RU2807641C1 - Composition for seamless rigid waterproofing - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the production of building materials used for waterproofing tunnels, foundations, various underground structures, for example, during the construction of a subway, as well as obtaining waterproofing coatings for walls, ceilings and floors. The composition for seamless rigid waterproofing comprises Portland cement, quartz sand, microsilica, cellulose ether, polycarboxylate-based hyperplasticizer, and redispersible vinyl acetate-based polymer powder. Additionally, the composition comprises calcium formate, polyvinyl defoamer, water repellent on oleic acid in the following ratio of components, wt.%: Portland cement 38-42; quartz sand 50-55; microsilica 2.5-5.5; cellulose ether 0.05-0.10; redispersible polymer powder on a vinyl acetate basis 1.0-5.0; polyvinol defoamer 0.01-0.20; calcium formate 0.1-1.5; polycarboxylate-based hyperplasticizer 0.1-0.5; water repellent on oleic acid 0.05-0.5. The complex of additives used in the composition makes it possible to obtain high adhesion of the material to the mineral substrate (1.8 MPa), high water resistance W16, sulfate resistance, high heat resistance and frost resistance.

EFFECT: expanded range of devices for installing seamless rigid waterproofing.

1 cl, 2 tbl, 3 ex

Description

The invention relates to the field of construction, namely to the production of building materials used for waterproofing tunnels, foundations, various underground structures, for example, during the construction of a subway, as well as obtaining waterproofing coatings for walls, ceilings and floors.

Protecting buildings and premises from dampness and moisture, that is, elastic or rigid waterproofing of a structure, is one of the complex and important stages of construction. If waterproofing measures are neglected during construction work, the walls and foundation become damp, and then mold appears. The durability of buildings is affected not only by the quality of building materials. In construction, several types of waterproofing are distinguished and used: rigid, elastic, painting, coating, pasted over, injection, impregnation. The choice of one or another type of waterproofing depends on the purpose of the building (residential or industrial, with a basement or shallow foundation), on the region of construction (humid climate, presence of groundwater, harsh winter), on the financial capabilities of the customer, and on the awareness of the contractors.

Today, construction cannot do without cement-based waterproofing materials. They stand out noticeably against the background of other varieties and have their own advantages, although they are not without disadvantages.

Cement-based waterproofing uses materials that are used to seal floors in construction. These are compounds that do not allow moisture to pass into rooms due to their high moisture resistance. These materials are distinguished by their particularly strong connections and have a high level of adhesion to concrete and other surfaces of various types (for example, brick). They are a highly effective tool for protecting building envelopes, parts of buildings and structures from the effects of water, while being easy to use.

Externally, the materials are powdered tensile cement. The composition may vary, which determines the properties and purpose for specific conditions. Such materials do not contain harmful impurities, so they do not emit toxic substances and are safe for builders and residents. In addition, they are durable and, subject to the rules of technology, are characterized by a service life of more than one decade.

Rigid waterproofing comes in several types:

1. Sheet insulation, using plastic plates, metal sheets, special tiles. These elements are secured to a rigid frame structure with screws, dowels, and welding. Used for external protection of facades, roofs, balconies, terraces. The internal surfaces of the walls can be covered with sheet foam.

2. Rigid coating, based on waterproof, dense concrete, cement-sand mixtures with polymer and sealing additives (bentonite, vinyl resin). Apply with a spatula or compressed air to brick, concrete, plaster, cement screed.

3. Plastic, ready-to-use fiberglass reinforced mold for waterproofing ponds. In areas with prolonged winter frosts, it may freeze and subsequently become deformed.

4. Waterproofing construction dry mixtures, which are used for exterior finishing and interior work. Their action is based on the penetration of the components of the composition into the porous structure of brick, concrete or plaster. Special dry mixtures are the most modern and reliable means for rigid waterproofing of concrete floors, walls, facades and foundations of buildings, swimming pools and even settling basins for drinking water. They can be used to insulate floors in toilets and bathrooms. Such mixtures have proven themselves well in sealing basements on soils with penetrating groundwater, and in the construction of wells and tunnels. Surfaces treated with new insulating materials are resistant to severe mechanical loads and are not subject to chemical influences.

It is known that to ensure waterproofing properties, various additives are introduced into concrete mixtures. Thus, a concrete mixture is known containing a mineral binder, fillers, water and a polymer additive - melamine-urea-formaldehyde resin (A.S. USSR N 438625, B.I. N 29, 1974). This additive increases the density of concrete, but reduces the rate of strength gain during the initial stages of hardening of the mixture.

A waterproofing polymer-cement mixture is known, including Portland cement, polymer and quartz sand, and it contains as a polymer a ternary copolymer of ethylene, vinyl laurate and vinyl chloride and additionally sodium bentonite, ligaosulfonate, methylhydroxyethylcellulose, sodium carboxymethylcellulose and hydroxypropyl starch. In this case, the waterproofing polymer-cement mixture contains, by weight. %: Portland cement 25-30, sodium bentonite 25-30, lignosulfonate 0.2-0.5, ternary copolymer of ethylene, vinyl laurate and vinyl chloride 8-10, methylhydroxyethylcellulose 5-8, sodium carboxymethylcellulose 6-8, hydroxypropyl starch 4-5, quartz sand 22-25 (RF Patent No. 2193634, IPC E04B 1/62, published November 27, 2002).

The disadvantage of the known composition is that the given composition has low elasticity and after several cycles of “soaking-drying” and “freezing-thawing” it loses its elasticity and becomes brittle. Also, the given composition is characterized by low corrosion resistance to liquid and gaseous chloride, carbon dioxide and sulfate environments. In addition, the given composition has insufficient adhesion strength of the material to the concrete base.

In the modern waterproofing market, penetrating waterproofing compounds made from Portland cements, fillers and mixtures of chemical compounds are known for the repair, protection and restoration of concrete building structures, for example, compositions of the Penetron brand, Lakhta brand, Kalmatron, Hydrotex, KT Tron -1" etc.

The composition of a waterproofing mixture for surface treatment of concrete is known. The composition includes, wt. %: sodium carbonate 30.0-51.3; sodium sulfate 20.5-40.0; sodium chloride 0.4-0.5; sodium nitrate 14.5-27.7 and calcium nitrate 0.1-15.0. The composition is mixed with a cement-sand mortar containing quicklime and applied to the concrete surface (Patent RU 2052413, С04В 28/04. Composition of the Kalmatron additive for concrete mixture or surface treatment of concrete, 01/20/1996).

The disadvantage of this composition is the low degree of water resistance of the treated concrete, the small depth of penetration into the concrete body - about 15 cm, low cubic, prismatic and adhesive strength, as well as the appearance of efflorescence on the surface of the treated concrete.

The closest to the proposed composition is the well-known penetrating waterproofing composition “KT Tron-1” from the Russian manufacturer of waterproofing materials at the KT Tron plant, which is a dry mixture that includes: special cement, dried fractional quartz sand and chemically active substances (bttps: //www.kttron.ru/goods/pronikayushchaya_gidroizolvatsiya/kt_tron_1/).

The known repair and waterproofing composition contains, by weight. %:

(Patent RU 2732547 C1, IPC C04B 41/63, published 09/21/2020 C1;

Patent RU No. 2471738, MPK S04V 28/02, publ. 01/10/2013 - accepted as the closest analogue).

The disadvantage of the known composition is the weak penetrating ability of the thin-layer coating and, as a consequence, the extremely low clogging ability, which manifests itself only in the surface layer of concrete. Also, when carrying out repair and restoration work on concrete structures, the restoration of strength characteristics occurs only in a layer close to the surface.

The problem to be solved by the claimed invention is the creation of a new composition that makes it possible to increase the efficiency of waterproofing when carrying out work on the repair, protection and restoration of concrete structures.

The technical result of the invention is to expand the arsenal of means for installing seamless rigid waterproofing. The complex of additives used in the composition of BABUERG 432 makes it possible to obtain high adhesion of the material to the mineral substrate (1.8 MPa), high water resistance W16, sulfate resistance, high heat resistance and frost resistance.

The technical result is achieved thanks to the creation of a new composition BAUBERG 432 for the installation of seamless rigid waterproofing.

Thus, a composition has been proposed for the installation of seamless rigid waterproofing, containing Portland cement, quartz sand, microsilica, cellulose ether, a hyperplasticizer on a polycarboxylate basis, a redispersible polymer powder on a vinyl acetate basis, characterized in that it additionally contains calcium formate, a polyvinyl defoamer, a water repellent on oleic acid with the following ratio of components, wt. %:

Portland cement 38-42 Quartz sand 50-55 Microsilica 2.5-5.5 Cellulose ether 0.05-0.10 Redispersible vinyl acetate based polymer powder 1.0-5.0 Polyvinol defoamer 0.01-0.20 Calcium formate 0.1-1.5 Polycarboxylate-based hyperplasticizer 01.-0.5 Water repellent based on oleic acid 0.05-0.5

The composition of BAUBERG 432 is a dry mixture of gray color.

Composition: cement, mineral filler and modifying additives. When mixed with the required amount of water, a mortar mixture of high mobility and high adhesion to the base is formed.

Peculiarities. The material is impermeable to liquids, but vapor permeable. It has a creamy consistency and is easy to apply with both hand and mechanical tools.

Resistance to aggressive environments and sea water. May harden in damp and enclosed spaces. High adhesion to steel reinforcement and concrete. Does not contain solvents or other substances hazardous to health.

Scope of application: Protection of building structures from the effects of: groundwater, liquid aggressive media and gases, sea water, carbonization and anti-icing salts. Waterproofing: swimming pools, tanks and containers, including drinking water; buildings, structures, structural elements. The composition and properties of Bauberg 432 are presented in table. 1.

The following are examples of implementation of the invention, which are presented to disclose the essence of the invention, but do not limit its scope.

The composition of BAUBERG 432 compared to the sample according to patent RU 2732547 (a waterproofing composition for the repair, protection and restoration of concrete structures) has significant advantages. Thus, a specially selected complex of additives used in the composition of BAUBERG 432 makes it possible to obtain high adhesion of the material to the mineral substrate (1.8 MPa), high water resistance W16, sulfate resistance, high heat resistance and frost resistance.

The composition of BAUBERG 432 contains an effective filler microsilica in an optimal amount of 2.5-5% of the total mass, which has a high dispersion. The introduction of microsilica in an optimal amount into the waterproofing composition increases properties such as water resistance, strength and resistance to chemical and mechanical influences. Also, the introduction of microsilica into a concrete mixture increases the adhesion between its particles and water-holding capacity, which facilitates its subsequent use. The optimal amount of Portland cement, namely 38-42%, in the mixture contributes to less shrinkage deformation compared to the compared waterproofing sample.

The introduction of a water repellent into the composition in an amount of 0.05-0.5% of the total mass of the mixture helps to increase the moisture resistance of the concrete surface. Redispersible polymer powder (RPP) improves adhesion, flexural strength, and ductility without noticeably affecting flow, thixotropy, or moisture retention. RPP in combination with a defoamer can significantly increase water-repellent properties. To achieve such properties, it is necessary to introduce 0.1-0.5% RPP and 0.01-0.2% defoamer, respectively.

The addition of calcium formate from 0.05% to 0.5% inclusive contributes to the rapid development of early strength, in contrast to the comparable analogue.

Table 2 presents a comparison of the properties of the claimed composition and the KTtron-1 analogue.

Claims (2)

Composition for seamless rigid waterproofing, containing Portland cement, quartz sand, microsilica, cellulose ether, polycarboxylate-based hyperplasticizer, redispersible vinyl acetate-based polymer powder, characterized in that it additionally contains calcium formate, polyvinyl defoamer, water repellent on oleic acid in the following ratio components, wt. %: Portland cement 38-42 Quartz sand 50-55 Microsilica 2.5-5.5 Cellulose ether 0.05-0.10 Redispersible vinyl acetate based polymer powder 1.0-5.0 Polyvinol defoamer 0.01-0.20 Calcium formate 0.1-1.5 Polycarboxylate-based hyperplasticizer 0.1-0.5 Water repellent based on oleic acid 0.05-0.5