RU2693978C1 - Dry plaster mixture for creating a sound-absorbing coating - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to production of construction materials. Dry plaster mixture for creating a sound-absorbing coating contains, wt%: cork grains 5.0–39.9; hydrated lime 25.0–18.0; diatomite burnt crumbs 5–0.8; cement binder 25.8–15.0; fly ash 13.0–10.0; urea (carbamide NH₂CO) 0.1–1 mm 5.0–7.0; diatomite 10–16.2; fibrous fiber 6–12 mm 0.1–1.0; modified ether of starch (corn or potato) 1.0–0.2; modified cellulose ether (methyl hydroxyethyl cellulose MHEC, methyl hydroxypropyl cellulose MGPC, ethyl hydroxyethyl cellulose EHEC) with viscosity of 2 % solution 50,000–70,000 MPa⋅s by Brookfield 1.0–0.2; dispersant 0.1 in excess of 100; plasticiser 0.1 is over 100.

EFFECT: creation of acoustic sound-absorbing coating of internal walls, ceilings and other elements of buildings, possibility to form vertical layer applied on base with thickness from 20 to 50 mm per one application and layer to 20 mm, applied on ceiling.

1 cl, 2 tbl

Description

The invention relates to the production of building materials, in particular to the preparation of dry mixes, and can be used in construction - monolithic housing construction to create sound-absorbing coatings for interior walls, ceilings and other building elements. A dry plaster mix filled with water to create a sound-absorbing coating can be applied directly to the concrete, or to another bearing material, also on interroom and interroom partitions, while the stability of the solution allows forming a layer on a vertical base with a thickness of 20 mm to 50 mm in one application and a layer thickness up to 20 mm. applied to the ceiling.

The closest technical solution is a finishing mortar containing no cement, including cotton fibers and expanded perlite with a weight ratio of perlite to cotton of 10-250%, preferably 80%. Technical result: increased sound-absorbing ability, reducing cracking. RU 2189957 С2 СВВ 41/45. The disadvantages are: that the mechanical leveling of the solution leads to partial destruction and an increase in the specific surface of the expanded perlite. This contributes to the unstable value of the practical sound absorption index, as well as the solution has a low adhesion and high slipping to the surface being treated with a thickness of the applied layer of more than 3 mm, low compressive strength.

The technical task of this invention is the preparation and application of the solution in a mechanized manner under pressure by plastering the surface, creating an acoustic sound-absorbing coating for the interior walls, ceilings and other elements of buildings. The stability of the solution allows you to form a layer on a vertical base with a thickness of 3 mm to 50 mm in one application and a layer up to 20 mm thick. applied to the ceiling

The technical problem and industrial application of this invention are provided by the fact that the dry mortar to create a sound-absorbing coating contains, by weight. %: cork crumb 5.0-39.9; hydrated lime 25.0-18.8; diatomite crumb burnt 5-0.8; cement binder 25.8-15.0; fly ash 13.0-10.0; urea (carbamide (NH2CO) particle size 0.1 mm – 1 mm 5.0–7.0; diatomite 10–16.2; fiberglass 6 mm – 12 mm 0.1–1.0; modified starch ester (corn, or potato) 1.0–0.2; modified cellulose ether (MHEC, MHPC, EHEC) with a viscosity of 2% solution of 50,000–70000 mPa.s according to Brookfield 1.0–0.2; dispersant 0.1 over 100: plasticizer 0.1 over 100. The technical result is the preparation and application of the solution in a mechanized manner under pressure by plastering the surface, creating an acoustic sound-absorbing coating for the interior walls, ceilings and other elements. At the same time, the stability of the solution allows the formation of a vertical layer applied to the substrate with a thickness of 20 mm to 50 mm in one application and a layer of up to 20 mm applied to the ceiling.

And in quality:

cement binder use white or gray cement brand strength of at least 400 kg / cm ² , such as M400D0. M500D0. CRM T 52.5 N and beta concomitant in its composition in the preparation of pozzolanic additives. Urea (carbamide (NH2) CO) fraction of 0.1 mm - 1 mm is added to the solution based on diatomite rocks with a high content of dust-like particles, to increase the strength of the solution in compression and bending.

The cork crumb is a granulated cork with a fraction in the range from 0.2 to 3 mm. The material is produced by the density (50-150 kg / m ^3. ) By grinding or crushing the prepared bark of corkwood or ordinary oak.

Diatomite calcined crumb is a mineral insulating aggregate with a uniform particle size distribution, obtained as a result of granulation, roasting and fractionation of natural diatomite. Used as a heat-insulating filling and light fire-resistant aggregate in the manufacture of mixtures for special purposes.

Physicochemical properties

Diatomite sedimentary rock, consisting mainly of residues of diatoms. Usually loose or slightly cemented, light gray or yellowish in color. The boundaries of rock size are in the range from 3 μm to 1 mm with a content of from 80 to 90% silica, from 2 to 4% alumina (due mainly to clay minerals) and from 0.5 to 2% iron oxide.

Fiberglass - polypropylene fibers, or fiberglass with a fiber length of 6 mm-12 mm.

Fly ash

waste resulting from the combustion of coal in the pulverized state and captured,

electrostatic precipitators or other devices. Used loose dispersed material with particles less than 0.3 mm.

Hydrated lime with an active CaO + MgO content of at least 60%.

Starches and their modified esters are used as a stabilizer. In particular, the modified starch esters of corn and potatoes.

Methylhydroxyethylcellulose, methylhydroxypropylcellulose, ethylcellulose, carboxymethylcellulose, hydroxymethylpropylcellulose with a viscosity of 2% solution of 50,000-100,000 mPa⋅ s according to Brookfield are used as cellulose ether.

Dry mortar to create a sound-absorbing coating is prepared by mixing the dry components of its composition in a conventional forced-action mixer.

Preparation of the solution based on dry construction mixture, to create a sound-absorbing coating, is carried out on a mixing mortar pump, designed for the continuous preparation of the solution from dry construction mixtures, transportation and application of the solution on the treated surface. For example M-tek duo-mix

Table 1 below shows examples for creating a sound-absorbing coating from the developed mixture of three compositions containing: cement binder, cork crumb, diatomite crumb calcined, hydrated lime, fiberglass, diatomite.

The tests were carried out in accordance with GOST 31376-2008, GOST 1377-2008, GOST 28013-98.

The sound absorption coefficients obtained as a result of the tests are given in Table 2. The tests were carried out according to GOST R 53376-2009.

Claims (2)

Dry plaster mixture to create a sound-absorbing coating, characterized in that it contains cork crumb, hydrated lime, calcined diatomite crumb, cement binder, fly ash, urea (urea NH ₂ CO), diatomite, fiber 6-12 mm, modified starch ether ( corn or potato), modified cellulose ether (methyl hydroxyethyl cellulose MGEC, methyl hydroxypropyl cellulose MGPC, ethyl hydroxyethyl cellulose EHEC) with a viscosity of a 2% solution of 50,000-70000 mPa⋅s according to Brocfield, dispersant and plasticizer in the following ratio, wt.%: baby cork 5.0-39.9 lime hydrate 18.8-25.0 diatomite crumb baked  0.8-5.0 cement binder 15.0-25.8 fly ash 10.0-13.0 urea 0.1-1 mm 5.0-7.0 diatomite 10.0-16.2 fiber 6-12 mm 0.1-1.0 modified starch ester 0.2-1.0 (corn or potato) modified cellulose ether (MHEC, MGPC, EHEC) 0.2-1.0 with a viscosity of a 2% solution of 50000-70000 mPa⋅s according to Brookfield dispersant 0.1 over 100 plasticizer 0.1 over 100