JPH0517771A - Quick-hardening material for ultra-soft soil - Google Patents

Abstract

(57) [Summary] [Purpose] The object is to obtain a quick-hardening solidified material that is easy to use and solidifies ultra-soft soil quickly and in a reusable state. Composition: 31% by weight of clinker powder containing calcium sulfaluminate as a main component, 38% by weight of Portland cement clinker powder, 16% by weight of type II anhydrous gypsum, 15% by weight of quicklime and 0.25% by weight of soda ash. Material.

Description

Detailed Description of the Invention

[0001]

[Industrial application] Soil generated by excavation work such as shields, cast-in-place piles and continuous underground walls or dredging work of rivers, lakes and marshes has a large amount of fine particles, and has a high water content ratio and is in a fluid state. In particular, the soil generated during excavation work falls under the category of "dirty" in the Waste Management Law. The present invention relates to a quick-hardening solidifying material that solidifies such ultra-soft soil quickly and in a reusable state.

[0002]

2. Description of the Related Art Conventionally, as treatment methods for ultra-soft soil generated in various civil engineering works, sun drying treatment, forced dehydration treatment, mixing treatment of high quality soil, solidification treatment with cement, lime, etc., improvement with polymer water-absorbing agent Etc. are known, but each is first
As shown in the table, there are good points and bad points.

[Table 1]

[0003]

DISCLOSURE OF THE INVENTION The present invention loses fluidity immediately after the addition and mixing of the solidifying material according to the present invention to ultra-soft soil and hardens to a state where a person can ride in a short time. In addition, it is an object to obtain a rapid hardening type solidifying material that can reuse the improved soil.

[0004]

The present invention has been made to solve the above problems, and the first invention is to provide a clinker powder 1 containing calcium sulfaluminate as a main component.
0-40% by weight, Portland cement clinker powder 20-50% by weight, type II anhydrous gypsum 5-35% by weight, quick lime and / or slaked lime 5-25% by weight, alkali metal carbonate 0.1-2.5% by weight % Is a powdery ultra-hard soil quick-hardening solidifying material. In the second invention, the type II anhydrous gypsum added in the first invention is used in the form of fine powder and coarse powder, and the ratio is 1:
It is set to 0.8 to 1: 4. The calcium sulfaluminate according to the present invention has a rapid hardening property, and when hydrated, it reacts with Portland cement clinker powder, quick lime and / or slaked lime and gypsum to form ettringite or monosulfate. These hydrates have a large amount of bound water, have high strength, and are formed even in the presence of an organic substance, so that they are suitable for the use and purpose of the present invention. In addition, since type II anhydrous gypsum has a slower dissolution rate than hemihydrate gypsum or dihydrate gypsum,
Good compatibility with calcium sulphoaluminate, which contributes to high strength and stability of the solidified body. Type II anhydrous gypsum reacts with clinker, quick lime and / or slaked lime to form ettringite, so that the amount to be blended is determined by the amounts of clinker, quick lime and slaked lime.
The reason why the content is ˜35% by weight is that if the amount is less than the lower limit, the long-term (especially after kneading) strength development is poor, and if it is more than the upper limit, the stability of the solidified product is impaired. In addition, it is necessary to add those with different particle sizes because the gypsum in the fine powder state mainly contributes to hydration immediately after contact with water until the very early stage, whereas the coarse gypsum mainly develops the strength after that. In addition, it is to contribute to the strength development after the solidified soil is kneaded. The ratio of fine powder to coarse powder is preferably 1: 0.8 to 1: 4. It should be noted that, rather than preparing fine powder and coarse powder type II anhydrous gypsum and adding and mixing them, a part of the coarse powder type II anhydrous gypsum is mixed at the time of clinker pulverization to form fine powder (Blaine value 8. 00
0 to 10.000 am ² / g), and the rest is post-added with coarse powder (Blaine value of 3.000 am ² / g or less). Quicklime and / or slaked lime are used because they form hydrates by the pozzolan reaction and contribute to strength development (mainly for a long period). In addition, quicklime absorbs water and generates heat when it comes in contact with water, and reduces the water content of the soil. Therefore, quicklime is very effective for promptly improving the handling of fluid soil. Therefore, quick lime is preferable to slaked lime. In the present invention, the mixing amount of quicklime and / or slaked lime is specified to be 5 to 25% by weight, and it is desirable that the amount is a lot in the sense of improving the handling of soft soil immediately after mixing the solidifying material, but if too much, Since it has a bad influence on the strength development after that, and the optimum mixing amount also differs depending on the target soil, the optimum range was determined based on the experimental results. The reason why the alkali metal carbonate is blended is that it has good compatibility with calcium sulfaluminate and has an effect of promoting hydration. The cost can be reduced by using inexpensive soda ash or sodium carbonate as the alkali metal carbonate. If the amount of the alkali metal carbonate used as the accelerator is 0.1% or less, the effect cannot be obtained, and if the amount is large, it is more expensive than other base materials, and therefore the cost is increased. In addition,
Depending on the target soil, it may have the opposite effect, so it is practically 0.
It is preferable to add 1 to 2.5% by weight.

[0005]

【Example】

(Example 1) 31% by weight of clinker containing calcium sulfaluminate as a main component and 38% by weight of Portland cement clinker were added to type II anhydrous gypsum 16 × 1/2.
Plane value of 8000 to 10.000c by adding 1% by weight
Blaine value 3.000c for finely pulverized to m ² / g
Type II anhydrous gypsum 16 × in a coarse powder state of m ² / g or less
1.1 / 2.1% by weight, quicklime 15% by weight and soda ash 0.25% by weight are added and mixed to prepare a solidifying material according to the present invention having the following formulation. Clinker powder composed mainly of calcium sulfaluminate 31% by weight Portland cement clinker powder 38% by weight Type II anhydrous gypsum (fine powder: coarse powder = 1: 1.1) 16% by weight quicklime 15% by weight Soda ash 0.25 % By weight Then, to the following sample soil, the solidifying material according to the present invention and, as a comparative example, a predetermined amount of a polymer water-absorbing agent and ordinary Portland cement conventionally used for treating ultra-soft soil were added and mixed. Slump and uniaxial compressive strength were measured. Further, the improved soil was kneaded at a predetermined age and remolded to obtain the uniaxial compressive strength. Further, the water immersion test was carried out by immersing the specimen in water one day after the age. The results of these tests are shown in Table 2. (Sample soil)

[Table 2] As shown in Table 2, the solidifying material according to the present invention loses fluidity and can be carried out although the slump immediately after addition and mixing is slightly larger than that using the polymer water-absorbing agent. Furthermore, the strength development after reconstitution is good, and it can be sufficiently reused for embankment or land preparation. (Example 2) Two types of solidifying materials A and B having the following formulation according to the present invention were prepared, and as a sample soil, cohesive soil (water content ratio: 1
43%), a known polymer additive for excavation (using an anionic emulsion-type polymer "Super Coat" manufactured by Ternite Co., Ltd.) was added in a predetermined amount, and the present invention The above solidifying material was added and mixed, and slump and uniaxial compressive strength were measured. The measurement results were as shown in Table 3.

[Table 3] As shown in Table 3, even in the case of using a polymer-based additive for excavation, rapid hardening is exhibited by reducing the amount of gypsum.

[0006]

EFFECTS OF THE INVENTION By adding and mixing the solidifying material according to the present invention to ultra-soft soil, the ultra-soft soil loses fluidity immediately after that and hardens to a state where a person can ride in 30 minutes. Therefore, it does not require curing and can be carried out as a dump or the like, and the strength development after kneading is good, and it can be reused. Further, the other effects are as follows. 1 Applicable to a wide range of soils. 2 The solidification strength can be changed by selecting the addition amount. 3 Stable strength can be obtained even in the long term. 4 Considering reuse, this will lead to a reduction in total cost. 5 Even when an additive for excavation is used, it shows good rapid hardening.

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[Procedure amendment]

[Submission date] July 14, 1992

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of Invention] Quick-hardening material for ultra-soft soil

[Claims]

Detailed Description of the Invention

[0001]

[Industrial application] Soil generated by shield, cast-in-place and excavation work such as continuous underground walls or dredging work on rivers, lakes and marshes has many fine particles, and also has a high water content ratio and is fluid. In particular, the soil generated during excavation work falls under the category of "dirty" in the Waste Management Law. The present invention relates to a quick-hardening solidifying material that solidifies such ultra-soft soil quickly and in a reusable state.

[0002]

2. Description of the Related Art Conventionally, as treatment methods for ultra-soft soil generated in various civil engineering works, sun drying treatment, forced dehydration treatment, mixing treatment of high quality soil, solidification treatment with cement, lime, etc., improvement with polymer water-absorbing agent Etc. are known, but each is first
As shown in the table, there are good points and bad points.

[0003]

[Table 1]

[0004]

DISCLOSURE OF THE INVENTION The present invention loses fluidity immediately after the addition and mixing of the solidifying material according to the present invention to ultra-soft soil and hardens to a state where a person can ride in a short time. In addition, it is an object to obtain a rapid hardening type solidifying material that can reuse the improved soil.

[0005]

The present invention has been made to solve the above problems, and the first invention is to provide a clinker powder 1 containing calcium sulfaluminate as a main component.
0-40% by weight, Portland cement clinker powder 20-50% by weight, type II anhydrous gypsum 5-35% by weight, quick lime and / or slaked lime 5-25% by weight, alkali metal carbonate 0.1-2.5% by weight % Is a powdery ultra-hard soil quick-hardening solidifying material. In the second invention, the type II anhydrous gypsum added in the first invention is used in the form of fine powder and coarse powder, and the ratio is 1:
It is set to 0.8 to 1: 4.

The calcium sulfaluminate according to the present invention has a rapid hardening property, and upon hydration, reacts with Portland cement clinker powder, quicklime and / or slaked lime and gypsum to form ettringite or monosulfate. These hydrates have a large amount of bound water, have high strength, and are formed even in the presence of an organic substance, so that they are suitable for the use and purpose of the present invention. In addition, since type II anhydrous gypsum has a slower dissolution rate than hemihydrate gypsum or dihydrate gypsum, it has good compatibility with calcium sulfaluminate, which contributes to high strength and stability of the solidified body. Type II anhydrous gypsum reacts with clinker, quick lime and / or slaked lime to form ettringite, so the blending amount is determined by the amount of clinker, quick lime and slaked lime, but the lower limit is 5 to 35% by weight. If it is less than the value, the strength development for a long time (particularly after kneading) is poor, and if it is more than the upper limit, the stability of the solidified product is impaired.

[0007] The addition of those having different particle sizes is
Fine gypsum mainly contributes to hydration immediately after contact with water until the very beginning, whereas coarse gypsum mainly contributes to the subsequent strength development and also after the solidified soil is kneaded. This is to contribute to strength development. The ratio of fine powder to coarse powder is 1: 0.8
~ 1: 4 is desirable. It should be noted that, rather than preparing fine powder and coarse powder type II anhydrous gypsum and adding and mixing them, a part of the coarse powder type II anhydrous gypsum is mixed at the time of clinker pulverization to form fine powder (Blaine value 8. 000-10.000 am
² / g), and the rest is coarse powder (Blaine value: 3.000 am ²
/ G or less).

[0008] Quicklime and / or slaked lime are used because they form a hydrate by the pozzolan reaction and contribute to strength development (mainly for a long period). In addition, quicklime absorbs water and generates heat when it comes in contact with water, and reduces the water content of the soil. Therefore, quicklime is very effective for promptly improving the handling of fluid soil. Therefore, quick lime is preferable to slaked lime. In the present invention, quicklime and /
Or, the amount of slaked lime mixed is specified to be 5 to 25% by weight. It is desirable that the amount of slaked lime mixed is 5 to 25% by weight in order to improve the handling of the soft soil immediately after mixing the solidifying material. In addition, the optimum mixing amount varies depending on the target soil, so the optimum range was determined based on the experimental results.

The reason why the alkali metal carbonate is blended is that it has good compatibility with calcium sulfaluminate and has an effect of promoting hydration. The cost can be reduced by using inexpensive soda ash or sodium carbonate as the alkali metal carbonate. The alkali metal carbonate used as a promoter is 0.1%.
If the amount is less than the following, the effect cannot be obtained, and if the amount is large, it is more expensive than other base materials. Therefore, in addition to cost increase, it may have adverse effects depending on the target soil. It is preferable to add 0.1 to 2.5% by weight.

[0010]

EXAMPLES Example 1 31% by weight of clinker containing calcium sulfaluminate as a main component and 38% by weight of Portland cement clinker were added to II type anhydrous gypsum 16 × 1/2.
Plane value of 8000 to 10.000c by adding 1% by weight
Blaine value 3.000c for finely pulverized to m ² / g
Type II anhydrous gypsum 16 × in a coarse powder state of m ² / g or less
1.1 / 2.1% by weight, quicklime 15% by weight and soda ash 0.25% by weight are added and mixed to prepare a solidifying material according to the present invention having the following formulation. Clinker powder composed mainly of calcium sulfaluminate 31% by weight Portland cement clinker powder 38% by weight Type II anhydrous gypsum (fine powder: coarse powder = 1: 1.1) 16% by weight quicklime 15% by weight Soda ash 0.25 % By weight Then, to the following sample soil, the solidifying material according to the present invention and, as a comparative example, a predetermined amount of a polymer water-absorbing agent and ordinary Portland cement conventionally used for treating ultra-soft soil were added and mixed. Slump and uniaxial compressive strength were measured. Further, the improved soil was kneaded at a predetermined age and remolded to obtain the uniaxial compressive strength. Further, the water immersion test was carried out by immersing the specimen in water one day after the age. The results of these tests are shown in Table 2.

[0011]

[Table 2]

As shown in Table 2, the solidifying material according to the present invention loses fluidity and can be carried out although the slump immediately after addition and mixing is slightly larger than that using the polymer water absorbing agent. Furthermore, the strength development after reconstitution is good, and it can be sufficiently reused for embankment or land preparation.

Example 2 Two types of solidifying materials A and B having the following formulation according to the present invention were prepared and used as sample soil for a well-known excavating polymer system for cohesive soil (water content: 143%). A predetermined amount of an additive (using "Super Coat" manufactured by Ternite Co., Ltd., which is an anionic emulsion polymer) was used, and the solidifying material according to the present invention was added to and mixed with the additive. Slump and uniaxial compressive strength were measured. The measurement results were as shown in Table 3. (Compound formulation) AB Bacterial clinker containing calcium sulfaluminate as a main component 31% by weight 24% by weight Portland cement clinker 38% by weight 30% by weight Type II anhydrous gypsum 16% by weight 31% by weight quicklime 15% by weight 15% soda Ash 0.25% by weight 0.25% by weight

[0014]

[Table 3]

As shown in Table 3, even in the case of using a high-polymer-based additive for cutting, rapid hardening is exhibited by reducing the amount of gypsum.

[0016]

EFFECTS OF THE INVENTION By adding and mixing the solidifying material according to the present invention to ultra-soft soil, the ultra-soft soil loses fluidity immediately after that and hardens to a state where a person can ride in 30 minutes. Therefore, it does not require curing and can be carried out as a dump or the like, and the strength development after kneading is good, and it can be reused. Further, the other effects are as follows. 1 Applicable to a wide range of soils. 2 The solidification strength can be changed by selecting the addition amount. 3 Stable strength can be obtained even in the long term. 4 Considering reuse, this will lead to a reduction in total cost. 5 Even when an additive for excavation is used, it shows good rapid hardening.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Katsuyuki Sakamaki             2-1-1 Tsukimi-cho, Kumagaya-shi, Saitama Chichibu             Central Research Institute of Cement Co., Ltd. (72) Inventor Hiroyuki Sakamoto             4-6-15 Sendagaya, Shibuya-ku, Tokyo Stock             In ceremony company Fujita (72) Inventor Masao Sagara             4-6-15 Sendagaya, Shibuya-ku, Tokyo Stock             In ceremony company Fujita

Claims (2)

[Claims] 1. A clinker powder containing calcium sulfaluminate as a main component in an amount of 10 to 40% by weight, a Portland cement clinker powder in an amount of 20 to 50% by weight, type II anhydrous gypsum in an amount of 5 to 35% by weight, quick lime and / or slaked lime 5 to 5. 25% by weight, alkali metal carbonate 0.1-2.5% by weight, powdery ultra-soft soil quick-hardening solidifying material 2. The ultrafine powder according to claim 1, characterized in that finely powdered type II anhydrous gypsum and coarse powdered type II anhydrous gypsum are mixed in a ratio of 1: 0.8 to 1: 4. A quick-hardening solidifying material for soft soil.