RU2776998C1 - Dry construction flame retardant mix - Google Patents

Abstract

FIELD: construction materials.

SUBSTANCE: invention relates to the field of the construction materials industry, in particular to dry construction mixes for the preparation of building plaster solutions used for fire protection of building structures both inside and outside premises. The fire-retardant dry construction mix includes gypsum cement binder containing semi-aqueous construction gypsum, Portland cement with a mineral additive, a mixture of light fillers: expanded perlite and vermiculite, and mineral fiber. As a mineral additive, gypsum cement binder contains dolomite, a mixture of light expanded fillers contains perlite 50 wt. % and vermiculite 50 wt. % and basalt fiber with a length of up to 6 mm is used as a mineral fiber and additionally the dry mix contains an active mineral additive: condensed silica of the MKU-85 brand; surface-active additive Esapon 1214 and setting retarder: citric acid, with a ratio of components, wt. %: the specified binder 60-80, a mixture of expanded light fillers 15-30, mineral fiber: basalt fiber up to 6 mm in size 1.5-1.7, MCU-85 2.0-4.0 , Esapon 1214 0.03-0.05, citric acid 1.3-4.5.

EFFECT: increase in water resistance, fire-retardant efficiency, crack resistance, improvement of rheological properties of the mortar mix, as well as expansion of the line of dry building mixes based on gypsum cement-pozzolan binder.

1 cl, 2 tbl

Description

The invention relates to the field of building materials industry, in particular to dry building mixes for the preparation of building plaster mortars used for fire protection of wooden, fiber-reinforced concrete and reinforced cement building structures both inside and outside the premises.

Known plaster composition based on building gypsum, expanded vermiculite, sand (patent RU 2203236, publ. 27.04.2003). The disadvantage of this mixture is the presence of quartz sand in the composition. Quartz - the main component of natural sand, passes at t=573°C from β-modification to α with an increase in volume. As a result of high-temperature effects during a fire, the plaster coating is covered with cracks, and the fire continues to spread.

Also known flame retardant composition (patent RU 2073662, publ. 20.02.1997), containing in its composition: Portland cement, unfired vermiculite, expanded vermiculite, fusible clay, fiberglass and complex additives. The disadvantage of this mixture is the presence of Portland cement as a binder, which contains Ca(OH) ₂ , which decomposes at temperatures above 550°C according to the following reaction:

Accordingly, when interacting with moist air or when extinguishing a fire with water, a reverse reaction will occur, while the hydration product increases in volume by 2 times, and therefore cracks form in the body of the material, which contribute to the further spread of the flame.

Known mortar mixture, which contains a gypsum binder and expanded vermiculite (patent RU 2230715 C2, publ. 20.06.2004 (Central Research Institute of Geology)).

The disadvantage of the mixture is a decrease in water resistance, the absence of reinforcing and functional additives to improve production technology and consumer properties, i.e. workability, water-holding capacity, regulation of setting time.

A mortar mixture is known (patent RU 2541989 C1, publ. 20.02.2015) for the manufacture of a fire-retardant coating based on gypsum binder, expanded vermiculite and expanded perlite with functional additives, such as: cellulose ethers, redispersible polymer powder, air-entraining additive, glass fiber and thickener. The disadvantage of this invention is the reduced water resistance of the material in question. This is due to the fact that the gypsum stone formed during the reaction of building gypsum is soluble in water:

The closest in technical essence is a dry building fire-retardant mixture containing a gypsum-cement-pozzolanic binder, fiber, a mixture of porous aggregates - expanded perlite and vermiculite (Zubarev M.S. Study of fire-retardant waterproof SSS on a gypsum-cement-pozzolanic binder: Final qualifying work / M.S. Zubarev - [B.i.], 2017. - 107 pp. - URL: https://rucont.ru/efd/614817) (D1).

The problem to be solved by the invention is to increase the coefficient of water resistance, crack resistance, increase the strength in compression and bending. In addition, the improvement of the rheological properties of the mortar mixture due to the introduction of effective mineral and modifying additives, as well as the expansion of the range of dry building mixtures based on gypsum-cement-pozzolanic binder using local raw material (industrial by-product) - microsilica, which is formed during the smelting of ferrosilicon and its alloys and has a high content of amorphous silica.

Hydromicas-vermiculites are among the most complex minerals both in structure and chemical composition.

A characteristic feature of expanded vermiculite is the elasticity of its grains. To the maximum extent, elastic deformations appear after compaction at a stress of 0.15 kPa. As a result, the vermiculite particles perceive stresses, and the fracture toughness is increased. The larger the vermiculite grains, the better the material perceives stresses; the volume of large pores also increases with an increase in the particle size. The high porosity of expanded vermiculite determines its good heat-insulating ability.

Expanded vermiculite and perlite have a high open macro- and microporosity, a developed surface of particles, therefore, determining its sorption capacity is of practical importance, since an excessive increase in the moisture content of materials in a structure leads to a sharp decrease in their thermal performance. The water absorption of expanded perlite is less than that of vermiculite, which is associated with the presence of a vitreous phase and lower open porosity. The spherical shape of perlite grains provides greater plasticity of mixtures. The advantage of vermiculite grains, which has a scaly structure, is its elasticity, which ensures the crack resistance of mortars and concretes with its use.

The technical result consists in increasing water resistance, fire-retardant efficiency, crack resistance, improving the rheological properties of the mortar mixture, as well as expanding the range of dry building mixtures based on gypsum-cement-pozzolanic binder (GCPV).

The essence of the invention lies in the fact that a fire-retardant dry building mixture, including a gypsum cement binder containing semi-aqueous building gypsum, Portland cement with a mineral additive, a mixture of light aggregates - expanded perlite and vermiculite, and mineral fiber, characterized in that, as a mineral additive, the gypsum cement binder contains dolomite, a mixture of light expanded aggregates contains perlite 50 wt.% and vermiculite 50 wt.%; as a mineral fiber, basalt fiber up to 6 mm long is used and, in addition, the dry mixture contains an active mineral additive - condensed microsilica of the MKU-85 brand; surface-active additive - Esapon 1214, which is sodium lauryl sulfate [3], and setting retarder - citric acid, which provides the highest strength at a minimum average density [1], with the following ratio of components, wt.%:

Specified binder 60-80 A mixture of expanded lightweight aggregates 15-30 Mineral fiber - basalt fiber up to 6 mm in size 1.5-1.7 MKU-85 2.0-4.0 Esapon 1214 0.03-0.05 Lemon acid 1.3-4.5

To test the functional properties of the proposed composition, 4 compositions were prepared: two based on GCV and two based on building gypsum. An experimental study of these compositions made it possible to determine changes in the water resistance coefficient depending on the binder. Table 1 shows that compositions based on the specified binder have a higher and sufficient coefficient of water resistance.

Next, high-temperature tests were carried out for the ability to withstand high temperatures up to 1100°C for 180 minutes in the Tulyachka-10P muffle furnace according to a temperature regime close to the standard regime of the VNIIPO furnace. The work was carried out on samples of 3 × 3 × 3 cm cubes. A total of 5 compositions were tested in the oven. Before testing, the samples were dried under normal conditions for 7 days [2].

Upon completion of high-temperature tests, the test samples were analyzed for the presence of cracks, deformations, and changes in volume. It should be noted that all 5 compositions withstood high-temperature tests. They have a smooth and solid surface, without cracks, as before the test.

It is also worth noting that in this study, the optimal composition of a dry building mix based on a mixed binder using expanded aggregate was determined. The main indicators were investigated, such as: compressive strength, average density, water resistance coefficient. The technical characteristics of the developed fire-retardant waterproof dry building mixture comply with the requirements of GOST 31377-2008 “Dry building plaster mixtures based on gypsum binder. Specifications".

The increase in water resistance of the composition of the proposed composition is explained by the presence of a hydraulic binder of Portland cement, which is formed during the reaction 3CaO⋅2SiO ₂ ⋅3H ₂ O.

The increase in temperature resistance of the compositions we recommend is explained by the presence of microsilica, which at temperatures of 900-1100 ° C binds calcium oxide, which is formed during the decomposition during a fire of Ca (OH) ₂ and constituting potassium Portland cement, thus a mullite-type silicification reaction occurs: CaO + SiO ₂ → 3CaO* _2SiO2 .

The fire hazard class KM0 is confirmed by the tests of the laboratory "Ministry of Emergency Situations-TEST-North-West".

Thus, the practical application of the developed fire-retardant dry building mixture will increase the fire resistance limits for the loss of bearing capacity and integrity of structures by an average of 24% compared to known domestic and foreign counterparts.

Bibliography

1. GOST 31377-2008 "Dry plaster mix on gypsum binder, specifications";

2. GOST R 53295-2009 “Fire protection means for steel structures. General requirements. Method for determining fire-retardant efficiency”;

3. Additives for dry building mixtures, Eurochem-1, edition 11, revised, Real Chemistry of the Future, 07.02.2016, p. 36.

Claims (2)

Fire-retardant dry building mixture, including a gypsum-cement binder containing semi-aqueous building gypsum, Portland cement with a mineral additive, a mixture of light aggregates - expanded perlite and vermiculite, and mineral fiber, characterized in that the gypsum-cement binder contains dolomite as a mineral additive, a mixture of light expanded aggregates contains perlite 50 wt.% and vermiculite 50 wt.%; as a mineral fiber, basalt fiber up to 6 mm long is used and, in addition, the dry mixture contains an active mineral additive - condensed microsilica of the MKU-85 brand; surface-active additive - Esapon 1214 and retarder - citric acid, in the following ratio, wt.%: Specified binder 60-80 A mixture of expanded lightweight aggregates 15-30 Mineral fiber - basalt fiber up to 6 mm in size 1.5-1.7 MKU-85 2.0-4.0 Esapon 1214 0.03-0.05 Lemon acid 1.3-4.5