KR100660080B1 - Grout - Google Patents

Abstract

The present invention provides grout with excellent performance as a cavity filler.

The grout of the present invention is a grout used for injection filling into a cavity in a structure, a cavity in a ground, or a cavity generated at an interface between the structure and the ground, and a non-flowing agent is added to a suspension of a fluid phase containing cements as a main component. Condition [A] and condition [B] are satisfied.

[A] Do not flow under no pressure.

[B] Fluidizing under pressure of 0.0005 to 0.005 N / mm 2.

As a result, the feeding through the thin injection tube is easy, and the small cavity can be delicately and precisely filled. In addition, it is possible to reliably inject and fill the desired range despite the fact that the material separation occurs during the feeding and curing after injection and is not diluted by groundwater.

Grout, cavity filling

Description

Grout {GROUT}

[Non-Patent Document 1] Tunnel Engineering Committee of Civil Engineering, "Tunnel Standard Specification (Mountain Engineering Method) and East Commentary," Civil Society of Society, June 10, 1997, 1996 Edition, Second Edition, p.228-230

TECHNICAL FIELD The present invention belongs to the technical field of grout as a cavity filler, and more particularly, relates to grout used for injection filling into a cavity in a structure such as an existing pipe, a cavity in a ground, or a cavity generated at an interface between a structure and the ground.

In general, underground structures are designed to function integrally with the ground. Therefore, when voids are generated between the structure and the ground soil due to the construction situation, the movement of the ground soil after construction, and the like, a problem occurs if it is not buried. In addition, when a naturally formed cavity in the ground or an artificially plated cavity causes ground subsidence of the upper portion thereof, it is necessary to fill the cavity. What is done in this case is cavity filling, which fills the void or cavity with fluidized grout through a thin inlet tube.

Conventionally, as a grout to fill this cavity, cement is used as the main material, materials such as aggregates and pressure-sensitive adhesives are added to this as necessary, and water is further added and combined (mortar or air mortar). . The grout's fluidity is then adjusted by the amount of water, taking into account the amount of material.

The conventional grout contains a lot of moisture in order to improve fluidity. For this reason, material separation (sedimentation of cement or aggregate particles) may occur during the feeding, or the material separation may progress between filling the cavity and curing. In addition, when there is groundwater, it is diluted by the groundwater, and a nonuniformity of freezing strength, a decrease in volume, etc. may arise, and a fatal defect may be produced as a co-filled grout. Moreover, since it is a fluidized phase during injection filling, there is also a problem in that it is unnecessarily sent to a distant place by the injection pressure and cannot fill the target cavity.

The present invention has been made in view of the above problems, and an object thereof is to provide a grout having excellent performance as a cavity filler.

In order to achieve the above object, the grout of the present invention is a grout used for injection filling into a cavity in a structure, a cavity in a ground, or a cavity generated at an interface between the structure and the ground, and is a suspension of a fluid phase containing cements as a main component. It is characterized by adding a soluble alkali silicate or clay mineral as a non-flowing agent to the following conditions [A] and [B].

[A] Do not flow under no pressure.

[B] Fluidizing under pressure of 0.0005 to 0.005 N / mm 2.

Best Mode for Carrying Out the Invention

As the fluidized suspension in the present invention, one containing only cements can be used, or one or two or more kinds of aggregates (extenders) and additives can be used. The cements to be used are not particularly limited as long as they have properties of curing by adding water. Representative examples thereof include portland cements such as ordinary cement and crude steel cement, slag (furnace slag) and lime, and slag and lime.

As aggregate which adds cement to the fluidized-bed suspension which has a main component, the primary minerals, such as sand, which were used conventionally, and the secondary minerals, such as a clay, are mentioned. As the additive, a dispersant, a retarder, a gelling accelerator, a strength accelerator, a thickener, a gas generator (foaming agent and aluminum powder) and the like can be used according to the purpose.

The water used in grout combination is divided into fixed water containing water contributing to the adhesion (or adsorption) to solid particles or the reaction, and free water other than that (freely movable water). That is, free water is intended to maintain fluidity, but the grout of the present invention is to use a non-flowing agent as a method of converting this free water into fixed water.

The non-flowing agent used in the present invention is made into fixed water by incorporating and freezing the free water contained in the fluidized bed suspension in the reaction with cements. The non-flowing agent is made into fixed water by the action of absorbing soluble alkali silicate or free water. Clay minerals, such as kaolin, are mentioned as making.

Although one type of non-flowing agent is usually used, it is stable and does not cause mutual reaction, and may be used in combination of two types as long as it is a non-flowing phase grout that satisfies the conditions [A] and (B) when mixed with cements. have.

The amount of the non-liquidizing agent cannot be uniformly specified because the amount of free water varies greatly depending on the type and amount of cements, the presence or absence of aggregates or additives, and the action depends on the type or amount of the non-liquidizing agent used. .

In the present invention, "do not flow under non-pressurization" under condition [A] is determined by the measurement performed according to the following test method. In addition, a weak press of less than 0.0005 N / mm 2 is considered to be non-pressurized.

In the present invention, "flow fluidized under a pressure of 0.0005 to 0.005 N / mm 2" in the condition [B] indicates a range of pressure at which the non-flowing phase grout which does not flow under unpressurized easily fluidizes. Pressures less than 0.0005 N / mm 2 are very small and are excluded as considered non-pressurized as described above. Non-flowing phase grout having a strength exceeding 0.005 N / mm 2, which is the upper limit of pressurization, is not preferable because the resistance in the injection tube becomes high in one-liquidity and it becomes difficult to reliably fill a small cavity.

The grout of the present invention is then described in detail for specific tests. First, the following "test 1" was performed to see whether the ratio flowed under pressure. Subsequently, "Test 2" was performed to see whether the grout which does not flow under unpressurization fluidizes when it is pressurized, or to see the pressure (the strength of the resistance of the grout) to start the fluidization when fluidizing.

[Exam 1]

In order to see whether it flowed under unpressurization, the test was done according to the fluidity test method of PC grout (JSCE-F531-1999). The test includes a JP funnel (brass, 70 mm top, 14 mm bottom and 392 mm high, with a bottom of about 3 mm thick with an outlet diameter of 14 mm and a length of 30 mm, with an internal volume of about 630 Ml). In the test, while holding the funnel vertically from the pedestal, close the tip of the funnel with your fingers, fill the grout in the funnel to the top, remove the finger blocking the funnel tip, and observe the presence of dripping of the grout. In the case of flowing down, the dripping time (flow time) was expressed in seconds. In addition, the test was carried out after 2 minutes of adding a non-flowing agent to the suspension containing cements as a main component to denature the non-flowing phase grout.

[Exam 2]

In order to see whether the grout which does not flow under unpressurization fluidizes under pressure, the test was carried out using an instrument having a brass cylinder made of a diameter of 70 mm and a height of 120 mm at the top of the JP funnel. This cylinder and the JP funnel have a removable structure. The grout is filled in the cylinder until it reaches a height of 20 mm from the top of the JP funnel, and the surface is made of a hard acrylic circular flat plate (a state in which there is no contact with the passage and the grout does not come upward). The weight of the grout (weight of the grout on the JP funnel + weight of the flat plate + weight of the lead bead) at the time when the grout in the JP funnel fluidized (flowed out of the tip) was placed thereon. ) Was converted into N / mm 2 to obtain a pressurized value.

In the test, cement, slag, and lime were usually used as cements, and clay and microsand (primary minerals) were used as aggregates, and dispersants were used as additives. As the non-flowing agent, liquid potassium silicate was used as the soluble alkali silicate, and kaolin-based clay mineral fine powder was used as the clay mineral.

About the suspension of the fluidized bed which has cement as a main component, four types (A1-A4) were manufactured by changing a compounding, and the result of having "test 1" performed on these is shown in following Table 1. In addition, about free water, the suspension was fully immersed in excess water, and it calculated from the increase weight after removing water other than adhered water and bound water, and calculated | required the quantity. From Table 1, it can be seen that the amount of free water varies greatly depending on the type of cement and the presence or absence of aggregate. In addition, it is also understood that the suspension of any compound flows down from the JP funnel and is a fluidized bed.

Kinds Fluid bed suspension (300 ml) Free water (ml) JP funnel dwell time in seconds Cement Class (g) Aggregate (g) Additive (g) Water (ml) A1 Plain cement 150 - - 252 166 2.4 A2 Plain cement 90 Doto 135 - 220 75 2.7 A3 Plain cement 300 Micro Sand 60 Dispersant 0.3 182 36 2.9 A4 Slag lime 54 - - 281 205 2.3

In addition, the result of having "test 1" performed with respect to the water compared with two types of non-liquidizing agents (B1, B3) is shown in Table 2 below. Table 2 shows that potassium silicate is a liquid having good fluidity.

Kinds Defluidizer Constellation JP funnel dwell time in seconds B1 Potassium Silicate Liquid 2.8 B3 Kaolin clay mineral powder - compare water - 2.1

Next, three types of grout which combined A1-A4 of Table 1, and B1, B3 of Table 2 were manufactured, and "test 1" was performed about these. The results are shown in Table 3 below.

No. Combination With or without dripping of grout at the time of non-pressure in JP funnel Uniaxial compressive strength of 28 days (N / mm ² ) Table 1 TABLE 2 No. One A1 B1: 21 ml radish 5.48 No. 4 A3 B3: 60 g radish 8.53 No. 5 A4 B1: 36 ml radish 0.98

Similar to suspension of fluidized bed, No. added fluidizing agent of fluidized bed (liquid). In 1 and 5, cements and a non-flowing agent react to produce a gel including the free water in the grout, and become a fixed water, which is changed into a grout that does not flow under unpressurized water. In addition, No. It can be seen from Figure 4 that the non-flowing agent powder absorbs the free water in the grout to become a fixed water and denatures to a grout that does not flow.

As described above, the condition [A] of the present invention is based on the JP funnel test method, and no grout flows.

In addition, five kinds of grout which combined A1-A4 of Table 1, and B1, B3 of Table 2 were manufactured, and "test 2" was performed about these. The results are shown in Table 4 below.

No. Combination Weight (g) Pressure value (N / mm ² ) Pressure value (compared to 0.0005 ~ 0.005 N / mm ² ) Table 1 TABLE 2 No. 6 A1 B1: 21 ml 1082 0.0028 In range No. 9 A3 B3: 60 g 539 0.0014 In range No. 10 A4 B1: 36 ml 812 0.0021 In range No. 11 A1 B1: 36 ml 2432 0.0063 Exceeding upper limit No. 13 A1 B1: 12 ml 134 0.0003 Below the lower limit

 From Table 4, it can be seen that the conditions under which the grout which does not fluidize under unpressurization fluidize under pressure vary depending on the type and amount of the non-fluidizing agent.

The upper limit of the pressure required to fluidize the non-flowing bed grout of the present invention was 0.005 N / mm 2. For this reason, it can be said that if it is larger than this value, it becomes difficult to convey, and it becomes difficult to fill in a relatively small cavity. In addition, No. 11 indicates that no fluidization is performed unless pressure is greater than 0.005 N / mm 2.

In addition, the lower limit of the pressurization required for fluidizing the non-flowing phase grout of the present invention was 0.0005 N / mm 2. The pressurization of this value was very small and excluded because it was a property that was almost close to the condition [A] under unpressurization under the JP funnel test method. In addition, No. Although 13 is fluidized under very small pressurization of less than 0.0005 N / mm <2>, in this invention, it was supposed to be included in condition [A].

The construction using the grout of the present invention employs a different method depending on the reaction characteristics of the non-flowing agent and cements, construction conditions, and the like.

When the non-liquidizing agent is a clay mineral, there is no effect of promoting the hardening of cements. Therefore, it can be constructed by combining one material at a time by a one-liquid injection, that is, a mixer such as a mixer, and pumping it with one pump. have.

On the other hand, in the case where the non-flowing agent is a soluble alkali silicate, it has a property of promoting hardening of cements, so that the non-flowing agent is injected into a suction hose connecting a combination tank for producing a fluidized suspension and an infusion pump for sending the suspension. In addition, a method of altering the non-flowable phase can be employed. Alternatively, a method of injecting a non-fluidizing agent into the infusion tube prior to the infusion pump may be employed.

In addition, when the feeding distance (between the pump and the injection port) is long, the resistance of the non-flow grout in the injection pipe becomes large, and the pressure feeding pressure becomes high, making construction difficult. For this reason, the method of putting a non-flowing grout into a tank once at a suitable place between an infusion pump and an inlet, and sending it to another pump may be employ | adopted.

In addition, a method of separately conveying the fluidized bed suspension and the non-flowing agent containing cements as a main component, merging and mixing between the pump and the injection port, and modifying and injecting the non-flowing phase grout may be employed.

In addition, the installation method of an injection pipe is not specifically limited. For example, the injection into a tunnel or structure is a method of injecting grout through a grout hole provided at a tunnel entrance or structure surface. In addition, the injection | pouring into the ground surface is provided with the injection pipe | tube by a boring machine etc., and the method of injecting grout through this injection pipe | tube is employ | adopted.

The grout of the present invention is easy to feed through a thin inlet tube, and can be delicately and precisely filled in a small cavity. In addition, it is possible to reliably inject and fill the desired range despite the fact that material separation or dilution with ground water occurs at the time of feeding and curing after injection.

Claims (1)

Grout, which is used to inject and fill a cavity in a structure, a cavity in the ground, or a cavity generated at the interface between the structure and the ground, and adds a soluble alkali silicate or clay mineral as a non-flowing agent to a suspension of fluid phase containing cement, A grout which satisfies the following condition [A] and condition [B]. [A] Do not flow under no pressure. [B] Fluidizing under pressure of 0.0005 to 0.005 N / mm 2.