KR101235797B1 - Light weight fill materials with fluidity and resistance to segregation - Google Patents

Abstract

The present invention relates to a lightweight soil material having fluidity and material separation resistance, and more particularly, to a grout material having an ultra-high viscosity mixed to give a thickening function to cement, water, and the slurry formed of the cement and the water. And expandable polystyrene (EPS) to control the unit weight, and are formed by mixing, and the expandable polystyrene is uniformly blended without separation according to specific gravity by the ultrahigh viscosity of the modifying agent for the grout material. The present invention relates to a lightweight soil material having fluidity and resistance to material separation.

Description

LIGHT WEIGHT FILL MATERIALS WITH FLUIDITY AND RESISTANCE TO SEGREGATION}

The present invention relates to a lightweight soil material having fluidity and material separation resistance, and more particularly, to adjust physical properties of the grout material modifier composition for controlling the rheological properties of the grout material and the blending ratio to adjust the physical properties, ultra-high viscosity and fluidity After adjusting the grout material modifier and cement and water to adjust the physical properties to form a slurry, by selectively administering a lightweight agent such as expanded polystyrene that can lightly control the unit weight, the unit weight can be adjusted to suit the site conditions It relates to a lightweight soil material having fluidity and material separation resistance, which is formed by uniformly distributed light weight agent without separation by the specific gravity of the light weight agent by the ultra-high viscosity of the grout material modifier.

At the time of civil engineering construction or pipeline construction involving the excavation, the backfilling process must be performed after the installation of the structure. Depending on the quality of the backfill, the earth pressure acting on the structure may be different, causing damage to the structure.

The main cause of the problem is that the backfill area is actually narrow and inaccessible to equipment or personnel, and the backfill material (for example, soil, sand gravel, etc.) is not sufficiently compacted. That is, the main cause is that the settlement or breakage around the pipe or box is caused by the fact that backfilling is not performed.

In order to solve this problem, physical compaction or simply filling soil and other filling methods are required. One of the methods is filling method of compaction using a fluidized soil.

Therefore, there is a need for a fluidized soil having a good backfill quality and no compaction work.

In addition, when roads or railway works are carried out in mountainous areas, it is essential to install retaining walls on the left and right sides of roads and railways to prevent landslides and falling rocks. To prevent settlement and collapse. In the case of reinforcing the soft ground for the stability of the structure constructed on the soft ground, or the reinforcement around the underground structure to protect the structure installed in the ground, or the reinforcement of the rear part of the shift and retaining wall, and In many such cases, backfilling is performed with common fill material.

In general soft ground stabilization method, rock and weathered soil are used as main materials, and when the dry unit weight (r _d.max ) of landfill materials is deposited on the soft ground with 1.8 (ton / m ³ ) There is a problem that a large amount of settlement occurs. In addition, there is a problem in that long-term residual settlement also occurs largely, so that an additional stabilization method for managing the settlement is required, and thus the construction period is inevitably extended.

In addition, conventional earth and sand have been used as backfill material in the rear part when the retaining wall or the shift is being constructed. However, in the case of ordinary soil, the specific gravity is large, so a large earth pressure acts on the retaining wall, which causes the retaining wall to collapse.

The present invention has been proposed in order to solve the problems of the prior art as described above, the object of the present invention is to adjust the weight of the fill material to suit the site conditions, while having excellent tolerance and to reduce the load on the soft ground floating settlement It is to provide a lightweight soil material having fluidity and material separation resistance to prevent lateral flow by reducing the earth pressure.

More specifically, the physical properties of the grout material modifier composition that controls the rheological properties of the grout material is adjusted to adjust the physical properties, and the physical properties of the grout material modifier and cement and water are mixed to form a slurry and unit weight By selectively administering a light weight agent such as foamable polystyrene, which can be lightly controlled, the unit weight can be adjusted to suit the site conditions, and the light agent is uniformly formed without separation by the specific gravity of the light agent by the ultra high viscosity of the grout material modifier. To provide a lightweight soil having fluidity and resistance to material separation.

In order to achieve the above object, lightweight soil material having fluidity and material separation resistance according to an embodiment of the present invention includes cement; With water; Modifier for grout having a very high viscosity mixed to give a thickening function to the slurry formed of the cement and the water; And expandable polystyrene (Expanded PolyStyrene (EPS); Styrofoam) is formed by mixing to adjust the unit weight, characterized in that the expandable polystyrene is uniformly formulated without separation according to the specific gravity by the ultra-high viscosity of the modifying agent for the grout material. .

The expandable polystyrene is coded to have a surface roughness and to facilitate uniform blending.

The lightweight soil material having the fluidity and the material separation resistance is formed by further comprising a field soil which is any one of viscous soil, weathered soil and silt.

The modifying agent for the grout material has an ultrahigh viscosity by containing 90% or more of C18 in the carbon crude fabric of the alkyl group of the alkylammonium tosylate.

Bubbles are generated by the bubble generation amount and the blending ratio of the modifying agent for the grout material so that the unit weight of the lightweight soil material can be adjusted.

In order to achieve the above object, lightweight soil material having fluidity and material separation resistance according to another embodiment of the present invention includes cement; Clay soil, any one of clay, weathered soil and silt; water; And it is formed by mixing a grout material modifier having a very high viscosity and fluidity, characterized in that all the components are uniformly blended without separation by the ultra-high viscosity and fluidity of the grout material modifier.

The present invention controls the physical properties by adjusting the blending component and the mixing ratio of the grout material modifier composition for controlling the rheological properties of the grout material, and by mixing the modifier for the grout material and cement and water to form a slurry to lightly control the unit weight By selectively administering a lightweight agent such as expandable polystyrene, the unit weight can be adjusted to suit the site conditions, and the ultrahigh viscosity of the grout modifier allows the light agent to be uniformly distributed without separation by the specific gravity of the light agent. It has the effect of resisting the separation of materials and materials, and thus has the effect of making a solid backfill by the compaction method.

Lightweight soil material according to the present invention can control the curing period, thereby reducing the construction cost by reducing the air.

The present invention has the effect of low material cost by forming and constructing a lightweight soil material using on-site soil generated in the field.

According to the present invention, the compressive strength can be adjusted according to the formulation of the material, so that the present invention can be used for various purposes, and the durability is good, which is advantageous for long-term stability.

Lightweight soil material according to the present invention can reduce the earth pressure acting on the back of the structure is excellent in the fill of alternating or slope.

It is excellent in workability because there is no noise during construction by using lightweight soil material according to the present invention.

The lightweight soil material according to the present invention is an environmentally friendly material due to the high viscosity of the grout modifier and the inseparability in water, which is an environmentally friendly material, and can be applied to all types of soils such as potions, sands, and viscous mixed grounds.

By constructing soft ground using the lightweight soil material according to the present invention, the load on the soft ground can be reduced to reduce the soft ground settlement.

When the light weight fill material according to the present invention is used as the retaining wall backfill material, the earth pressure acting on the retaining wall can be reduced, and the retaining wall can be economically designed.

1 is an experimental state diagram showing that the liquid ultra-high viscosity and the flowable grout material used in the present invention is excellent in water inseparability, viscosity and high fluidity.
Figures 2a and 2b is a view showing the internal state of the structure constructed using a lightweight soil material according to the present invention formed by mixing cement, clay, water, a grout modifier, styrofoam.
Figure 2c is a view showing the internal state of the structure constructed using a lightweight soil material according to the present invention formed by mixing cement, water, grout modifier and styrofoam.
Figure 2d is a view showing a specimen produced by using a lightweight soil material according to the present invention formed by mixing the modifier for cement, field soil, water, grout material.
Figure 3 is a state of backfilling the rear of the light weight soil material according to the invention alternately.
Figure 4 is a state in which the light weight soil fills the soft ground according to the invention soft ground.
Figure 5 is a state of environmentally friendly lightweight landfill for the protection of underground structures light weight soil according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The liquid ultrahigh viscosity and flowable grout material used in the present invention will be described.

The liquid ultrahigh viscosity and flowable grout material has a rheology characteristic different from conventional grout materials such as cement slurry, cement paste, mortar, concrete, etc., and is filled with steel pipe pile filling, bridge order wall filling, etc. It can be used for the filling of the structure or for the underground limestone cavity filling for ground reinforcement. In the present invention, it will be used as a blending component of lightweight soil having fluidity and material separation resistance.

The liquid ultrahigh viscosity and flowable grout material is formed by mixing a modifier composition for a grout material, cement and water.

The modifying agent composition for the grout is to control the rheological properties of the grout by forming a special viscous structure in water called a fine form of micelles by intermolecular interactions when mixed with the cement mixture and water. The special viscous structure of the micelle structure exhibits a rheological property different from that of a conventional polymer underwater disintegrant and controls water viscoelasticity without being adsorbed to cement particles. Accordingly, the liquid ultrahigh viscosity and flowable grout material formed by mixing the modifying agent composition for grout material, Hicrete, cement, and water has a super high viscosity, and at the same time has good fluidity and separation resistance in water (incomparable in water).

The modifying agent composition for a grout material as described above, may be formed by mixing an alkyl ammonium tosylate to give and control the rheological properties of the grout material, an emulsification adjuvant and water to give a stock solution stability and low temperature stability.

In addition, the modifier composition for the grout material is formed by mixing an alkyl ammonium tosylate, which imparts and controls the rheological properties of the grout material, an emulsification adjuvant which imparts stock stability and low temperature stability, water, and a pH adjusting agent. Can be.

In addition, the modifier composition for the grout material is, alkyl ammonium tosylate (G) to give and control the rheological properties of the grout material, emulsification aids to give stock solution stability and low temperature stability, water, pH adjusting agent and defoamer to remove foam It can be formed by mixing.

The alkyl group in the alkylammonium tosylate has a carbon crude foam containing 90% or more of C18, and thus has a more high viscosity.

The liquid ultrahigh viscosity and flowable grout material formed by mixing the above-described modifying agent composition for the grout material, cement mixture and water has high fluidity, high viscosity, and early strength characteristics at the same time. It is very advantageous in various aspects such as its properties, excellent penetration properties and reduced curing time. In addition, the liquid ultra-high viscosity and flowable grout material is also excellent in filling properties due to high fluidity.

1 is an experimental state diagram showing that the liquid ultra-high viscosity and flowable grout material used in the present invention is excellent in the water inseparability, viscosity and high fluidity.

As shown in Fig. 1, the first beaker shows the low viscosity grout material used in the present invention and the second beaker shows the medium viscosity grout material used in the present invention and the third beaker is used in the present invention. The high viscosity grout material is shown.

However, it can be seen that the general cement paste (fourth beaker) has no water inseparability and is much lower in viscosity than the low viscosity grout material (first beaker) used in the present invention.

For example, about 1% by weight of the grout material modifier composition, 99% by weight of the cement mixture and water may be mixed to form a liquid ultrahigh viscosity and flowable grout material, that is, 30 g of the modifier composition for the grout material (with respect to water 3%), 1Kg of water and 2Kg of cement (50% of water and cement (W / C)) can be mixed to form a liquid ultra-high viscosity and flowable grout material. You can see that it is quite high.

In addition, the liquid ultra-high viscosity and flowable grout material used in the present invention is characterized in that there is no work phenomenon occurring in the general cement grout material due to the incompatibility in water and high viscosity characteristics compared to the general cement grout material, in the case of the general cement grout material Although the base component of the cement is eluted in the ground water, the liquid ultrahigh viscosity and flowable grout material used in the present invention is an environmentally friendly new material that is environmentally advantageous by minimizing or preventing soil and water pollution by minimizing the dissolution of the material.

On the other hand, in the present invention, the mixing component and the mixing ratio of the grout material modifier composition for controlling the rheological properties of the grout material in the liquid ultra-high viscosity and flowable grout material is adjusted to suit the characteristics of the lightweight soil material.

For example, a modifier for a grout material having a more viscous function is increased by increasing the compounding ratio of Alkyl Ammonium Tosylate, which gives and controls the rheological properties of the grout material, or does not mix an antifoaming agent that prevents bubble generation. A modifier for grout material in which bubbles are generated by adjusting the stirring speed and the stirring time can be used in the present invention. In addition, in order to secure excellent material separation resistance, alkyl ammonium tosylate containing 90% or more of C18 is contained in the crude carbon composition of the alkyl group of alkyl ammonium tosylate which is more viscous than fluidity.

The present invention forms a slurry by mixing a modifier for grout material properties adjusted to be suitable for lightweight soil materials, cement and water to form a slurry, and by selectively administering a lightweight agent such as expandable polystyrene, which can lightly control the unit weight, the unit weight is appropriate for the site conditions. It provides a lightweight soil material that is adjustable and has fluidity and material separation resistance.

First, the light weight soil having fluidity and material separation resistance according to the first embodiment of the present invention will be described.

The lightweight soil material having flowability and material separation resistance according to the first embodiment of the present invention is a grout material modifier for grout material having ultrahigh viscosity to impart a thickening function to solidified material, water, and the solidified material and the slurry formed of the water. And expanded polystyrene (EPS) for controlling unit weight.

In addition, the lightweight soil material having fluidity and material separation resistance according to the first embodiment of the present invention is additionally formed when the cement and water are mixed in situ, which is one of viscous soil, weathered soil, and silt, and is formed in a slurry state. .

Ingredient
     usage   cement 100 to 200 kg / m ³   Field soil (viscosity soil) 180 to 950 kg / m ³   water 200 to 500 kg / m ³   Grout Modifier (Thickness Function) 1.5 to 2 kg / m ³   Styrofoam 1.55 to 12 kg / m ³

(When dry specific gravity is 5.0KN / m ³ ~ 12.0KN / m ³ , uniaxial compressive strength is 150KN / m ³ ~ 1500KN / m ³ )

The modifying agent for the grout material is formed by mixing an alkyl ammonium tosylate for imparting and controlling the rheological properties of the grout material, an emulsification aid for imparting mixed water, stock solution stability and low temperature stability.

In addition, the modifier for the grout material may be formed by mixing an alkyl ammonium tosylate, mixed water, and a pH adjusting agent to impart and control the rheological properties of the grout material. In addition, the modifying agent for the grout, Alkyl Ammonium Tosylate to give and control the rheological properties of the grout, mixed water, emulsification aids to give stock stability and low temperature stability, antifoaming agent to remove foam, and pH adjuster It is mixed including.

In the alkylammonium tosylate, the alkyl group has a carbon crude foam containing 90% or more of C18, and thus has an even higher viscosity.

As such, the highly expandable polystyrene having a low specific gravity due to the ultrahigh viscosity of the grout modifier is uniformly blended without separation according to specific gravity, thereby allowing uniform distribution.

Lightweight soil material having fluidity and material separation resistance according to the first embodiment of the present invention, as shown in Table 1, after mixing cement, spot soil and water to form a slurry state for the grout material in the slurry A modifier is administered and combined to impart some thickening function to the slurry, followed by blending the expandable polystyrene (styrofoam). Then, the styrofoam is uniformly blended into the slurry given the thickening function.

In the slurry state formed by mixing cement, field soil and water, styrofoam is floated due to buoyancy to separate styrofoam from the slurry, which makes it difficult to uniformly mix the grout. When the reforming modifier is added to the slurry and then styrofoam is added to the slurry, the mixture is not separated due to the thickening function of the slurry.

The styrofoam is formed to have a surface roughness by coding the surface to make uniform mixing with the slurry more easily.

Therefore, the light weight soil material according to the first embodiment of the present invention has a fluidity and material separation resistance by the grout material modifier, and by controlling the blending component ratio of the styrofoam, it is possible to adjust the weight appropriately for the field conditions.

Next, a light weight soil material having fluidity and material separation resistance according to a second embodiment of the present invention will be described.

In the light weight soil material according to the second embodiment of the present invention, a modifier for a grout material provided with not only an enhanced viscous function but also a bubble generation function is used.

The modifier for grout material used in the lightweight soil material according to the second embodiment of the present invention is mixed, including alkyl ammonium tosylate, mixed water, and pH adjusting agent to impart and control the rheological properties of the grout material. And ultra high viscosity by using alkyl ammonium tosylate having a carbon crude component containing 90% or more of C18 having 18 carbon atoms. In addition, microbubbles may be generated by rapid stirring and agitation time of the modifying agent for the grout material, and may be administered to the slurry in a state where microbubbles are generated.

Ingredient
    usage   cement 100 to 200 kg / m ³   Field soil (viscosity soil) 400 to 950 kg / m ³   water 200 to 500 kg / m ³   Grout modifier (thickening + bubble generation function) 1.5 to 2 kg / m ³   Styrofoam 1.35 to 10 kg / m ³

(A dry weight 4.0KN / m ³ ~ 10.0KN / m ³ days when the uniaxial compressive strength is a ^{100KN / m 3 ~ 1,000KN / m} 3.)

As shown in Table 2, even if the foaming function is added to the modifying agent for the grout material, even if the amount of spot soil is increased and the styrofoam is reduced and blended, the lightweight soil material according to the second embodiment of the present invention It can be seen that the specific gravity of drying is smaller than that of the lightweight soil material according to the first embodiment.

Next, the light weight soil having fluidity and material separation resistance according to the third embodiment of the present invention will be described.

Lightweight soil material according to a third embodiment of the present invention, the cement; Clay soil, any one of clay, weathered soil and silt; water; And a modifier for grout material having ultrahigh viscosity and fluidity.

The modifying agent for the grout material is mixed by including an alkyl ammonium tosylate, mixed water, and a pH adjusting agent to impart and control the rheological properties of the grout material.

The modifying agent for the grout, it may be made by mixing, including alkyl ammonium tosylate, mixed water, emulsification aid, and pH adjusting agent to impart and control the rheological properties of the grout material.

The alkylammonium tosylate has a carbon crude foam containing 90% or more of C18 having 18 carbon atoms, thereby having super high viscosity, and thus excellent material separation resistance.

In addition, microbubbles are generated by rapid agitation and agitation time of the modifying agent for the grout material, and the unit weight of the lightweight soil material can be controlled by the bubble generation amount and the mixing ratio of the modifying agent for the grout material.

    Compounding ingredient usage
  cement 150 to 200 kg / m ³   Field soil (viscosity soil) 500 to 950 kg / m ³   water 300 to 400 kg / m ³   Modifier for grout material (bubble generating function) 3 to 4 kg / m ³

(When dry specific gravity is 6.0KN / m ³ ~ 12.0KN / m ³ , uniaxial compressive strength is 200KN / m ³ ~ 1600KN / m ^3. )

Next, the light weight soil having fluidity and material separation resistance according to the fourth embodiment of the present invention will be described.

The lightweight soil material according to the fourth embodiment of the present invention is composed of a liquid ultrahigh viscosity and flowable grout material in place of the cement and the viscous soil used in the third embodiment of the present invention.

Ingredient
    usage   Liquid Ultra High Viscosity and Flowable Grout Material 800 to 1,200 kg / m ³   water 600 to 1,000 kg / m ³   Modifier for grout material (bubble generating function) 6 to 10 kg / m ³

(When dry specific gravity is 6.0KN / m ³ ~ 12.0KN / m ³ , uniaxial compressive strength is 1,500KN / m ³ ~ 4,000KN / m ³ )

The liquid ultra-high viscosity and flowable grout material is formed by mixing 1-3% by weight of the modifying agent composition for grout, cement and water, and the modifying agent composition for grouting material is alkylammonium tosylate which gives and controls the rheological properties of the grout material. It is formed by mixing an emulsification adjuvant that provides stock solution stability and low temperature stability, water, an antifoaming agent to remove bubbles, and a pH adjusting agent for adjusting the pH concentration.

Finally, the light weight soil having fluidity and material separation resistance according to the fifth embodiment of the present invention will be described.

The lightweight soil material according to the fifth embodiment of the present invention is formed by mixing the liquid ultrahigh viscosity and flowable grout material in place of the viscous soil in the blending component of the lightweight soil material according to the third embodiment of the present invention.

Ingredient
      usage   cement 50 to 150 kg / m ³   Liquid Ultra High Viscosity and Flowable Grout Material 1,000 to 1,200 kg / m ³   water 400 to 600 kg / m ³   Modifier for grout material (bubble generating function) 2 to 6 kg / m ³

(When dry specific gravity is 7.0KN / m ³ ~ 13.0KN / m ³ , uniaxial compressive strength is 400KN / m ³ ~ 4,000KN / m ^3. )

The liquid ultra-high viscosity and flowable grout material is formed by mixing 1-3% by weight of the modifying agent composition for the grout, cement and water, the modifying agent composition for the grout, the alkylammonium tosylate to give and control the rheological properties of the grout material, It is formed by mixing an emulsification adjuvant that provides stock solution stability and low temperature stability, water, an antifoaming agent to remove bubbles, and a pH adjusting agent for adjusting the pH concentration.

Although styropol has been described as an example of the lightweight agent used in the first and second embodiments described above, various lightweight agents such as bark, straw, rubber crushing, and various mixtures thereof may be used.

As shown in Figure 2a and 2b, the internal state of the structure constructed by using a lightweight soil material according to the present invention formed by mixing cement, viscous soil, water, a grout modifier, and styrofoam is the lowest specific gravity styrofoam and all It can be seen that the components are uniformly distributed without being separated.

Figure 2c shows the internal state of the structure constructed using a lightweight soil material according to the present invention formed by mixing cement, water, grout modifier and styrofoam, it can be confirmed that the styrofoam is not evenly distributed and formed. have.

Figure 2d shows a specimen produced by using the flowable lightweight soil material according to the present invention formed by mixing cement, spot soil (viscosity soil, weathered soil, silt, etc.), water, grout modifier, cement, spot soil, water, grout material It can be seen that the modifier is formed by mixing uniformly without material separation.

As shown in Figure 3, by the present invention, the lightweight soil material (in particular, light weight soil having fluidity and material separation resistance according to the first embodiment, the second embodiment) the unit weight is reduced to suit the site conditions By backfilling the rear wall of the alternating and retaining walls, the earth pressure applied to the retaining walls can be reduced, and the bearing capacity is good to prevent lateral flow and the retaining walls can be economically designed.

As shown in Figure 4, according to the present invention, the lightweight soil material (in particular, light weight soil material having fluidity and material separation resistance according to the first and second embodiments) of which the unit weight is reduced to suit the site conditions By constructing soft ground, it is possible to reduce the load on the soft ground and to reduce the soft ground settlement.

As shown in FIG. 5, the lightweight soil according to the present invention (particularly, the lightweight soil having fluidity and material separation resistance according to the third, fourth, and fifth embodiments) is used to protect the underground structure. By filling around the structure, it is possible to reliably protect the underground structure.

Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the spirit or the scope of the present invention. The disclosed embodiments are not intended to limit the invention but to illustrate the invention. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (6)

Cement;
With water;
A modifier for grout material mixed to impart a thickening function to the slurry formed of the cement and the water; And
Expanded Polystyrene (EPS) is formed by mixing a unit weight to control the weight,
The modifier for the grout material and the expandable polystyrene are blended without separation according to specific gravity,
The modifying agent for the grout material,
It is formed by mixing an alkylammonium tosylate to give and control the rheological properties of the grout material, water, and a pH adjuster to adjust the pH concentration,
Carbon-containing component cloth of the alkyl group of the alkylammonium tosylate is lightweight soil material having fluidity and material separation resistance, characterized in that containing more than 90% C18. delete The light-weight earth material having fluidity and material separation resistance according to claim 1, wherein the expandable polystyrene has a surface roughness and is coded so that uniform mixing is easily performed. The method according to claim 1 or 3,
Lightweight soil material having fluidity and material separation resistance, characterized in that it further comprises a clay soil, weathered soil, silt. Cement;
Clay soil, any one of clay, weathered soil and silt;
water; And
It is formed by mixing a viscous and flowable modifier for the grout material,
By the viscosity and fluidity of the modifier for the grout material, the cement, spot soil, water, and the modifier for grout material is blended without separation,
The modifying agent for the grout material,
It is formed by mixing an alkylammonium tosylate to give and control the rheological properties of the grout material, water, and a pH adjuster to adjust the pH concentration,
The alkyl group of the alkylammonium tosylate is lightweight soil material having fluidity and material separation resistance, characterized in that having a carbon crude composition containing more than 90% C18. delete

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