JP2000034483A - Improvement of soil - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a soil improver which does not cause setup failure in the soil improver composed of slag-alkali cement, and to provide a method for improving soil by using this soil improver. SOLUTION: A soil improver is composed of a mixture comprising (i) slag, (ii) an alkali metal hydroxide, and (iii) at least one additive selected from calcium hydroxide, a calcium hydroxide-forming calcium compound and triethanolamine. A method for improving a soil comprises adding (i) slag, (ii) an alkali metal hydroxide, and (iii) at least one additive selected from calcium hydroxide, a calcium hydroxide-forming calcium compound and triethanolamine to a soil and mixing the resulting mixture in the presence of water.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a soil conditioner and a soil conditioner which are used for soils such as debris, sand, silt and the like containing a clay mineral.

[0002]

2. Description of the Related Art At present, Portland cement is mainly used for solidification of general soil, that is, soil for sand, debris, silt, etc., and treatment of residual soil (Cement Concrete No. 594, Cement Concrete No. 594; p99, 1996). On the other hand, for the purpose of cost reduction, reduction of heat generation in solidification, etc., a mixture of portland cement and slag such as blast furnace water slag (blast furnace cement) is also used. This is intended to increase the strength provided by the gradual hydration of slag induced by the hydration of Portland cement. On the other hand, apart from these Portland cements or those containing slag, slag-alkali cement containing slag as a main component and alkali hydroxide is also effective as a practical soil improver with few examples. It is. This is, for example, a slag mixed with an aqueous solution of an alkali metal hydroxide having a weight of 1/20 to 1/4, and is already used in various civil engineering and building construction fields. However, the above-mentioned slag-alkali cement has strength in a short time with respect to ordinary soil, has economic advantages, and is expected to be used in a long time. However, when a special clay mineral was included in the target soil, it was confirmed that this cement caused poor solidification and did not function as a soil conditioner. That is, solidification was delayed or satisfactory solidification strength was not obtained.

[0003]

SUMMARY OF THE INVENTION An object of the present invention is to provide a soil conditioner comprising slag-alkali cement, which does not cause poor solidification, and a soil conditioner using the same.

[0004]

Means for Solving the Problems In order to solve the above-mentioned problems, the present inventors first added a slag-alkali cement to a solidified material consisting of ordinary soil, and cured the cement. As a result of diligent research, allophane (Al ₂ O _3. (1-2) SiO ₂ .nH
₂ O), hydrated halloysite (Al ₂ O ₃ .2SiO ₂ .4H)
₂ O), Montmorillonite (Al ₂ O ₃ .4SiO ₂ .6H)
_When a clay mineral such as 2O) is present, Al ₂ O ₃ , Si is formed by a reaction between the clay mineral and an alkali metal hydroxide such as sodium hydroxide which is a constituent component of the cement.
It has been found that a situation occurs in which the O ₂ component is constantly eluted, and in particular, the Al ₂ O ₃ component inhibits the hardening reaction of the cement and causes poor solidification of the soil. As a result of further research, calcium hydroxide, a calcium compound capable of forming calcium hydroxide and calcium hydroxide as an additive that efficiently and quickly captures Al ₂ O ₃ as a hardening inhibitor and causes a normal hardening reaction. The discovery of triethanolamine led to the completion of the present invention. That is, according to the present invention, (i) slag,
A soil comprising a mixture containing (ii) an alkali metal hydroxide and (iii) calcium hydroxide, a calcium hydroxide-forming calcium compound and at least one additive selected from triethanolamine. An improver is provided. Further, according to the present invention, at least one selected from (i) slag, (ii) an alkali metal hydroxide and (iii) calcium hydroxide, a calcium hydroxide-forming calcium compound and triethanolamine is used according to the present invention. A soil improvement method is provided, wherein one kind of additive is added and mixed in the presence of water.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION The soil conditioner referred to in the present specification is:
This means increasing the strength of the soil, coagulating and solidifying the soil particles, and ensuring the stability and the water shielding of the soil. The soil referred to in the present specification includes ordinary soil, soil composed of inorganic particles such as debris, sand, silt, etc., and polyhydric soil such as sludge. The calcium hydroxide-forming calcium compound referred to in the present specification means a calcium compound that forms calcium hydroxide by reaction with water or alkaline water, and specifically includes calcium oxide, calcium chloride, and calcium nitrate. And the like.

[0006] The calcium hydroxide used in the present invention is composed of a solid calcium-containing compound containing Al ₂ O ₃ eluted in a suspension layer.
Although the calcium hydroxide is captured as an aluminate hydrate, the amount of this calcium hydroxide dissolved in an alkaline aqueous solution is extremely small due to the common ionic effect of hydroxyl groups (for example, 0.15 g in 100 g of pure water at room temperature). Dissolves, but when using caustic soda in the cement, 4% by weight of Na
In an OH aqueous solution, it is reduced to about 1/50). This Al
_In order to efficiently and quickly capture the ₂ O ₃ component as a calcium-aluminate hydrate by a liquid-liquid or solid-liquid reaction, calcium hydroxide is uniformly mixed in a fine state in the cement. Is desired. For this purpose, it is preferable to add fine calcium hydroxide powder (average particle size of 10 μm or less, preferably 5 μm or less) to slag or an aqueous alkali metal hydroxide solution and mix them. A more preferred method is to previously add powdered calcium oxide or calcium chloride to an aqueous alkali hydroxide solution and stir to produce emulsion calcium hydroxide having a particle size of 0.1 μm or less. For example, emulsified calcium hydroxide can be easily obtained from calcium oxide or calcium chloride by the following reaction formula. CaO + H ₂ O → Ca (OH) ₂ (1) CaCl ₂ + 2NaOH → Ca (OH) ₂ + 2NaCl (2) The amount of calcium hydroxide or calcium hydroxide-forming calcium compound added to the slag-alkali cement is It is used in an amount of 3 to 20% by weight based on the slag used, although it varies depending on the content of an aluminum compound such as allophane that inhibits hardening in the solidified body, the type of additive used, the desired soil strength, and the like. . When the blending amount is small, the effect of the addition cannot be expected much.On the other hand, increasing the blending amount is not only economically disadvantageous, but also when using calcium hydroxide or a calcium hydroxide-forming calcium compound, It becomes difficult to mix uniformly with an aqueous solution of an alkali metal hydroxide. Therefore, in practice, it is preferable to use it in the range of 5 to 15% by weight.

The triethanolamine used in the present invention is
Reacts with aluminum ions in a strongly alkaline atmosphere to produce a stable chelate compound. Therefore, by adding this to an aqueous solution of an alkali metal hydroxide in advance, even if a clay mineral that elutes the Al ₂ O ₃ component is present in the solidified matter, it can be efficiently used in the suspension. Since the slag-alkali cement can capture the solidified material, the slag-alkali cement can be used without worrying about the influence of the eluting component. The amount of triethanolamine to be used also varies depending on the content of the substance that inhibits solidification in the solidified substance, the strength desired for the obtained solidified substance, and the like, as in the case of calcium hydroxide described above. , 3 for slag
It can be appropriately selected in the range of 20 to 20% by weight.

In the present invention, it is preferable to use a combination of triethanolamine and calcium hydroxide, thereby increasing the 7-day strength of the solidified product by 20 to 30% compared to the case where the additive is used alone, even if the additive is used alone. Can be bigger. When the additive of the present invention is added, the alkali metal hydroxide used in the slag-alkali cement is further added with one.
It is also a preferred embodiment of the present invention to increase the amount by about 20%.

In order to improve the soil using the soil conditioner of the present invention (hereinafter simply referred to as the conditioner), the conditioner is added to the soil and mixed in the presence of water. In this case, the water content of the mixed system is adjusted to 15 to 40% by weight, preferably 20 to 30% by weight. This adjustment of water content
It can be carried out based on the amount of water in the target soil, the amount of water when the alkali metal hydroxide is added in the form of an aqueous solution, the amount of water added from the outside, and the like.

The alkali metal hydroxide used as a component of the slag alkali cement in the present invention is usually
Sodium hydroxide or potassium hydroxide is used. As the slag, hydraulic slag used for slag cement or blast furnace cement is used. The specific surface area (Brain value: cm ² / g) of this slag is 2000 to 2000.
16000 cm ² / g, preferably 5000 to 1400
0 cm ² / g. The usage ratio of the slag and the alkali metal hydroxide is 5 to 25 parts by weight, preferably 10 to 20 parts by weight of the alkali metal hydroxide per 100 parts by weight of the slag.

[0011]

The use of the soil conditioner of the present invention makes it possible to solidify a soil containing the aluminum compound as a solidification inhibiting component in the same manner as a soil containing no solidification inhibiting component. In particular, it is possible to increase the strength of the solidified product on the third to seventh days. Further, in the present invention, slag-an additive used for modifying the alkaline cement,
It is inexpensive, including calcium hydroxide, and is easily available. In addition, the compounding amount is small and does not significantly affect the product price. Further, it is possible to cope with soil containing a special component, which has conventionally been difficult to solidify with slag-alkali cement, without changing the solidification method conventionally used. Therefore, slag-alkali cement can be used irrespective of soil properties, and can be adopted regardless of the process.

[0012]

EXAMPLES The present invention will be specifically described below with reference to examples, but the present invention is not necessarily limited to these examples. The parts shown below are parts by weight.

Comparative Example 1 Obtained by adding 50 parts of clay (containing 30 wt% of free water) containing allophane, hydrated halloysite, montmorillonite, etc. to 90 parts of silica sand (Toyoura sand No. 5). A modifier suspension consisting of 12 parts of slag, 12 parts of a 10% by weight aqueous solution of caustic soda, and 20 parts of water was added to the solidified matter, stirred so as to be uniform, and then poured into a mold. Disc-shaped specimen (diameter 50mm x height 100m
m) was molded. The specimen was cured in a high-temperature room at 25 ° C. ± 1 ° C. under moist conditions. This is called sample M.

Example 1 A sample A was prepared in the same manner as in Comparative Example 1, except that 1.7 parts of fine crystalline calcium hydroxide powder (average particle size: 3 μm) was added to the modifier suspension. did.

Example 2 An experiment was carried out in the same manner as in Comparative Example 1, except that 3 parts of calcium chloride dihydrate was added to the modifier suspension and the amount of the aqueous caustic soda solution was increased to 2.4 times. The sample B was prepared.

Example 3 The same procedure as in Comparative Example 1 was repeated except that 1.2 parts of quicklime powder was added to the modifier suspension and the amount of water used was changed to 21 parts. Produced.

Example 4 A sample D was prepared in the same manner as in Comparative Example 1, except that 1.2 parts of triethanolamine was added to the suspension of the modifier.

Example 5 In Comparative Example 1, 1.2 parts of quicklime powder and 1.2 parts of triethanolamine were added to a modifier suspension.
An experiment was carried out in the same manner except that the amount of water used was changed to 21 parts, thereby preparing Sample E.

With respect to the sample M obtained in Comparative Example 1 and the samples A to E obtained in Examples 1 to 5, after being cured for a predetermined number of days, they were demolded to obtain a uniaxial compressive strength of a model manufactured by Lasco Corporation. When measured using KC-405, samples A to E
The test specimens up to 20 kgf / cm ² after curing for 7 days showed no strength development even after curing for 15 days.

Comparative Example 2 To 90 parts of the same sand used in Comparative Example 1, 50 parts of Kanto loam (a mixture of sand, silt and clay: containing about 20% by weight of free water) was added to prepare a solid to be solidified. . The loam confirmed significant amounts of allophane and hydrated halloysite. 12 parts of the same slag as used in Comparative Example 1 and 10% by weight of an aqueous solution of caustic soda 1
Two parts and 23 parts of water were uniformly mixed, and the improver suspension was added in the same manner as in Comparative Example 1, and the mixture was uniformly stirred to prepare a test sample. The thing that the sample M ^2.

Example 6 A sample F was prepared in the same manner as in Comparative Example 2, except that 1.7 parts of fine crystalline calcium hydroxide (average particle size: 3 μm) was added to the suspension of the modifier. did.

Example 7 A sample G was prepared in the same manner as in Comparative Example 2 except that 1.2 parts of quicklime powder was added to the modifier suspension and the amount of water used was changed to 24 parts. Produced.

Example 8 The same procedure as in Comparative Example 2 was carried out except that 1.2 parts of triethanolamine was added to the modifier suspension and the amount of water used was changed to 24 parts. Was prepared.

Samples F to H were demolded after curing for a predetermined number of days.
Then, when the uniaxial compressive strength was measured in the same manner as above,
The specimens from Samples F to H were cured at 20 kgf /
cm ^TwoAs described above, the sample M^TwoIs not even after curing on the 15th
No expression of intensity was seen.

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[Procedure amendment]

[Submission date] May 28, 1999 (1999.5.2
8)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Name of invention

[Correction method] Change

[Correction contents]

[Title of the Invention] Soil improvement method

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] Claims

[Correction method] Change

[Correction contents]

[Claims]

[Procedure amendment 3]

[Document name to be amended] Statement

[Correction target item name] 0001

[Correction method] Change

[Correction contents]

[0001]

TECHNICAL FIELD The present invention relates to a soil improvement method used for soil such as debris, sand, silt, etc., containing a clay mineral.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0003

[Correction method] Change

[Correction contents]

[0003]

SUMMARY OF THE INVENTION The present invention relates to a soil improvement method using a soil improvement agent comprising slag-alkali cement.
In law, to provide a soil improvement method using soil improvement agent which does not cause solidification defects and Problems.

[Procedure amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0004

[Correction method] Change

[Correction contents]

[0004]

Means for Solving the Problems In order to solve the above-mentioned problems, the present inventors first added a slag-alkali cement to a solidified material consisting of ordinary soil, and cured the cement. As a result of diligent research, allophane (Al ₂ O _3. (1-2) SiO ₂ .nH
₂ O), hydrated halloysite (Al ₂ O ₃ .2SiO ₂ .4H)
₂ O), Montmorillonite (Al ₂ O ₃ .4SiO ₂ .6H)
_When a clay mineral such as 2O) is present, Al ₂ O ₃ , Si is formed by a reaction between the clay mineral and an alkali metal hydroxide such as sodium hydroxide which is a constituent component of the cement.
It has been found that a situation occurs in which the O ₂ component is constantly eluted, and in particular, the Al ₂ O ₃ component inhibits the hardening reaction of the cement and causes poor solidification of the soil. As a result of further research, calcium hydroxide, a calcium compound capable of forming calcium hydroxide and calcium hydroxide as an additive that efficiently and quickly captures Al ₂ O ₃ as a hardening inhibitor and causes a normal hardening reaction. The discovery of triethanolamine led to the completion of the present invention. That is, according to the present invention, allophane, hydration
A few selected from Halloysite and Montmorillonite
For soil containing at least one kind of clay mineral , selected from (i) slag, (ii) alkali metal hydroxide and (iii) calcium hydroxide, calcium hydroxide-forming calcium compound and triethanolamine. At least one
There is provided a soil improvement method comprising adding a seed additive and mixing in the presence of water.

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Kaichi Muchinoka 4-2-35 Kudankita, Chiyoda-ku, Tokyo Light Industry Co., Ltd. F-term (reference) 4H026 CA05 CB02 CB03 CB08

Claims (3)

[Claims] 1. It contains (i) slag, (ii) an alkali metal hydroxide and (iii) at least one additive selected from calcium hydroxide, a calcium hydroxide-forming calcium compound and triethanolamine. A soil conditioner comprising a mixture of: 2. The method according to claim 1, wherein the soil is at least one selected from the group consisting of (i) slag, (ii) an alkali metal hydroxide, and (iii) calcium hydroxide, a calcium hydroxide-forming calcium compound and triethanolamine. A soil improvement method comprising adding an additive and mixing in the presence of water. 3. The method according to claim 2, wherein the alkali metal hydroxide is used in the form of an aqueous solution, and the aqueous solution contains at least one additive selected from calcium hydroxide, a calcium hydroxide-forming calcium compound and triethanolamine. Item 2. The method of Item 2.