DE1962499A1 - Method for stabilizing soil - Google Patents

Description

concerning:
"Method for stabilizing soils"

The invention relates to a method for stabilizing soils by using them in particular by injection an inorganic substance which, when combined with the soil, forms an essentially contiguous one and impermeable mass hardened.

The consolidation of loose soils and sub-floors * by mixing with or injection of substances that have a binding effect is of great importance to many Work in civil engineering, mining and drilling. There is therefore a need for masses in the porous G-round can be injected to make it impermeable or to reduce its permeability significantly. Such In general, masses must be low viscosity liquids that are easily prepared in place, lightweight and can be handled without danger to the workers involved in their use and for whom a number of their own

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Shafts can be precisely regulated to meet the requirements to meet the various local conditions.

In British Patent No. -1 122 308 there is one method to stabilize the soil described · that the treatment of the soil with an aqueous liquid that (a) a vegetable tannin extract, (b) formaldehyde and / or paraformaldehyde or a water-soluble phenol-formaldehyde resin and (c) containing an alkali hydroxide so v / i e comprises allowing the treated soil to harden.

In addition, a method for stabilizing the soil has been proposed before the treatment of the soil with a A composition comprising (a) a vegetable tannin, (b) formaldehyde or paraformaldehyde, and (c) an alkali carbonate or -borate contains.

In British Patent No. 9 ^ 8,641 there is a method described for the stabilization of soils, which consists in the fact that a mixture of an aldehyde and a substituted phenol.

These various methods, while suitable for their intended purposes, nonetheless have a number of Disadvantages in practical use. For example, the irritating effect of formaldehyde vapor, which occurs during the Mixing and injecting can be a nuisance and adversely affect the etching effect the alkalis used.

It is known to use sodium silicate dispersions as inorganic VerguiSmittel, but such substances have will not prove to be entirely satisfactory. So were Attempts have been made to subfloors by injecting separate solutions of sodium silicate and acidic substances

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to solidify, but it is difficult to achieve adequate mixing of the two components and * to control the curing time. Consequently, potting compounds are made from a single solution have been described, for example in "Artificial paving of floors" by G.B. Vaisfei'd, Manual 39 of the Academy for Building and Architecture of the USSR. With these potting compounds, a colloidal solution of sodium silicate with the help of an acidic substance before the Injection into the sub-floor adjusted to a predetermined pH value.

In practice, however, it has been shown that such Masses, although generally suitable for injection into highly porous soils such as sand and gravel, are not satisfactory are for injection into finely porous soils, since sodium silicate does not form a real solution in water, but is in the form of a colloidal solution containing subcolloidal aggregates. Such aggregates have a size which in many cases is sufficient to clog the pores of a finely porous layer and thus to poor penetration leads. In addition, in many cases, the reaction between the acidic curing agent used and your Sodium silicate cannot be accelerated adequately without causing flocculation.

It has now been shown that inorganic casting materials the above-mentioned disadvantages of the lithium silicate potting compounds do not possess, can be prepared by replacing a mixture of liatrium silicate and an acidic Material an aqueous silicone: oxide sol, i.e. a silicic acid hydrosol, possibly together with a ketal salt. In this way, a casting compound can be obtained which a significantly lower viscosity at a certain iest-

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substance content than a corresponding sodium silicate solution and which consequently can be more easily injected into layers of low porosity which do not contain aggregates and also easily by adding suitable salts

Can be adjusted to fit in almost any desired
a / gel forms without flaking.

The present invention accordingly relates to a method for stabilizing soils, which is characterized by is that the soil with an aqueous silica sol, which optionally contains an accelerator for gel formation may contain, impregnated and brings the sol therein to gel.

The term "soil" is used herein to refer to any geological material that has sufficient Has porosity in order to be able to be impregnated by the method according to the invention. However, the invention has particularly useful for treating underground layers of a finely porous structure, such as sandstone, by injecting under pressure.

The silicon oxide sols used to carry out the process according to the invention are silicic acid hydrosols, the are commercially available and can be manufactured in any of the known ways. They usually will prepared by acidifying an alkali silicate, usually sodium silicate, and polymerizing of the resulting silica beyond the desired point (about 250 ^) by using a hydrogen bond donor, which is usually an ether with further oxygen or nitrogen atoms or a üf-sub-

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substituted amide is added. An inorganic salt can be used to salt out the product. Optional The hydrosol can also be purified by an ion exchange process are, optionally continuously in a countercurrent ion exchanger or by dialysis or electrodialysis. Typically, an aqueous silica sol has a SiOn ^ UO weight ratio between 80: 1 and 150: 1 (where Μ is an alkali metal). The concentration can vary between 10 and 50% by weight silicon dioxide and is expedient between 20 and 40% by weight. It will be readily understood that although silica sols can be prepared, the have a silica content of less than 10% by weight, the resulting gels are weak and of little utility for the purposes of the present invention.

In the preferred embodiment of the method according to the invention, the accelerator for gel formation is a water-soluble metal salt which is added to the silica sol immediately before it is injected into the layer to be attached. Any common water soluble metal salt can be used for this purpose and is chosen to give the desired time for gel formation. The effect of the salt depends, among other things, on the size of the cation charge and the amount used. The time for gel formation is shortened most clearly by highly charged metal ions and by increasing the amount of salt added. Thus, a silica sol of 30 % silica content solidifies in about 5 minutes after it has been mixed with 40% of its volume of a 10% solution of sodium chloride, while the same sol remains liquid for a few hours before it forms a gel when it is mixed with 20% of its volume of a 5% solution of sodium chloride is mixed.

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If desired, gel formation can be initiated by adding materials other than metal salts, e.g. Alcohol, ketone, ether, or carboxylic acid as a great variety of materials can be used to provide stability of a silicon dioxide sol and gel formation initiate.

The invention is illustrated in more detail by the following examples.

Example 1

100 parts by volume of a silica hydrosol with an average particle size of 250 S. and an SiOp content of 30% by weight (Syton 2X from Monsanto Chemical Company) were added during the addition of 20 parts by volume of a solution of 5 // ° * sodium chloride stirred quickly. After 2 to 3 days it was found that the hydrosol had seeped through the sand and him had carefully wetted prior to gel formation.

The sand-filled gel thus produced was subjected to a permeability test subject. It was found that the K value was less than 10 "" "cm / sec.

Example 2

Syton 2X and a 10fold solution of sodium chloride were ^; mixed in a mixing and measuring pump in a ratio of 5: Λ before they were injected at a pressure of 1.4-1 kg / cm (20 psi) into a bed of gravel, through which the bottom slowly creeps

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water moved. 1 hour after the injection, the water had agitation stopped and after digging -it showed that the gravel easily turned into a gel-like and impermeable hatred was bound.

PATENT CLAIMS:

009841/1054

Claims (6)

PATENT CLAIMS: 1) A method for stabilizing soils, characterized in that the soil with a aqueous silica sol and the sol therein brings about gel formation. 2) Method according to claim 1, characterized in that the aqueous silica sol
contains an accelerator for gel formation. 3) Method according to claim 2, characterized in that the accelerator for gel formation is a water soluble metal salt. 4) Method according to claim 2, characterized in that g e k e η η draws , that the accelerator is sodium chloride is. 5) The method according to claims 1 to 4, characterized in that geke η η is characterized by the fact that v.-älirige Siliciundioxidsol
from one: AI> ali:.: etall £ ilicat; n with a weight ratio of SiG ^: K ^ C between SG: ^ and I ^ G: "; where Ii is an alkali metal. 6) Method according to claim Λ to 5, characterized in that geke η η - G O 9 8 i1 / 1054 - 2 - BAD ORIGINAL 1362 ^ 90 1A-57 227 records that the concentration of silica in the aqueous silica sol between 10 and Is 50% by weight. 62ZZIV 00 98 4 1/1054