RU2447037C1 - Dry plaster mixture for finishing building faces - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to construction, particularly production of dry plaster mixture for finishing building faces. The dry plaster mixture contains the following, wt %: portland cement M 400 28-37; carbonate-silica dust containing the following (%): CaCO₃ 55-60, MgCO₃ 22-25, SiO₂ 10-13, 10-15, quartz sand 48-62.

EFFECT: improved adhesion-cohesion properties, frost- and water-resistance of the dry plaster mixture for finishing building faces.

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Description

The invention relates to the field of construction, in particular to the production of dry plaster mix for finishing building facades.

Known dry plaster mixture, including hydrating components and inorganic fillers / SP 82-101-98 Preparation and use of building solutions / [1], which contains, wt.%: Lime dough - 10, white Portland cement M 400 - 7, marble sand - 70, marble flour - 13.

The disadvantage of this composition is the relatively low adhesive-cohesive indicators, as well as low frost resistance and water resistance (fragility) of the facade composition.

Known dry plaster mixture, including hydrating components and inorganic fillers / SP 82-101-98 Preparation and use of building solutions / [1], which contains, wt.%: Lime dough - 10, Portland cement M 400-20, yellow mountain sand - 15, marble sand - 40, marble flour - 10, ocher - 4.5, mummy - 0.5.

The disadvantage of this composition is the relatively low adhesive-cohesive indicators, as well as low frost resistance and water resistance (fragility) of the facade composition.

Known dry plaster mixture, including hydrating components and inorganic fillers / SP 82-101-98 Preparation and use of building solutions / [1], which contains, wt.%: Lime dough - 20, Portland cement gray M 400-5, quartz sand - 74, manganese peroxide - 1. Accepted as a prototype.

The disadvantage of this composition is the relatively low adhesive-cohesive indicators, as well as low frost resistance and water resistance (fragility) of the facade composition.

The essence of the invention is to increase the durability of the plaster for the decoration of building facades.

The technical result of the invention is to increase the adhesion-cohesive indicators, frost resistance and water resistance of the stucco mixture for decoration of building facades.

The specified technical result is achieved by the fact that in the well-known stucco dry mixture for finishing building facades, including Portland cement gray M 400 and quartz sand, industrial waste of the asphalt concrete plant is additionally added - carbonate-siliceous dust containing compounds whose possible fluctuations are in the range (%) : CaCO ₃ - 55-60%, MgCO ₃ - 22-25%, SiO ₂ - 10-13%, with the following ratio of components, wt.%:

Portland cement gray M 400 28-37 carbonate silica dust 10-15 quartz sand 48-62

The use of carbonate-siliceous dust allows to achieve a high degree of adhesion of mineral particles to the surface. The difference from the known fillers obtained by mechanical grinding of marble, dolomite flour is a high chemisorption ability, which is explained by the conditions for the formation of carbonate-siliceous dust and, accordingly, chemical activity with respect to the components of cement clinker, which underlies the increase in adhesion. construction industry S.F.Korenkova, T.V. Sheina; Samarsk. state arch-build. un-t - Samara, 2004. - 203 p ./ [2]. The light color of carbonate-silica dust allows you to replace known fillers, while maintaining the possibility of color tinting of the plaster mixture.

Physicochemical processes during hardening of gray Portland cement M 400 and carbonate-siliceous dust allow synergistically enhance the useful properties of the components (adhesive strength increases 1.6 times, frost resistance increases 2.3 times, water resistance increases by 32%). The result of the chemical interaction of carbonate-siliceous dust with aluminates of cement clinker is the formation of a new crystalline compound of the fibrous structure - calcium hydrocarbon aluminate (3CaO · Al ₂ O ₃ · CaCO ₃ · 11H ₂ O), which creates an additional increase in frost resistance, water resistance and adhesive ability of the facade plaster.

Information confirming the possibility of carrying out the invention.

For the preparation of dry plaster mixture for the decoration of building facades used: quartz sand; gray Portland cement M 400; carbonate-silica dust with a particle size of 60-90 nm. The dispersion of carbonate-silica dust was studied using the small angle neutron scattering method (SANS) at the B.P. Konstantinov Petersburg Institute of Nuclear Physics / Research of nanodispersed modifiers of concrete properties by the small angle neutron scattering method / AMGuryanov, S.F. Korenkova, V.T. .Lebedev, V.M. Lebedev // - X-ray, synchrotron radiation, neutrons, and electrons for the study of nanosystems and materials: Materials of the 8th international conference. - M.: IR RAS-RSC KI, 2009. - P.317 / [3]. The proportions of the stucco dry mixture for the decoration of building facades are as follows: carbonate-silica dust in an amount of 10 to 15% was injected into the cement slurry, then quartz sand was added and control samples were made to determine the frost and water resistance of the coating according to standard methods / GOST 5802-86 Building solutions . Test methods / [4].

The compositions of the dry plaster mixes for finishing facades are given in table 1.

After preparing the facade stucco mixture, control samples were made to determine the adhesive strength according to the standard method / GOST 28089-89 Wall structures / [5].

The properties of facade plasters are given in table 2.

Table 1 Dry plaster mixes for facades Name of components The content of components,% by weight Composition No. 1 Composition No. 2 Composition No. 3 Composition No. 4 Portland cement gray M 400 28 32 36 37 Silica carbonate dust 10 12 13 fifteen Quartz sand 62 56 51 48

Carbonate-siliceous dust used in the compositions shown in table 1 contains active compounds (wt.%): CaCO ₃ 59, MgCO ₃ 24, SiO ₂ 13 and inactive impurities that do not affect the final result, Fe ₂ O ₃ 3, SO ₃ 1.

table 2 Properties of facade plasters Composition number Adhesion, kg / cm ² Frost resistance, number of cycles Softening coefficient one 5.1 70 0.91 2 5.7 80 0.91 3 6.2 one hundred 0.90 four 6.8 115 0.90 Prototype 4.1 fifty 0.82

In accordance with the principles of the multistructural theory of building composites, carbonate-siliceous dust can be considered as a nanofiller with its physical and chemical properties, which, as part of multilevel composite materials, will actively participate in processes at the interface of individual phases and components, forming various chemical composition and type of bonds and the structure of the phase, affecting the structure and properties of the formed facade building materials, thereby increasing durability (adhesion, water- and frost resistance) coatings. The light color of carbonate-silica dust allows you to replace known fillers, while maintaining the possibility of color tinting of the plaster mixture. The use of the claimed invention in the production of dry plaster mix for finishing building facades allows you to dispose of a common industrial nano-waste - carbonate-siliceous dust from an asphalt plant, which helps to protect the environment.

INFORMATION SOURCES

1. SP 82-101-98 Preparation and use of construction solutions.

2. Korenkova S.F. Fundamentals and concept of utilization of chemical sludge from industrial waste in the construction industry / Korenkova S.F., Sheina T.V .; Samarsk. state arch-build. un-t - Samara, 2004 .-- 208 p.

3. The study of nanodispersed modifiers of concrete properties by the method of small-angle neutron scattering / AM Guryanov, S. F. Korenkova, V. T. Lebedev, V. M. Lebedev // - X-ray, synchrotron radiation, neutrons and electrons for the study of nanosystems and materials: Materials 8th international conference. - M.: IR RAS-RSCI. 2009. - S. 317.

4. GOST 5802-86 Building solutions. Test methods.

5. GOST 28089-89 Wall structures.

Claims (1)

Dry plaster mixture for decorating building facades, including Portland cement gray M 400 and quartz sand, characterized in that it additionally contains a waste from the asphalt concrete plant - carbonate-siliceous dust containing compounds, the possible fluctuations of which are in the range (%): CaCO ₃ 55- 60, MgCO ₃ 22-25, SiO ₂ 10-13, with the following ratio of components, wt.%:
Portland cement gray M 400 28-37 carbonate silica dust 10-15 quartz sand 48-62