less. The method according to any one of claims 7 to 8, Aggregate used in the secondary ground stable treatment layer is a road construction method using the environmentally friendly ground stabilizer for agricultural roads and road pavement, characterized in that the material passes 5mm 70-100% pass rate and less than 25% 2mm pass rate.

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