RU2672069C2 - Waterproofing injection composition for the building objects underground protection (options) - Google Patents

Abstract

FIELD: construction.SUBSTANCE: group of inventions relates to the repair and insulation compositions and can be used to eliminate leaks in the buildings and structures underground parts, in hydraulic engineering construction and the mining enterprises operation. Waterproofing injection composition contains, according to the first variant, 10–99 wt % of bentonite clay, containing montmorillonite minerals, 0.1–90 wt % siliceous rock in the form of fine silica, 0.1–50 wt % sodium polyacrylate, 0.1–30 wt % anionic polyacrylamide, 0.7–70 wt % fatty acids triglycerides with the free fatty acids and waxes admixtures. According to the second variant, the composition contains 10–99 wt % of bentonite clay, containing montmorillonite minerals, 0.1–90 wt % siliceous rock in the form of fine silica, 0.1–50 wt % AK series acrylic water-absorbing polymer, 0.1–30 wt % anionic polyacrylamide, 0.7–70 wt % polyatomic alcohols.EFFECT: technical result is increase in the waterproofing quality and reliability, enabling the waterproofing operations environmental compatibility and expansion of the composition operational use.2 cl, 6 tbl

Description

The group of inventions relates to the field of construction, in particular to injection compositions for creating intra-ground waterproofing volumetric membranes and can be used to eliminate leaks in the underground parts of buildings and structures, tunnels, collectors, water pipes, foundations, underground structures, during the construction of waterproofing curtains in hydraulic engineering and the construction and operation of mining enterprises, etc., in emergency situations when breakthrough waters occur.

Known waterproofing compositions of building mixtures for the protection of concrete structures of buildings:

Known waterproofing composition for the protection of concrete and stone structures, including Portland cement, sodium silicate in the form of a powdery silicate block, quartz sand, superplasticizer in the form of polycarboxylate, silica fume and cellulose ether, RU No. 2511198 C1, C04B 41/65, C04B 28/04, 04/10/2014.

Known waterproofing mixture for treating a concrete surface, containing Portland cement, sodium sulfate or sodium carbonate, silicone liquid GKZH-11 and superplasticizer C-3, RU No. 2459785 C1, C04B 41/61, C04B 28/04, 08/27/2012; RU No. 2457193 C1, C04B 41/65, C04B 28/04, July 27, 2012.

Known waterproofing composition for impregnating a concrete surface, including Portland cement, silica sand, sodium nitrate, sodium sulfate, silica sand and optionally sodium silicate block, sodium chloride, calcium nitrate, sodium carbonate, silica fume and superplasticizer S-3, RU No. 2350583 C1, C04B 41/65, 03/27/2009; RU No. 2350582 C1, C04B 41/65, 03/27/2009.

Known waterproofing polymer-cement mixture, including Portland cement, polymer and quartz sand, while it contains as a polymer a triple copolymer of ethylene, vinylaurate and vinyl chloride and additionally sodium bentonite, lignosulfonate, methylhydroxyethyl cellulose, sodium carboxymethyl cellulose and Е363462, hydroxypropylbenzoate 11/27/2002.

Well-known grouting material for waterproofing in wells:

Known polymer cement composition, including urea-formaldehyde resin, an acid hardener containing resorcinol and ferrochrome lignosulfonate, and a filler which is used as a white carbon black BS-120 or talcum powder, or crumb rubber, or chalk, RU No. 2426866 C1, E21B 33/138, 20.08. 2011.

A well-known cement slurry containing cement, bentonite clay powder, hydrolyzed polyacrylamide, soda ash, water and optionally sulphite-distillery stillage, RU No. 2211304 C1, E21B 33/138, 08/27/2003.

A known composition for a waterproofing coating in the construction of oil and gas wells, containing Portland cement 52-56; bentonite 8-9; polyvinyl alcohol 0.05-0.2; water, while the composition is prepared by simple mixing of reagents, RU No. 1772303 A1, E02B 3/16, 10.30.1992.

The composition of tamponizing action based on a mineral binder and an expanding additive is known, while it contains one component from the series as a mineral binder: tensile cement, alumina cement, gypsum-alumina cement, Portland cement, lime, a salt of silicic or phosphoric acid, and as an expanding additive - the product of the interaction of acid and / or base with cement, RU No. 2341624 C2, E04B 1/68, C09K 3/10, C09K 8/467, C04B 28/00, 12/20/2008.

A well-known grouting composition, including clay powder, polymer, water-absorbing and vegetable, synthetic or mineral oil, RU No. 2285713 C1, C09K 8/467, C09K 8/24, C09K 8/502, 10.20.2006.

Known components of the waterproofing composition and methods for their use:

Bentonite clay

Known montmorillonite or bentonite clay, which is the raw material for the production of clay powders. Bentonite has huge waterproofing properties, the main component of which is montmorillonite, due to which it acquires outstanding hydrophilicity and swelling properties. Montmorillonite minerals containing a lot of magnesium have crystalline structures in which the layers of aluminum hydroxide are replaced by layers of magnesium hydroxide, similar to the layers that make up pure brucite, _chem21.info/info/1658153.

A known method of producing a filtering and sorption material, comprising applying an aluminosilicate mineral to a substrate, using bentonite clay with a content of montmorillonite of at least 80%, RU No. 2345834 C1, B01J 20/16, B01D 39/06, 02/10/2009.

A known method for producing activated bentonite, including preliminary crushing of bentonite clay and subsequent joint grinding of clay with a sodium-containing activator, which is used as a rhombic crystalline hydrate of soda Na ₂ CO ₃ ⋅H ₂ O or natural mineral termonatrite, RU No. 2297434 C1, C09K 8/05 C04B 33/04, 04.20.2007.

Natural silica

Known silicon dioxide (silica, Silicon dioxide, silica) - a substance consisting of colorless crystals, has high strength, hardness and refractoriness, is resistant to acids and does not interact with water. In nature, silicon dioxide is quite widespread: crystalline silicon oxide is represented by minerals such as jasper, agate (small crystalline compounds of silicon dioxide), quartz (free silicon dioxide). Natural silicon dioxide (silica) is widely used in construction (concrete, sand, sound and heat insulating materials), neboleem.net/dioksid-kremnija.php.

A known method of producing amorphous silicon dioxide used as a mineral filler, including the stage of grinding silicon-containing raw materials, which are natural rocks with a high content of bound amorphous silica up to 70-75%, RU No. 2402485 C1, C01B 33/12, 27.10. 2010.

Sodium Polyacrylate

Known sodium polyacrylate - sodium salt of polyacrylic acid. One of the main properties of the compound is its ability to absorb liquids 200-300 times its own mass. It is an anionic polyelectrolyte with a negatively charged carboxyl group in the main chain. It is used as a dispersing agent, polyelectrolyte, moisture-absorbing material, chemsystem.ru/catalog/265.

Known plasticizing additive to concrete mixture containing an aqueous solution of technical pentaerythritol and a 40% aqueous solution of sodium polyacrylate, while the mass ratio of sodium polyacrylate and pentaerythritol is 100: 1, and these components are contained in the form of a complex compound, RU No. 2554993 C1, C04B 28/02, C04B 24/02, C04B 24/04, C04B 103/14, 07/10/2015.

Anionic Polyacrylamide

It is known to use anionic polyacrylamide in the oil and gas industries and geology for regulating the viscosity and fluid loss of drilling fluids, during waterflooding and repair and insulation works, and also as an inhibitor of clay swelling. This type of polymer consists of molecules that carry a negative charge. It can attract positively charged particles (clay, sand), like a magnet attracts nails and other metal objects. There are over 100 varieties of this type of polymer. Anionic polyacrylamide does not have water toxicity and is widely used in furrow irrigation, dust control, dusting of crops, water crops, animal waste treatment, in construction projects, on sports grounds, in drilling fluids, subsoil development, water use, soil protection, en.njgaokechem.com / Anionic- ...

A known method of dewatering suspensions, including processing the suspension with cationic and anionic flocculants, followed by separation of the solid phase from the liquid phase, the content of the solid phase and its ash content are preliminarily determined, then the suspension is sequentially processed in the apparatus for stirring with a solution of polyacrylamide in anionic form, transferred by gravity to the next the apparatus for mixing and in the process of translation process the suspension with a solution of polyacrylamide in cationic form, RU No. 2165900 C1, C02F 11/14, B01D 21/01, 04/27/2001.

Fatty Acid Triglycerides

Fatty acids are known as the breakdown products of hydrogenated and non-hydrogenated vegetable oils and animal fats, which are triglycerides of fatty acids - stearic, palmitic, oleic, etc., chem21.info/info/1087235.

Polyols

Polyhydric alcohols (polyalcohols, polyols) are known - organic compounds of the alcohol class containing more than one hydroxyl group in their composition. Polyhydric alcohols are of particular importance in two areas: food industry and polymer chemistry, fb.ru/article/43028/...

Known polymer composition for isolating water inflow into oil and gas wells, including a solution of total shale alkylresorcinol in alcohols and a hardener, while it contains one and / or dihydric alcohols as alcohols, and the hardener additionally contains polyhydric alcohols - water-soluble starch hydrolysis products, RU No. 2504570 C1, C09K 8/504, 01/20/2014.

A known composition for preventing hydrated, salt deposits and corrosion, including a surfactant, alcohol, mineralized water, and further comprises a polymer (polyacrylamide), scale inhibitor, alcohol in the form of a mixture of formalin, C ₁ -C ₃ dihydric alcohol, polyhydric alcohol: glycerin or a product containing it - polyglycerin, RU No. 2504571 C2, C09K 8/528, 01/20/2014.

A known method of hydrophobic treatment of the bottom-hole zone of a productive formation, including injecting a mixture of surfactants into a pore-fracture space of the bottom-hole zone of a formation, keeping the well at rest for capillary treatment and transferring to a flow of hydrocarbons, using a solution containing, by weight . %: a mixture of polyhydric alcohols is a by-product in the production of mono-, di- and triethylene glycols 75.0-96.0, RU No. 2425210 C2, E21B 43/22, C09K 8/84, 07.27.2011.

A known composition for isolating water inflow into oil and gas wells containing a phenol-formaldehyde resin of a resol type and a hardener, the composition containing a hardener comprising formalin and sodium hydroxide, and additionally polyhydric alcohol selected from the group consisting of ethylene glycol, diethylene glycol, as a hardener glycerin, RU No. 2215009 C2, E21B 33/138, C08K 13/02, 10.27.2003.

In the known waterproofing compositions, signs similar to the claimed composition were not found.

A known mixture to obtain a waterproofing suture composition penetrating, including bentonite clay, siliceous rock, polymer mixtures, RU No. 2408553 C2, C04B 28/06, C04B 111/27, 10.01.2011.

This technical solution was taken as the closest analogue of this group of inventions.

The mixture for obtaining the waterproofing suture composition of the penetrating effect of the closest analogue includes expanding cement, a filler containing sand with its partial or full replacement with tripoli, diatomite, siliceous rock, clay-concrete and additionally fiber, redispersible polymer powders (polymer mixtures), inorganic salts and provides sealing of cold joints of concreting, joints and joints of reinforced concrete structures, cracks and open cavities in concrete with increased water resistance and crack resistance Strongly.

However, sand is used as a filler in the closest analogue, which can be partially or completely replaced by clay-concrete or siliceous rock; joint use of concrete-clay and siliceous rock as a filler is not provided for in it.

In addition, in the mixture of the closest analogue there are no components providing a high reaction rate of the composition with water and the bulk density of the composition necessary to eliminate high-pressure breakthrough waters.

The basis of this group of inventions is to solve a problem that allows to improve the quality and reliability of waterproofing, to ensure environmental friendliness during waterproofing, to expand the operational use of the injection composition.

The technical result of the group of inventions is:

- in the swelling of the waterproofing mixture and obtaining a viscoelastic rubber-like non-hardening waterproofing mixture, it is possible to reliably clog pores and cracks in the soil massif upon multiple (hundreds of percent) increase in volume after its delivery to the water development zone due to the presence of water-sensitive acrylic polymers in the mixture (Options 1 and 2) and montmorillonite minerals;

- in the strength and stability of the waterproofing composition due to the presence of silicon dioxide, hydrated aluminosilicates and triglycerides of fatty acids;

- in the adhesive strength of the waterproofing mixture due to the presence of anionic polyacrylamide;

- to ensure a high reaction rate of the waterproofing composition with water in the waterproofing array and the bulk density of the waterproofing composition (the presence of the active components in the volume unit) necessary to eliminate high-pressure breakthrough waters due to the presence of fatty acids in the triglycerides (Option 1) and polyhydric alcohols (Option 2);

- in providing a spatial matrix that evenly distributes and holds water-sensitive polymers evenly in each unit volume of the waterproofing mixture due to the presence of bentonite clays in it.

According to the group of inventions (Options 1, 2), this problem is solved due to the fact that the waterproofing injection composition for intra-soil protection of construction sites includes bentonite clay, siliceous rock, polymer mixtures.

Option 1

The composition contains natural finely dispersed bentonite-montmorillonite minerals, natural fine-fraction silicon dioxide, sodium polyacrylate, and additionally contains anionic polyacrylamide with a molecular weight of at least 15 million and triglycerides of fatty acids (with admixtures of free fatty acids, waxes) in the following ratio of components, wt. %

fine natural bentonite-montmorillonite minerals 10-99 fine silicon dioxide 0,1-90 sodium polyacrylate 0.1-50 anionic polyacrylamide 0.1-30 fatty acid triglycerides 0.7-70

Option 2

The composition contains natural fine-dispersed bentonite-montmorillonite minerals, natural fine-fraction silicon dioxide, an acrylic water-absorbing polymer of the AK series, with a dispersion of not more than 200 microns. and additionally contains anionic polyacrylamide with a molecular weight of at least 15 million and polyhydric alcohols in the following ratio of components, wt. %

fine natural bentonite-montmorillonite minerals 10-99 fine silicon dioxide 0,1-90 AK Acrylic Water Absorbing Polymer 0.1-50 anionic polyacrylamide 0.1-30 polyols 0.7-70

The applicants did not identify sources containing information on technical solutions identical to this group of inventions, which allows us to conclude that it meets the criterion of "novelty."

Due to the implementation of the distinguishing features of the group of inventions (together with the features indicated in the restrictive part of the formula), important new properties of the object are achieved.

A multiple increase in the volume of the waterproofing composition resulting from the interaction of the claimed components with water and under the action of pressure compacting the composite provides the ability to reliably coat the pores and cracks of the soil mass, which ensures reliable waterproofing, and practically does not take time to mature the waterproofing composite and eliminates the need the use of additional activation additives for polymerization, and the effects of multidirectional pressure vectors (from the side of filtration leaks and from the side of injection injected under pressure) effectively compresses the composite, eliminating the leakage of water or high-pressure water breakthroughs, as well as defects in waterproofing areas of construction objects: foundations of buildings, hydraulic structures, wells for various purposes.

The applicants are not aware of any publications that would contain information on the influence of the distinguishing features of the group of inventions on the achieved technical result. In this regard, according to the applicants, it can be concluded that the claimed technical solutions meet the criterion of "inventive step".

The essence of the group of inventions

Waterproofing injection composition is designed to eliminate leaks in the underground parts of construction sites.

Waterproofing injection composition includes the following components:

Option 1

Component 1. Natural finely divided bentonite-montmorillonite minerals (hydrated aluminosilicates) (10-99 wt.%);

Component 2. Fine-fraction silicon dioxide (0.1-90 wt.%);

Component 3. Sodium polyacrylate (0.1-50 wt.%);

Component 4. Anionic polyacrylamide with a molecular weight of at least 15 million (0.1-30 wt.%);

Component 5. Triglycerides of fatty acids (with impurities of free fatty acids, waxes, etc.) (0.7-70 wt.%).

Option 2

Component 1. Natural finely dispersed bentonite-montmorillonite minerals (hydrated aluminosilicates) (10-99 wt.%);

Component 2. Fine-fraction silicon dioxide (0.1-90 wt.%);

Component 3. Acrylic water-absorbing polymer of AK series, dispersion no more than 200 microns. (0.1-50 wt.%);

Component 4. Anionic polyacrylamide with a molecular weight of at least 15 million (0.1-30 wt.%);

Component 5. Polyhydric alcohols (0.7-70 wt.%).

The acrylic water-absorbing polymer AK series is produced according to TU 2216-016-55373366-2007 and refers to high molecular weight polyacrylamide or polyacrylamide derivatives, the molecules of which have a three-dimensional spatial structure. The macromolecules of the spatial structure of the polymer are crosslinked by covalent bonds, which ensures high adsorption and water absorption properties. (T. A. Bayburdov AB Shipovskaya "Synthesis, chemical and physico-chemical properties of acrylamide polymers" Study Guide. Saratov 2014)

Components 1, 2, 3, 4, 5 (Options 1 and 2) are taken at the optimal values of their values.

Five experiments were carried out to study the waterproofing composition to determine the reaction rate (the beginning of polymerization), plastic strength and increase in volume upon contact of the components with water.

The results of studies to determine the reaction rate during the interaction of the waterproofing composition with water are given in table 1 "Determination of the beginning of the polymerization of the waterproofing composition in contact with water. Option 1 "and table 2" Determination of the beginning of the polymerization of the waterproofing composition in contact with water Option 2 ".

From tables 1 and 2 it can be seen that the high speed of the beginning of the polymerization of the waterproofing composition in contact with water (and when exposed to groundwater pressure or breakthrough water) provides quick and effective elimination of water phenomena, which is especially important in case of emergency situations.

The results of studies to determine the plastic strength in the interaction of the waterproofing composition with water are given in table 3 "Determination of the plastic strength of the waterproofing composition in contact with water Option 1" and table 4 "Determination of the plastic strength of the waterproofing composition in contact with water Option 2".

From tables 3 and 4 it is seen that the optimal ratio of components relative to the strength of the structure of the waterproofing composition is experience No. 3, because the plastic strength of the composition is at least 8400 Pa, which ensures the retention of the waterproofing composition in the pores, cracks and voids of the waterproofing array under the influence of breakthrough water pressure, and the viscoelastic properties of the composition provide the effect of “self-healing” of the structure of the waterproofing composition after dynamic loads. Despite the increase in the plastic strength of the waterproofing composition in experiment No. 4, the absence of component 5 in it, adversely affects the polymerization rate upon contact with water, which is confirmed by the conclusions of tables 1 and 2.

The results of studies to determine the increase in volume during the interaction of the waterproofing composition with water are given in table 5 "Determination of the increase in the volume of waterproofing composition in contact with water Option 1" and table 6 "Determination of the increase in the volume of waterproofing composition in contact with water Option 2".

From tables 5 and 6 it can be seen that a significant increase in the volume of the waterproofing composition depends on an increase in the percentage of component 3. A multiple increase in volume provides reliable colmatization and filling of water-conducting voids and cracks in the waterproofing array. Despite the increase in volume increase in experiments No. 4-5, experience No. 3 should be considered the optimal ratio of components, because in the absence in experiment No. 4 of components 2 and 5, the composition loses structural homogeneity and a high polymerization reaction rate according to tables 1 and 2. The presence in the waterproofing composition of an increased amount of component 3 in experiment No. 5 negatively affects the strength characteristics, which is confirmed by the conclusions in tables 3 and 4.

The optimal values of the components of the waterproofing composition were determined experimentally and confirmed by research data according to tables 1, 3, 5 (Option 1) and tables 2, 4, 6 (Option 2).

The inventive waterproofing injection composition is prepared by fractional screening or grinding bulk components of the waterproofing composition and mixing the components for 5-15 minutes at a temperature of 10 ° C-30 ° C in an installation intended for mixing.

The waterproofing composition is injected into pre-drilled wells (holes, holes) by supplying it hydraulically at a pressure of 0.1-2 MPa using piston or screw pumps.

The waterproofing composition is injected into pre-drilled wells (holes, holes) by feeding it aerodynamically under a pressure of 0.2-1 MPa using pneumosuperchargers.

The choice of injection method depends on the intensity of water occurrences in the underground parts of construction objects, as well as on the hydrogeological characteristics of the soil mass surrounding the construction object.

After the waterproofing injection composition is supplied to the water development zone due to its interaction with water and under the influence of pressure, it is densified and multiplied in volume, which ensures high-quality and reliable waterproofing of the underground parts of construction projects.

The claimed waterproofing injection composition was used during the waterproofing of buried concrete zero tanks, the period of uninterrupted operation of which at the time of the execution of the work exceeded 25 years. The restoration of the waterproofing properties of the buried structure was carried out according to the calculation scheme when using the waterproofing injection composition according to Option 1. The water flow was stopped.

In order to eliminate the breakthrough water in the concrete building of the hydroelectric power station, a waterproofing injection composition was used according to Option 2. The waterproofing composition was injected into the opened water supply crack, and the water development was eliminated within a few minutes.

The claimed group of inventions "Waterproofing injection composition for underground protection of construction sites Variants" contains components that are widely used in the construction industry when carrying out waterproofing works, and the work carried out to protect construction objects from water showings in the underground parts of construction objects determines, according to the applicants, the conformity of the group of inventions the criterion of "industrial applicability".

The proposed group of inventions allows:

- improve the quality and reliability of waterproofing;

- ensure environmental friendliness during waterproofing;

- expand the operational use of the injection composition.

Claims (4)

1. A waterproofing injection composition for the underground protection of construction sites, including bentonite clay containing montmorillonite minerals, siliceous rock in the form of finely divided silica, polymer mixtures in the form of sodium polyacrylate and anionic polyacrylamide, characterized in that the composition contains finely dispersed monoclonal bentonite minerals, siliceous rock in the form of thin-fraction silicon dioxide, sodium polyacrylate, additionally contains a Nionic polyacrylamide with a molecular weight of at least 15 million and triglycerides of fatty acids with impurities of free fatty acids and waxes in the following ratio of components, wt.%: montmorillonite bentonite clay minerals 10-99 siliceous rock in the form of fine fraction dioxide silicon 0,1-90 sodium polyacrylate 0.1-50 anionic polyacrylamide 0.1-30 free fatty acid triglycerides fatty acids and waxes 0.7-70 2. A waterproofing injection composition for the underground protection of construction sites, including bentonite clay containing montmorillonite minerals, siliceous rock in the form of fine-grained silicon dioxide, polymer mixtures in the form of anionic polyacrylamide and an acrylic water-absorbing polymer AK series, characterized in that the composition contains fine-grained high content of montmorillonite minerals, siliceous rock in the form of fine fraction silica, acrylic polymer water-absorbing series AK, dispersion of not more than 200 microns., additionally contains anionic polyacrylamide with a molecular weight of at least 15 million and polyhydric alcohols in the following ratio of components, wt.%: montmorillonite bentonite clay minerals 10-99 siliceous rock in the form of fine fraction dioxide silicon 0,1-90 AK Acrylic Water Absorbing Polymer 0.1-50 anionic polyacrylamide 0.1-30 polyols 0.7-70