JP2942749B2 - High fluidity wet shotcrete - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wet shotcrete used for construction of tunnels and underground structures, and more particularly to a high flow rate, easy pumping, a large spraying amount per unit time, and The present invention relates to a high flow type wet shotcrete that exhibits high strength.

[0002]

2. Description of the Related Art In the construction work of excavated tunnels and underground spaces, a method of spraying concrete on an exposed surface and lining the exposed surface to prevent collapse of the exposed surface is widely used.

[0003] As a concrete spraying method, a dry method and a wet method are known. The wet method has an advantage that less dust is generated than the dry method, and also has a quality control of concrete. It is the mainstream of spraying method because it is easy and stable strength can be obtained.

[0004] The compressive strength of conventional shotcrete is:
It is a 20~30N / mm ² about in the wood Ordinance 28 days. Therefore, conventionally,
After the construction of the shotcrete, concrete was further poured inside the shotcrete, and the secondary lining was applied. That is,
Shotcrete itself has been constructed as a temporary temporary structure.

By the way, recently, for the purpose of shortening the construction period and reducing the construction cost, it is often necessary to eliminate the secondary lining after the construction of the shotcrete or to construct the structure by a simple secondary lining with a precast concrete plate. Is being done. In order to perform construction by such a method, a higher support effect is required for shotcrete than in the past, and therefore, high strength is required.

[0006] Therefore, recently, the quick-setting property has not been impaired,
A high-strength shotcrete that has a compressive strength of 50 N / mm ² or more in 28 days has been developed. By using such a high-strength shotcrete, the shot thickness can be reduced as compared with the conventional shotcrete, so that the shot time can be shortened. And since the whole spraying amount can also be reduced, it is economically advantageous.

[0007]

However, such a conventional concrete has a large amount of powder to obtain high strength, and has a slump of 23 cm or less (slump flow).
Since the quick-setting material is added to the base concrete (450 mm or less), the viscosity is high, the pumping performance is low, and the amount of concrete that can be sprayed per unit time is small. Therefore, in a case where the spray area is large (for example, tunnel construction with a large cross section such as a full lane of six lanes), it takes a considerable time to spray concrete. In addition, pulsation occurred due to low pumpability, and the quality stability of wet shotcrete containing quick-setting material was poor.

Therefore, the present invention does not impair the quick-setting property,
To provide a high-flow-type wet-sprayed concrete with a stable quality that exhibits compressive strength of 50 N / mm ² or more in 28 days, has good pumping properties, and can increase the amount of spray per unit time. With the goal.

[0009]

Means for Solving the Problems The inventors of the present invention have conducted intensive studies to solve the above-mentioned problems, and as a result, using a specific hydraulic powder and specifying a concrete composition, the slump flow has been reduced to 500 to 500. The present inventors have found that the above problem can be solved by adding a quick-setting material to a high-flow type base concrete having a height of 700 mm, which is higher than the conventional one, and completed the present invention.

That is, according to the present invention, the Blaine specific surface area is 3500
A blast furnace slag having a weight ratio of blast furnace slag of not less than cm ² / g and ordinary Portland cement of 2: 8 to 6: 4 is used. Used, the amount of the hydraulic powder is 500-700 kg / m ³ , water /
Hydraulic powder ratio is 28-35%, coarse aggregate amount is 0.2-0.24m ³ / m ³ ,
Fine aggregate ratio 55-65%, high performance water reducing agent / hydraulic powder ratio of 0.
It is a high flow type wet sprayed concrete characterized in that a quick-setting material is blended with 5% to 2.5% of concrete.

Further, the present invention is the high flow type wet shot concrete according to claim 1, wherein the mixture of blast furnace slag and ordinary Portland cement is blast furnace cement B type.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention is described in more detail. First, the components of the high-flow wet shotcrete of the present invention will be described. (1) Hydraulic powder As the hydraulic powder, blast furnace slag having a specific surface area of 3,500 cm ² / g or more and blast furnace slag having a weight ratio of ordinary portland cement of 2: 8 to 6: 4: ordinary portland cement A hydraulic powder obtained by mixing 1 to 5% of anhydrous gypsum in the mixture is used. If the blast furnace slag used in combination with ordinary Portland cement has a Blaine specific surface area of less than 3500 cm ² / g, the quick setting property is poor and the compressive strength is not increased, which is not preferable. In addition,
Fineness having a specific surface area of the brane exceeding 10,000 cm ² / g requires a large amount of labor for production and is not practical. Therefore, it is preferable that the specific surface area of the blast furnace slag be 10,000 cm ² / g or less. If the weight ratio of the blast furnace slag in the blast furnace slag-normal Portland cement mixture is less than 20%, the flowability of the base concrete is not improved, so that the pumping performance is not improved, the amount of spray per unit time is reduced, and the material age is reduced. It is not preferable because the compressive strength on the 28th does not increase. On the other hand, if the weight ratio of the blast furnace slag exceeds 60%, the quick setting property is poor and the compressive strength is not increased, which is not preferable. If the amount of anhydrous gypsum blended with the hydraulic powder is less than 1%, the fluidity of the base concrete is not improved, so that the pumping property is not improved and the amount of spray per unit time becomes small. On the other hand, when the amount of anhydrous gypsum exceeds 5%, the quick setting property is poor and the compressive strength is not increased, which is not preferable.

As the ordinary Portland cement, commercially available one can be used. As long as the blast furnace slag has a predetermined brane specific surface area, commercially available blast furnace slag or crushed blast furnace slag may be used. A commercially available mixture of ordinary Portland cement and blast furnace slag having a predetermined weight ratio includes blast furnace cement B class.

As the anhydrous gypsum, commercially available anhydrous gypsum can be used. Although the specific surface area of the gypsum of the anhydrous gypsum is not particularly limited, it is preferably 3000 cm ² / g or more, and if it is more than this specific surface area, it can be used without any practical problem.

The method for mixing the hydraulic powder is not particularly limited. For example, blast furnace slag, ordinary Portland cement (or blast furnace cement B) and anhydrous gypsum are mixed in a predetermined ratio, May be used during the production of concrete, or each may be weighed and put into a mixer during the production of concrete. In addition,
As a mixture of blast furnace slag and ordinary Portland cement, the use of commercially available blast furnace cement type B can reduce the time and effort required for preparation of hydraulic powder or concrete. It is preferable in terms of cost and cost.

(2) High performance water reducing agent As the high performance water reducing agent, alkyl allyl sulfonic acid type,
Examples include high performance water reducing agents such as naphthalene sulfonic acid, melamine sulfonic acid, and polycarboxylic acid, which can be used in either liquid or powder form.

(3) Fine aggregate Fine sand includes river sand, sea sand, mountain sand, crushed sand and a mixture thereof.

(4) Coarse Aggregate The coarse aggregate includes river gravel, sea gravel, crushed stone, and mixtures thereof.

(5) Quick-setting material The quick-setting material is not particularly limited, and a commercially available quick-setting material can be used. For example, calcium aluminate, alkali aluminate and / or alkali carbonate can be used. And the like.

Next, a preferred composition of the high flow type wet shotcrete of the present invention will be described. (1) hydraulic powder weight hydraulic powder quantity is preferably a 500~700kg / m ^3. When the amount of the hydraulic powder is less than 500 kg / m ³ , the fluidity of the base concrete is not improved, so that the pumping property is not improved, the amount of spray per unit time is small, and the compressive strength is not increased, which is not preferable. On the other hand, the amount of hydraulic powder
If it exceeds 700 kg / m ³ , the viscosity of the concrete increases, so that the pumping ability decreases and the amount of spray per unit time decreases, which is not preferable.

(2) Water / hydraulic powder ratio The water / hydraulic powder ratio is preferably 28-35%. water/
If the hydraulic powder ratio is less than 28%, the fluidity of the base concrete is not improved, so that the pumping property is not improved and the amount of spray per unit time is reduced, which is not preferable.
On the other hand, when the water / hydraulic powder ratio exceeds 35%, the quick setting property is poor and the compressive strength is not increased, which is not preferable.

(3) Amount of high-performance water reducing agent The high-performance water reducing agent is preferably added to the hydraulic powder in an amount of 0.5 to 2.5%. If the amount of the high-performance water reducing agent is less than 0.5% of the hydraulic powder, the water / hydraulic powder ratio becomes large, the quick setting property is poor, and the compressive strength is not increased. On the other hand, when the amount of the high-performance water reducing agent exceeds 2.5% of the hydraulic powder, the viscosity increases, and the material separation, that is, the separation of the coarse aggregate and the mortar portion, tends to occur. It is not preferable because it decreases and the amount of spray per unit time decreases.

[0023] (4) coarse aggregate weight coarse aggregate amount is preferably between 0.2~0.24m ³ / m ^3. When the amount of coarse aggregate is less than 0.2 m ³ / m ³ , the amount of fine aggregate is large and the flowability of the base concrete is not improved, so the pumping performance is not improved and the spray amount per unit time is small, so it is preferable. Absent. On the other hand, when the amount of coarse aggregate exceeds 0.24 m ³ / m ³ , the flowability of the base concrete is not improved, so the pumping performance is not improved, the spray amount per unit time is small, and the rebound amount is large. Is not preferred.

(5) Fine Aggregate Rate The fine aggregate rate is preferably 55 to 65%. When the fine aggregate ratio is out of the above range, it becomes difficult to reduce the amount of coarse aggregate to 0.2 to 0.24 m ³ / m ^3, and the pumping performance is not improved because the fluidity of the base concrete is not improved, and the per unit time is not improved. It is not preferable because the spray amount is small and the rebound amount is large.

(6) Quick setting material The amount of the quick setting material is preferably about 4 to 7% of the hydraulic powder in consideration of quick setting property, long-term strength development and cost.

As for the method of applying the high flow type wet shotcrete of the present invention, a commonly used wet method can be arbitrarily applied. A conventionally used device can also be applied to the spraying device.

[0027]

The present invention will be described below with reference to examples.

1. Materials used The following materials were used. Cement: Blast-furnace cement B (Nippon Cement Co., Ltd.) Ordinary Portland cement (Nippon Cement Co., Ltd.) Admixture: Blast-furnace slag A; Trade name: Fine Finement 20A (Daiichi Cement Co., Ltd.) , the Blaine specific surface area of 6000 cm ² / g); blast furnace slag B: blast-furnace slag pulverized (Blaine specific surface area of 3100 cm ² / g); anhydrite; first cement Co. (Blaine specific surface area of 4000 cm ² / g) superplasticizer Agent; Trade name: "NT-1000" (manufactured by NMB Corporation) Quick setting material; Trade name: "Asano Super Natom" (manufactured by Nippon Cement Co., Ltd.) Fine aggregate: Crushed sand from Minami-ku, Kokura, Kitakyushu : 2.69): Gonoura, Iki-gun, Nagasaki Prefecture Offshore sea sand (specific gravity: 2.59) = 3: 7 (weight ratio) mixture coarse aggregate: crushed stone from Kajiro, Moji-ku, Kitakyushu (specific gravity: 2.80) Water: tap water

(Examples and Comparative Examples) According to the composition shown in Table 1, materials other than the quick-setting material were mixed with a twin-screw kneading mixer (0.1
m ³ ) and kneaded for 90 seconds.

The amount of quick setting material shown in Table 1 was added to the above concrete, and the concrete was sprayed on a box culvert having a width of 2.5 × depth 3.0 × height 3.0 m with a lath boat attached to the inside. The amount of each spray was 0.15 m ³ . As a spraying device, Ariba 260 manufactured by Fuji Bussan Co., Ltd. was used, and a Q gun manufactured by Nippon Pribrico Co., Ltd. was used as a supply device for quick-setting material.

[0031]

[Table 1]

The following properties 1) to 5) were measured for the concrete immediately after kneading and the shotcrete. 1) Slump flow: Concrete immediately after kneading is referred to as “JI
After the slump cone was pulled up according to “SA1101 (method for testing slump of concrete)”, the length of the maximum diameter of the spread concrete and the length in the direction perpendicular thereto were measured, and the average value was calculated. 2) The amount of concrete sprayed per unit time: The time from the start of spraying to the end of spraying was measured, and the amount of concrete sprayed per unit time was calculated. 3) Quick setting: The state of the concrete immediately after spraying is examined by touch, and when it cannot be squeezed, it is ○, when it can be crushed, it is ×.
And 4) Rebound rate: After the spraying was completed, the amount of concrete that fell without adhering was measured, and the rebound rate was calculated by the following equation. 5) Compressive strength (N / mm ² : material age 28 days): Concrete was sprayed on a wooden box of 30 × 40 × 20 cm, a specimen of φ5 × 10 cm was collected, and after curing at 20 ° C. in humid air, “ JIS A 1108
(Test Method for Compressive Strength of Concrete) ". Table 2 shows the results.

[0033]

[Table 2]

[0034]

The high flow wet shotcrete of the present invention has a stable quality due to improved pumpability, does not impair quick-setting properties, and has a material age of 50 N / mm ² or more in 28 days. Compressive strength, and the amount of spray per unit time can be increased compared to conventional high-strength shotcrete, further shortening the construction period and reducing the cost, and practical value Is extremely high.

──────────────────────────────────────────────────続 き Continuation of the front page (51) Int.Cl. ⁶ Identification symbol FI C04B 103: 12 103: 32 111: 20 (56) References JP-A-8-295550 (JP, A) JP-A-9-183646 (JP, A) JP-A-10-101390 (JP, A) JP-A-9-294640 (JP, A) JP-A-9-284818 (JP, A) (58) Fields investigated (Int. Cl. ⁶⁾ , DB name) C04B 28/04

Claims (2)

(57) [Claims] The weight ratio of blast furnace slag having a specific surface area of at least 3500 cm ² / g to ordinary Portland cement is 2: 8.
A blast furnace slag of 6: 4 is used. A hydraulic powder obtained by blending 1-5% of anhydrous gypsum with a normal Portland cement mixture is used, and the amount of the hydraulic powder is 500-700 kg / m ³ , water / hydraulic. Powder ratio 28-35%, coarse aggregate amount 0.2-0.24m ³ / m ³ , fine aggregate ratio
A high fluidity wet shotcrete characterized by mixing a quick-setting material to concrete having a high-performance water reducing agent / hydraulic powder ratio of 55 to 65% and a hydraulic powder ratio of 0.5 to 2.5%. 2. The high flow wet shotcrete of claim 1, wherein the blast furnace slag-normal Portland cement mixture is blast furnace cement B.