RU2723518C2 - Rheological additive for fire-extinguishing powder formulations - Google Patents

Abstract

FIELD: chemistry.SUBSTANCE: invention relates to composition of rheological additive. Rheological additive for fire-extinguishing powder compositions includes spherical particles of silicon dioxide with size of 200 nm together with particles of silicon dioxide with size of 7 nm at ratio of components 80/20 wt. %, hydrophobisated polymethylhydride siloxane in medium of organic solvent with ratio of components of silicon oxide/hydrophobisator - 95/5 wt. %.EFFECT: higher fluidity of fire-extinguishing powder composition, excluding caking of components, imparting hydrophobic properties.1 cl, 2 dwg, 1 tbl, 1 ex

Description

The present invention relates to a rheological composition for extinguishing powder compositions based on ammonium sulfate, ammonium phosphate and ammonium polyphosphate. A rheological additive is a necessary component in the manufacture of fire extinguishing powder compositions, it provides increased fluidity, prevents caking of dispersed components during storage and gives the composition hydrophobic properties.

A known fire extinguishing powder composition (RF Patent No. 2228777), where as a dispersed hydrophobic additive contains silicon dioxide with a specific surface area of at least 100 m ² / g in an amount of 0.5-3.0 wt. %, and as an additive to increase fluidity - ion-lattice mineral with complex anionic groups with a density of at least 2.8 g / cm ³ gross formula (1):

or phosphate rock with a density of at least 2.8 g / cm ³ in an amount of 6.0-23.0 wt. %, an organosilicon liquid (methyl hydride siloxane with an active hydrogen content of 1.6-1.7 wt.%) or a mixture of methyl hydride siloxane as a base modifier with a curing catalyst - aminoethylaminopropyltrimethoxysilane in a ratio of base: curing catalyst (5-70): 1 is used as a hydrophobizing agent. Silica is quartz sand and / or white soot and / or perlite and / or aerosil and / or precipitated silica filler with a specific surface area of at least 100 m ² / g.

The disadvantage of this invention is the complex component composition of the additive, the need to use a separate additive to increase fluidity and impart hydrophobicity, as a result, the total volume of the additive reaches 15 wt. %, thereby significantly reducing the proportion of active fire extinguishing component.

A known composition for extinguishing fires (RF Patent 2236880) where alkali earth metal carbonates and / or a mixture thereof with graphite and / or nepheline concentrate or a mixture of graphite with nepheline concentrate are used as an additive to increase fluidity, and contains hydrophobic dioxide as an anti-caking additive silicon in the ratio, wt. %: anti-caking additive 1.5-4.5; additive for fluidity of 5.0-15.0; extinguishing agent up to 100.

The disadvantage of this composition is the low content of the active component, potassium chloride (82-88 wt.%), A separate additive is used to increase fluidity (5.0-15.0 wt.%) And impart hydrophobicity (1.5-4.5 wt. %).

The closest in technical essence and the achieved result analogue taken as a prototype is a method for producing a fire extinguishing powder composition (RF Patent No. 2523468), in which silicon dioxide (BS-120) treated with polyorganohydride siloxane is used as a dispersing rheological additive, during which grinding is performed ammonium phosphate in the presence of silicon dioxide (white carbon black BS-120) and polyorganohydride siloxane (GKZh 136-41) with a mass ratio of 90-97, 2.5-5, 0.5-5%.

The disadvantage of this method is the high consumption of water-repellent polyorganohydridosiloxane (GKZh 136-41) up to 2.5 g per 100 g of the finished product. Silicon dioxide grade white carbon black BS-120 contained in the additive is a stable agglomerates of nanosized particles of silicon oxide of irregular shape, up to several micrometers in size. The shape of the agglomerates of white soot particles impedes the efficient flow of the powder composition, and also does not ensure uniform distribution of the additive on the surface of the extinguishing components.

The objective of the present invention is to provide a highly effective rheological additive that provides improved mobility and hydrophobicity of extinguishing powder compositions with a high proportion of extinguishing component (about 95%).

To solve this problem, it is proposed to use silicon dioxide in the form of spherical monodisperse particles with a size of 200 nm (Fig. 1) obtained by heterogeneous synthesis, together with silicon dioxide grade Aerosil 380 with an average particle size of 7 nm, treated with a hydrophobizing compound polyorganohydride siloxane in an organic solvent.

Creating a rheological additive includes carrying out heterogeneous synthesis of spherical particles, treating the particles in an organic solvent medium with the addition of a hydroorganizer of polyorganosiloxane, followed by evaporation of the solvent, drying and mixing the components in a knife mill.

The aim of the proposed method is to increase the rheological characteristics of fire extinguishing powder compositions based on various compounds, such as ammonium sulfate, ammonium phosphate and ammonium polyphosphate while maintaining a high proportion of the extinguishing component (about 95%).

The technical result is achieved due to the spherical shape of monodispersed particles of silicon dioxide with a size of 200 nm as part of a rheological additive, the spherical shape of the particles provides high mobility to the powder composition, in contrast to the used silicon dioxide grade BS-120, which is a nanosized particles in the form of agglomerates up to several micrometers in size irregular shape. Also, due to the introduction of dispersed silicon dioxide with an average size of 7 nm of Aerosil 380 grade, the interaction between the dispersed components of the rheological additive is further reduced, and the surface modification of the dispersed components in an organic solvent medium ensures the uniform formation of hydrophobic groups on their surface.

The use of the claimed composition of the rheological additive in comparison with the prototype allows to obtain higher-flowing fire extinguishing powder compositions based on various chemical compounds used, including in automatic fire extinguishing systems, where it is necessary to ensure the minimum response time and instantaneous release of the powder composition.

When comparing fire extinguishing powder compositions based on ammonium phosphate, the specific flow energy of a composition containing a rheological additive according to the claims with spherical silicon dioxide is reduced by 22.5% compared with a composition containing hydrophobized white carbon black as a rheological additive. Due to the hydrophobization of the initial dispersed components of the rheological additive, the water repellency of the finished fire extinguishing composition is maintained for more than 300 minutes. For testing, ready-made rheological additives were introduced into a fire extinguishing powder composition based on two-fraction ammonium phosphate with particle sizes of 200-315 μm (I) and 0-50 μm (II), where the average particle size was 280 μm and 15 μm, respectively. The mass ratio of fractions was I / II = 1.5, the ratio of ammonium phosphate and rheological additives 95/5 wt. % The mixing of the two components was carried out in a drum mixer for 1 hour.

The measurements were carried out using a Freeman Technology FT4 powder rheometer (England). The experimental results are shown in the table.

Also, due to the lesser tendency to agglomerate the components of the rheological additive, a uniform distribution of particles on the surface of the extinguishing composition is ensured. In FIG. Figure 2 shows a photograph of the distribution of spherical particles of silicon dioxide over the surface of ammonium phosphate.

The proposed composition of the rheological additives can be illustrated by the following manufacturing example:

1. The synthesis of spherical dispersed particles of silicon dioxide:

Heterogeneous synthesis of monodisperse components of silicon dioxide was carried out by hydrolysis of tetraethoxysilane Si (OC ₂ H ₅ ) ₄ in an aqueous-alcoholic medium according to the Stober method. The main components of the synthesis of silicon dioxide were taken in the following molar ratios: 1NH ₃ : 20H ₂ O: 11C ₂ H ₅ OH: 0,14Si (OC ₂ H ₅ ) ₄ . The temperature of the reaction medium was 25 ° C. At the first stage, an aqueous solution of ethyl alcohol of a given concentration was prepared. Then, the resulting solution was saturated with ammonia. The volume of the solution used in the experiments was 200 ml. The reaction mixture was mixed with a magnetic stir bar and tetraethoxysilane was gradually added to the reaction mixture. The particle diameter was measured using a HITACHI S-4700 scanning electron microscope.

2. Hydrophobization and mixing of components:

- dispersed components of silicon oxide with a size of 200 nm and 7 nm were pre-dried at 150 ° C for 30 minutes.

- prepared a solution of a hydrophobizing agent (polymethylhydrosiloxane) in hexane. The amount of water repellent was calculated from the mass of the dispersed component in an amount of 5 wt. % The amount of organic solvent in the solution was 200 wt. % by weight of the processed dispersed components;

- dispersed silica was gradually added to the solution with constant stirring. The process of mixing the components was carried out for 5 minutes to evenly distribute the water repellent on the surface of the particles;

- the process of interaction of the hydrophobizator molecules with the surface and the formation of hydrophobic groups on the surface of the dispersed components occurred during the removal of the solvent by heating. Solvent vapors were recovered using a reflux condenser and the solvent was reused.

- drying of the dispersed components was carried out in an air thermostat at a temperature of 150 ° C for 30 minutes. As a result of processing, the surface of the particles acquired stable hydrophobic properties.

- the mixing of the components of the two fractions of 200 nm and 7 nm was carried out in a knife mill for 10 minutes at a ratio of 80/20 wt. %

Claims (1)

A rheological additive for fire extinguishing powder compositions, comprising silica particles hydrophobized with polymethylhydridesiloxane, characterized in that as silica contains spherical particles of 200 nm in size together with silicon dioxide particles of 7 nm in a ratio of 80/20 wt. %, gidrofobizirovannye in an environment of an organic solvent at a ratio of components of silicon oxide / water repellent - 95/5 wt. %

Images