RU2674780C1 - Raw mixture for a protective coating - Google Patents

Abstract

FIELD: construction materials.

SUBSTANCE: invention relates to construction materials and can be used for protection of various surfaces. Raw mixture for a protective coating contains, wt %: portland cement 39.18–41.20; fraction of sand 0.30 mm 32.39–32.79; micro calcite CaCO₃ with a particle size of 100 microns 7.80–8.20; bentonite clay with a specific surface of 100,000 m²/kg 0.72–0.82; a complex additive 0.86–0.98; water 17.03–18.03. Complex additive contains, wt %: a redispersible powder based on styrene-acrylate copolymer Acronal 430 47.0–52.0; iron hydroxide sol with a density of ρ = 1.107 g/cm³ and pH = 9 48.0–53.0.

EFFECT: technical result is a decrease in abrasion (by 38 %) and a decrease in shrinkage of the protective coating (by 43 %).

1 cl, 1 ex, 1 tbl

Description

The invention relates to the field of building materials and can be used to protect various surfaces.

Known raw mix consisting of the following components, wt. %: cement 36.0-40.0; sand 39.0-49.0; sodium nitrate 0.9-1.8; sodium carbonate 2.0-3.2; sodium sulfate 2.5-3.6; calcium chloride 0.05-0.15; calcium carbide 0.75-1.15; calcium hydroxide 0.8-1.0; the rest is water. (RU No. 2072335, С04В 28/00, 1997). The disadvantage of this technical solution is increased abrasion and increased shrinkage.

Known raw mix used as a protective coating, containing Portland cement clinker 62-68%, sodium nitrate 3-10%, potassium chromate 2-5%, the rest is water (RU No. 2017704, С04В 41/62, 1994). The disadvantage of this technical solution is increased abrasion and increased shrinkage.

Closest to the technical nature of the claimed raw material mixture for the protective coating selected for the prototype is a raw material mixture consisting of the following components, wt. %: Portland cement - 34.48-36.48; sand fraction 0.315 mm - 43.72-44.82; complex additive - 6.4-6.9; water - 13.4-13.8. The complex additive consists of the following components, wt. %: white carbon black BS50 - 93.7-94.3; polycarboxylate polymer - 5.7-6.3 (RU No. 2585217, С04В 28/04; С04В 41/50; С04В 111/20, 2015). The disadvantage of this technical solution is the increased abrasion and increased shrinkage of the protective coating.

The task is achieved in that the raw material mixture for the protective coating contains Portland cement, sand fraction 0.30 mm, a complex additive consisting of a redispersible powder based on a styrene-acrylate copolymer (Acronal 430) and an iron hydroxide sol with a density ρ = 1.107 g / cm ³ , pH = 9 in the following ratio of components, wt.%:

 copolymer-based redispersible powder styrene acrylate (Acronal 430) 47.0-52.0  iron hydroxide sol 48.0-53.0

additionally contains microcalcite (CaCO ₃ ) with a particle size of 100 μm and bentonite clay with a specific surface of 10,000 m ² / kg in the following ratio of components of the raw material mixture, wt.%:

Portland cement 39.18-41.20 specified sand 32.39-32.79 specified microcalcite 7.80-8.20 indicated clay 0.72-0.82 specified complex additive 0.86-0.98 water 17.03-18.03

The use of a complex additive based on a universal redispersible powder, consisting of a styrene-acrylate copolymer (Acronal 430), modified with an iron hydroxide sol, increases the hydration activity of the raw material mixture used as a protective coating, providing the formation of an increased amount of tobermorite-like hydrosilicates. The combined presence of this additive and bentonite clay, which includes reactive colloidal particles of aluminum hydroxide and silicon dioxide, provides the formation of complex hydrate compounds represented by hydrogranates of variable composition 3СаО⋅Al ₂ O ₃ ⋅xSiO ₂ ⋅ (6-2х) ⋅Н ₂ O and six-water calcium hydroferrite 3СаО⋅Fe ₂ O ₃ ⋅ 6Н ₂ О, which has an increased hardness, which is equal to 4 on the Mohs scale. All of the above, namely the formation of an increased amount of complex hydrated compounds, promotes t compaction of the structure and hardness of the generated protective coating, resulting in a decrease in abrasion and a decrease in shrinkage of the protective coating.

At the filing date, according to the authors and the applicant, the claimed raw material mixture for the protective coating is not known, and this technical solution has a world novelty.

The claimed combination of essential features exhibits a new property in the presence of the indicated complex additive consisting of a redispersible powder based on a styrene-acrylate copolymer (Acronal 430) and an iron dioxide sol, which provides an over-total effect consisting in increasing the hydration activity of the raw material mixture for a protective coating, and also the joint presence of the specified additives and bentonite clay, which includes reactive colloidal particles of aluminum hydroxide and silicon dioxide, heats the formation of complex hydrated compounds with increased hardness, such as hydrogranates of variable composition 3CaO⋅Al ₂ O ₃ ⋅xSiO ₂ ⋅ (6-2x) ⋅H ₂ O and six-water calcium hydroferrite 3CaO⋅Fe ₂ O ₃ ⋅ 6Н ₂ O. In addition Moreover, the iron hydroxide gel, which is part of the specified additive, eventually passes into the gel, which hardens, forming a solid iron hydroxide Fe ₂ O ₃ ⋅nH ₂ O. The result of the action of the specified additive in the composition of the proposed raw material mixture is the reduction of abrasion and shrinkage of the protective coverings.

The mixture, including Portland cement, sand, the proposed additive and bentonite clay, provides a protective coating, characterized by reduced abrasion (38%) and reduced shrinkage of the protective coating (43%) compared with the prototype.

According to the applicant and the authors, it is precisely another property of the totality of essential features that is not equal to the known properties of the distinguishing features that allows recognizing this totality in comparison with the new ones known in science and technology, and the claimed invention corresponds to the eligibility criterion of “inventive step”.

The claimed invention is industrially applicable and can be used for the manufacture of building mixtures used as a protective coating, for example, for the protection of concrete pavements.

An example of a specific implementation.

1. Preparation of the proposed complex additives

1.1. A redispersible powder based on a styrene-acrylate copolymer (Acronal 430) is dosed;

1.2. Dose a sol of iron hydroxide with a density of ρ = 1.107 g / cm ³ and pH = 9;

1.3. Dosage components are mixed (p. 1.1 and p. 1.2) until a homogeneous suspension is obtained;

2. Preparation of the raw material mixture for a protective coating: 2.1. Portland cement ПЦ500 DO is dosed;

2.2. Dosing sand fraction of 0.30 mm;

2.3. Microcalcite (CaCO ₃ ) with a particle size of 100 microns is dosed;

2.4. Dose bentonite clay with a specific surface area of 100,000 m ² / kg;

2.5. Dose the additive prepared according to claim 1;

2.6. Dispense water

2.7. The metered components are mixed using an electric drill (according to clause 2.1, clause 2.2, clause 2.3, clause 2.4, clause 2.5, clause 2.6) to obtain a homogeneous, without lumps, mobile mixture, which is used as intended as a protective coatings and from which the samples are made - cubes with dimensions of 7.07 × 7.07 × 7.07 cm to determine the abrasion according to GOST 13087-81

“Concrete. Methods for determining abrasion. " The hardening of the prepared samples is carried out under normal conditions (at a temperature of t = 20 ± 2 ° C and humidity W≥95%) for 28 days. To determine shrinkage, beam samples of 4 × 4 × 16 cm in size are made. The shrinkage of the protective coating is determined according to GOST 24544-81 “Concretes. Methods for the determination of shrinkage and creep strains. " Shrinkage is determined within 120 days.

The results are presented in the table.

Claims (4)

A raw material mixture for a protective coating, consisting of Portland cement, sand, a complex additive and water, characterized in that it contains sand of 0.30 mm fraction, a complex additive consisting of a redispersible powder based on a styrene-acrylate copolymer (Acronal 430) and an iron hydroxide sol with a density of ρ = 1.107 g / cm ³ and pH = 9, with the following ratio of components, wt.%: copolymer-based redispersible powder styrene acrylate (Acronal 430) 47.0-52.0 sol of iron hydroxide with a density ρ = 1.107 g / cm ³ and pH = 9 48.0-53.0 additionally contains microcalcite (CaCO ₃ ) with a particle size of 100 μm and bentonite clay with a specific surface of 100,000 m ² / kg in the following ratio of components of the raw material mixture, wt.%: Portland cement 39.18-41.20 specified sand 32.39-32.79 specified microcalcite 7.80-8.20 indicated clay 0.72-0.82 specified complex additive 0.86-0.98 water 17.03-18.03