RU2529227C1 - Liquid low-molecular siloxane rubber-based composition for coating fire-proof material - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: composition comprises liquid low-molecular siloxane rubber, ethylsilicate-40 or tetraethoxysilane as a curing agent, alkoxytitranium borate and vanadium pentoxide. Components are in the following ratio, pts.wt: liquid low-molecular siloxane rubber - 100, ethylsilicate-40 or tetraethoxysilane - 10-30, alkoxytitranium borate - 10-30, vanadium pentoxide - 10-20.

EFFECT: high water-resistance, wear-resistance and fire-resistance of the coating.

2 cl, 1 tbl

Description

The invention relates to the chemical industry, in particular to a composition based on liquid low molecular weight siloxane rubber for coating a fire-resistant protective material.

State of the art

Known curable compositions based on liquid low molecular weight siloxane rubbers SKTN of various grades containing a hardener (tetraethoxysilane, ethyl silicate-40, ethyl silicate-32), as well as catalysts, which are usually used as organotin compounds (ON Dolgov, M. G. Voronkov, MP Greenblatt. Organosilicon liquid rubbers and materials based on them. L .: Chemistry, 1975). These compositions are widely used in the electrical and radio engineering industries, in aeronautical engineering, in the automotive industry, in medicine, in the production of rolled textile materials with siloxane coating and other industries.

A common drawback of these compositions is the short duration of their stability at room temperature (5-15 minutes), since the composition becomes thicker due to structuring, which does not allow to organize the technological process for the production of rolled textile materials with a siloxane coating. In addition, these compositions have insufficient fire resistance, water resistance and physicomechanical properties of vulcanized coatings obtained on their basis.

A known composition for producing fire-resistant textile materials, including low molecular weight siloxane rubber, tetraethoxysilane or ethyl silicate-40 as a hardener and a titanium-containing compound (Russian patent No. 2265683, publ. 2005). It contains an ortho-titanic acid ester, tetraethoxy titanium, as a titanium-containing compound. tetrapropoxy titanium, tetraisopropoxy titanium or tetrabutoxy titanium. However, the duration of the stable state of the composition is small, the adhesion to synthetic fabrics is low, the resulting material is hard, and the fire resistance of the material coated on its basis is low (does not exceed 30 seconds when exposed to an open flame).

The closest technical combination in terms of essential features is a composition based on liquid low molecular weight siloxane rubber for a flame retardant material, including ethyl silicate-40 and tetraethoxysilane and a titanium-containing compound - alkoxy titan borate (ethoxy titan borate, propoxy titan borate, butoxy titanium nitrate, 2012, No. 60, Russia, 2012). g.). This composition has a high durability of stability at room temperature, a high bond strength of the vulcanized coating with nylon fabric.

The disadvantage of the composition is significant water permeability, insufficiently high abrasion resistance of the resulting coatings and insufficiently high fire resistance of the resulting protective materials.

SUMMARY OF THE INVENTION

The inventive task was to find a composition based on liquid low molecular weight siloxane rubber for a fire-resistant protective material, including ethyl silicate-40 or tetraethoxysilane as a hardener and alkoxy titan borate, which would have higher rates of water resistance, abrasion resistance and fire resistance of the obtained protective materials.

The problem is solved by a composition based on liquid low molecular weight siloxane rubber for a fire-resistant protective material containing ethyl silicate-40 or tetraethoxysilane, alkoxytitanium borate and vanadium pentoxide as a hardener in the following ratio of components, parts by weight:

liquid low molecular weight siloxane rubber one hundred hardener 10-30 alkoxytitanium borate 10-30 vanadium pentoxide 10-20

A distinctive feature of the invention is the additional use of vanadium pentoxide.

Moreover, as alkoxytitanium borate, it contains ethoxytitanium borate, or propoxytitanium borate, or butoxytitrate borate. The claimed composition has the following advantages:

- higher water resistance of protective materials;

- high resistance of coated materials from the claimed composition to abrasion;

- higher fire resistance of protective materials obtained with a coating of this composition - up to 5 min when exposed to an open flame.

Information confirming the possibility of carrying out the invention.

The following substances may be used to carry out the invention:

any low molecular weight liquid siloxane rubber SKTN grades A, B, C, G can be used as a low molecular weight liquid siloxane rubber (GOST 13875-73);

as a hardener - ethyl silicate-40 (GOST 26371-74, amendment 2) or tetraethoxysilane (TU 2435-419-0576344-2003, amendment 1);

ethoxy or propoxy or butoxy titanium borate may be used as alkoxy titanium borate;

vanadium pentoxide (vanadium anhydride) (TU 6-09-4093-88).

Alkoxy titanborates were obtained by a known method by mixing 6 parts by weight of boric acid with 100 parts by weight the corresponding ester of ortho-titanic acid at room temperature without moisture access to obtain clear solutions (R. Field, P. Cove. Organic chemistry of titanium. M: Mir, 1969, 180-181).

The composition is prepared by mixing the required amount of liquid low molecular weight siloxane rubber SKTN, hardener, alkoxytitrate borate and vanadium pentoxide to form a homogeneous mass.

To obtain a protective flame-retardant material, the composition is applied to nylon fabric art. 56007 with two strokes with heat treatment after applying each stroke at 160-165 ° C in a heat chamber for 2-3 minutes.

Quality indicators of the claimed composition and prototype, as well as indicators of materials made using these compositions, were determined identically:

fire resistance under the action of an open flame - according to GOST R508-95;

water resistance according to Purse - according to GOST 22944-78, abrasion resistance according to GOST 8975-75 with amendment 1.2.3. The composition and properties of the compositions and quality indicators of coated materials based on them are given in the table.

These tables indicate higher rates of materials obtained using the claimed composition. The fire resistance of materials obtained using the claimed composition is 2 times higher than the fire resistance of materials obtained using the prototype. Water resistance by Purse is 3 times higher than materials using the composition of the prototype. The resistance to abrasion of the coatings of materials obtained using the claimed composition is 1.4-1.7 times higher than that of the materials of the prototype.

Claims (2)

1. A composition based on liquid low molecular weight siloxane rubber for a fire-resistant protective material, including ethyl silicate-40 or tetraethoxysilane as a hardener, alkoxytitanium borate, characterized in that it additionally contains vanadium pentoxide in the following ratio, wt.h .:
liquid low molecular weight siloxane rubber one hundred hardener 10-30 alkoxy titanborate 10-30 vanadium pentoxide 10-20. 2. The composition according to claim 1, characterized in that as alkoxytitanium borate it contains ethoxytitanium borate or propoxytitanium borate, or butoxytitrate borate.