EA046264B1 - COMPOSITION FOR STRENGTHENING SURFACE TREATMENT - Google Patents

Description

Technical field of the invention

The present invention relates to a composition for hardening surfaces, namely a composition for waterproof hardening of concrete surfaces, which contains liquid glass.

BACKGROUND OF THE INVENTION

It is known from the current state of the art that concrete is a composite material that consists of a binder, aggregate, water and impurities. The most common type of concrete is cement concrete, where cement is used as a binder and inert material is used as an aggregate. Another most used type is asphalt concrete. The properties and areas of application of cement concrete depend on the type of aggregate, as well as the binder; for example, for heat-resistant concrete, cement with an increased proportion of aluminates is used.

To improve the mechanical properties of concrete, steel reinforcement, cables, wire, and various fibers, such as carbon or glass, are used. Lightweight concrete with a porous structure is also produced with the addition of an admixture - fly ash produced by burning coal.

The main problem for the strength of concrete structures is the constant reaction between alkalis and silica. This is a combination of undesirable phenomena between a concrete solution containing sodium and potassium oxides with alkaline properties, hydroxide ions from calcium hydroxide and silica, which is part of natural and artificial inert materials for concrete. Silica is dissolved and destroyed under the influence of hydrophilic hydroxide ions from cement and metal cations present and subsequently forming a moisture-absorbing porous gel from polymetallic silicates mCaO.nSiO2.pH2O, mCaO.nAl ₂ O _{3.pH 2} O, mCaO.nFe2O3.pH2O, etc. which, in a humid environment, can absorb water and swell. This creates stress in the concrete, resulting in the formation of a thin coating of alkali silicate gel on surfaces, cracks, surface spalling, crumbling and general disintegration of the concrete.

Several methods are used to extend the life of concrete and reduce corrosion. For example, concrete hardening agents can be used to prevent moisture from penetrating into the concrete, resulting in a chemical reaction between the alkalis in the concrete, the silica in the aggregate, and the water in the water glass base. In some cases, standard sodium or potassium liquid glass is used. However, it is absolutely unsuitable, since sodium and potassium cations, on the contrary, take an active part in the formation of a hygroscopic gel and accelerate this process. In addition, sodium and potassium cations are large and cannot penetrate evenly into a dense surface. This lack of balance between gel formation and internal pressure enhances the overall decomposition process. Sodium and potassium hardeners are highly soluble in water and absorb it, thus also enhancing the reaction between alkalis and silica.

Other concrete preservatives used include alkoxysilanes. They are transparent hydrophobic agents that prevent water and chlorides from entering the concrete. This eliminates corrosion in the concrete. Examples include methyltrimethoxysilane, propyltrimethoxysilane, dodecyltrimethoxysilane and other similar compounds derived from ethoxysilane and the like.

From patent document RU 2544854 a heat-insulating coating for plaster and concrete is known, which contains a styrene-acrylic dispersion, ethylene glycol and varnish gasoline; the composition is very flammable and toxic, as well as harmful to the environment. The disadvantage is the fact that the coating is not waterproof and therefore cannot be used for outdoor use.

It forms a thin film on the surface and does not act at depth. From another patent document CN 109321074, a waterproof coating for building materials is known, which contains a small volume of liquid glass, while the main component is toxic acrylonitrile. The disadvantages of this coating include its organic properties, temperature instability and harm to the environment. It forms a thin film on the concrete surface and does not act at depth.

An epoxy coating for treating concrete for water protection is known from patent document KR 101783331. This coating also acts as a surface film that does not strengthen the concrete at depth, nor does it prevent the reaction between alkalis and silica.

From patent application CZ PV 1991-2211 a coating for concrete is known, which is based on soda-potassium glass. As stated above, soda and potassium glass are not suitable for concrete coatings because the sodium and potassium atoms are large and cannot penetrate the concrete structure and slow down the destruction process.

From another patent document KR 100820276 a composition of potassium and lithium silicate is known. The disadvantage of this composition is the presence of boric acid, which is toxic.

From patent document KR 100982229 a composition is known which contains sodium silicate and potassium silicate. The composition additionally contains 10 wt.% lithium compounds. This coating is very ineffective.

From patent application CZ PV 1996-3066 a coating for concrete floors or, accordingly, is known

- 1 046264 current cases, metals and glass, which contains silicon oxide in a significantly predominant volume, as well as sodium, lithium, potassium oxide and other oxides, mainly aluminum, and pigments. Layered silicates and mica are used as fillers, and it is also possible to add slag, sand, etc. The disadvantage of this coating is that it only acts on the surface of the material being processed.

From patent application CZ PV 2000-2127 a composition for forming a waterproof film for cement mortars, wood and tiles is known. It is a composition of lime, sucrose or glycerin and sodium metasilicate in water. Its disadvantage is the short service life of the protective layer formed.

From the current technology mentioned above, it is clear that the main disadvantage of the currently known state of the art is the fact that known means for treating the surface of concrete do not protect concrete, but often, on the contrary, contribute to its destruction. Another disadvantage is that the known compositions have a relatively short service life.

The purpose of the invention is to provide a composition for treating concrete, which will act not only on the surface, but also inside the structure of concrete, at the same time significantly extending the service life of the treated concrete structure.

Principle of the invention

The above disadvantages are largely eliminated, and the objectives of the invention are achieved through a composition for strengthening surface treatment, namely a composition for waterproof strengthening treatment of concrete surfaces containing liquid glass, which according to the present invention is characterized in that it contains from 1 to 10 wt. % bis^-triethoxysilylpropyl) tetrasulfide, from 89.9 to 98 wt.% aqueous solution of lithium silicate and from 0.1 to 1 wt.% liquid glass stabilizer.

The advantage of this composition is the fact that it protects not only the surface of the concrete, but also its internal structure for a long time. A significant advantage is the use of silane, which is more preferably bis-triethoxysilylpropyl tetrasulfide. In addition to its hydrophobization function, this organic sulfide, when combined with lithium liquid glass, forms a bridging bond between the concrete substrate and the liquid glass. Each molecule simultaneously reacts with particles of concrete and liquid glass. The advantage of bis(triethoxysilylpropyl)tetrasulfide is that it is a difunctional molecule that contains two types of reactive functional groups. The tetrasulfide group is a chain of four sulfur atoms. The so-called disulfide bonds between the four sulfur atoms are broken and metal cations (lithium) bond with the free sulfur atoms to form thiolates. Triethoxysilyl groups are sensitive to hydrolysis; hydrolyzed siloxy groups bind to silica particles, forming cross-linking. This additive radically changes the general behavior of the lithium liquid glass itself. It increases the bond with concrete and fills the porous structure of the concrete surface. A flexible, continuous, impermeable film is formed on the surface of the concrete. The concrete gains shine without becoming slippery. The shiny surface reflects light well and thus increases the lighting effect in the room, and at the same time improves the overall appearance of the ceiling.

The advantage is that liquid glass stabilizers are represented by hydrophilic alkoxy alkyl ammonium salts.

It is also advantageous that the molar ratio of SiO ₂ and Li ₂ O in an aqueous solution of sodium silicate is in the range from 3.5 to 4.5.

The main advantage of the composition of the present invention is that it contains lithium liquid glass, which prevents virtually all delayed reactions in concrete. It prevents reaction between alkalis and silica, carbonation and sulfation, as well as biological corrosion and fresh water leaching. At the same time, after hardening, it strengthens the material and, thanks to its low viscosity, penetrates into concrete joints and prevents water from entering. At the same time, it allows steam to pass through and ensure the evaporation of remaining water in the concrete.

Examples of embodiments of the invention.

Example 1.

The composition for waterproof strengthening treatment of concrete surfaces contains 1.3 wt.% bis-triethoxysilylpropyl tetrasulfide, 97.8 wt.% aqueous solution of lithium silicate and 0.9 wt.% liquid glass stabilizer.

Liquid glass stabilizers are represented by hydrophilic alkoxy alkyl ammonium salts in the form of an aqueous solution of KKI.I-tetrakis(2-hydroxypropyl)ethylenediamine 98%.

The molar ratio of SiO ₂ and Li ₂ O in an aqueous solution of lithium silicate is 3.5.

The resulting composition is poured onto the concrete surface.

Example 2.

The composition for waterproof strengthening treatment of concrete surfaces contains 1 wt.% bis(·/triethoxysilylpropyl)tetrasulfide, 98 wt.% aqueous solution of lithium silicate and 1 wt.% liquid glass stabilizer.

- 2 046264

Liquid glass stabilizers are represented by hydrophilic alkoxy alkyl ammonium salts in the form of an aqueous solution of CMI,I-tetrakis(2-hydroxypropyl)ethylenediamine 98%.

The molar ratio of SiO ₂ and Li ₂ O in an aqueous solution of lithium silicate is 4.5.

The resulting composition is poured onto the concrete surface.

Example 3.

The composition for waterproof strengthening treatment of concrete surfaces contains 10 wt.% 6uc(ytriethoxysilylpropyl) tetrasulfide, 89.9 wt.% aqueous solution of lithium silicate and 0.1 wt.% liquid glass stabilizer.

Liquid glass stabilizers are represented by hydrophilic alkoxy alkyl ammonium salts in the form of an aqueous solution of CMI.I-tetrakis(2-hydroxypropyl)ethylenediamine 98%.

The molar ratio of SiO ₂ and Li ₂ O in an aqueous solution of lithium silicate is 4.03.

The resulting composition is poured onto the concrete surface.

Industrial Application

The surface strengthening composition can be partially used for water-resistant treatment of concrete surfaces, as well as for the treatment of any surfaces, in particular building materials containing calcium.

Claims (2)

CLAIM 1. Composition for waterproof strengthening treatment of concrete surfaces containing liquid glass, characterized in that it contains from 1 to 10 wt.% bis^-triethoxysilylpropyl) tetrasulfide, from 89.9 to 98 wt.% aqueous solution of lithium silicate and from 0 ,1 to 1 wt.% liquid glass stabilizer, which is hydrophilic alkoxylalkyl ammonium salts. 2. The composition according to claim 1, characterized in that the aqueous solution of lithium silicate contains SiO ₂ and Li ₂ O in a molar ratio in the range from 3.5 to 4.5.