RU2203993C1 - Fire-resistant textile material - Google Patents

Abstract

FIELD: textile industry. SUBSTANCE: material has base, such as kapron fabric, and fire-protective polymeric layer applied to base and made in the form of hardened coating based on low-molecular siloxane rubber and having thickness of 0.05-0.25 mm. Material has improved fire-resistance and high physico-mechanical properties. EFFECT: increased quality of fire-resistant material and wider range of use. 1 tbl, 3 ex

Description

 The invention relates to protective textile materials with special properties, namely with a fire-resistant coating.

 Fire-resistant textile materials are known, which are fabrics treated with a special flame retardant composition.

 Known material (US Patent 4032517, 1977), which is a cotton fabric, on which a composition comprising chlorvinyl paraffin, a copolymer of ethylene and vinyl acetate, antimony trioxide, calcium carbonate, zinc oxide, kaolin is applied on both sides.

 Also known material, which is a cotton base with fire retardant impregnation "Pirovateks" based on alkylphosphonate monomethyldimethylphosphonopropionamide (Kirkina LI, Romanova LI, Baskova TT Fireproof finish of textile materials in the CCCP and abroad, M., 1981 g., issue 1).

 However, Pyrovatex flame retardant is effective only for cotton fabrics. On synthetic fabrics, it is not fixed. In addition, the resulting materials have insufficient physical and mechanical properties.

 Fabrics based on synthetic fibers have the highest physical and mechanical properties with low weight. In this case, the most interesting in connection with their availability and relatively low cost are nylon fabrics.

 However, when the compositions containing flame retardants are applied to synthetic fabrics, they are not fixed on such fabrics, which does not allow to obtain fire-resistant materials based on synthetic general-purpose fabrics.

 Fire-resistant synthetic fibers and fabrics can also be obtained by introducing flame retardants into them, or upon receipt of the polymer, or during the formation of the fiber (V.I. Kodalov. "Retardants of the burning of polymeric materials", M., 1980, pp. 250-253 )

 However, when flame retardants are introduced into nylon fibers, fabrics from such fibers become only slightly less combustible and ignite when exposed to an open flame after 1 second (US Patent 4024092, 1977).

 The closest technical solution is a fire-resistant textile material, which is a cotton or cotton-laced canvas with a discrete polyvinyl chloride coating applied on it containing flame retardants (Russian Patent 2101407, С 09 К 21/146, 1998).

 However, the fire resistance of such a material is insufficient and is not more than 12 s. In addition, the material has insufficiently high physical and mechanical properties. So, the breaking load is only 60 kgf on the basis, and 58 kgf on the weft.

 Thus, it is not known fire-resistant textile material with a fabric base, which would have a higher fire resistance and high physical and mechanical properties.

 The inventive task was to search for a flame retardant textile material consisting of a fabric base and a flame retardant polymer coating deposited on the base, which has both high fire resistance and high physical and mechanical properties.

 The problem is solved by a fire-resistant textile material consisting of a fabric base and a flame retardant polymer coating deposited on the base, which contains a capron fabric as a fabric base, and a cured coating with a thickness of 0.05-0.25 mm based on low molecular weight siloxane as a flame retardant polymer coating rubber.

Distinctive features of the invention are:
1) use as a tissue basis of kapron tissue;
2) the use of a cured coating based on low molecular weight siloxane rubber 0.05-0.25 mm thick as a flame retardant polymer coating.

 Although kapron fabric is known per se, it was not possible to obtain a fire-resistant material based on it, since the application of known polymer coatings that impart fire resistance to other fabrics does not impart fire resistance to it. The use of polymer coatings based on low molecular weight siloxane rubber to obtain flame retardant materials is unknown.

 EFFECT: invention makes it possible to obtain a fire-resistant material based on kapron fabric with higher fire resistance and high physical and mechanical properties. So, the fire resistance is at least 15 s when exposed to an open flame, and the breaking load increased from 2 to 3.5 times depending on the basis.

 For the implementation of the invention using the following materials.

As a fabric base, any nylon fabric can be used that satisfies the consumer in terms of basic physical and mechanical parameters, for example art. 56007 with a surface density of 170 g / m ² or art. 56023 with a surface density of 130 g / m ² .

 As low molecular weight siloxane rubber, any low molecular weight siloxane rubber SKTN grades A, B, C and F can be used (GOST 13835-73).

 Siloxane rubber of a certain brand has a guest conditional viscosity and an appropriate molecular weight.

 Grade A - conditional viscosity - 90-150, molecular weight - 20.000-40.000.

 Grade B - conditional viscosity - 151-240, molecular weight - 40.000-60.000.

 Grade B - conditional viscosity - 241-600, molecular weight - 60.000-80.000.

 Grade G - conditional viscosity - 601-1080, molecular weight - 80.000-100.000.

 Known hardeners of low molecular weight siloxane rubbers, for example tetraethoxysilane (TU 6-02-708-76), ethyl silicate-40 (GOST 26371-74, amendment 2), are used as a hardener of low molecular weight siloxane rubber.

 As a curing accelerator catalyst, for example, tin octoate (catalyst 230-19) (TU 6-02-539-75) catalyst 18 (TU 6-02-805-78) can be used.

 As target additives, the resorcinol-urotropine modifier RU can be used to achieve better adhesion of coatings to nylon fabrics and emulsion polyvinyl chloride to achieve a haze of coatings.

 When preparing a color scheme, various pigments can be used without limitation.

 Obtaining fire-resistant textile material is as follows.

Example 1. Prepare a composition of the following composition, parts by weight:
SKTN siloxane rubber, grade A - 100
Tetraethoxysilane - 12
Tin Octoate - 2
Pigment - chromium trioxide - 2.5
This composition is prepared by mixing low molecular weight siloxane rubber, hardener, curing accelerator catalyst and pigment in a mixer until a homogeneous mass is formed. The composition is applied to nylon fabric art. 56007 knife squeegee, followed by heat treatment for 10 min at 125 ^o With two strokes, on a spreading unit. The thickness of the cured siloxane coating is 0.1 mm.

Example 2. Prepare a composition of the following composition, parts by weight:
SKTN siloxane rubber, grade B - 100
Ethylsilicate-40 - 15
Tin Octoate - 3
Emulsion Polyvinyl Chloride - 15
Phthalocyanine Green Pigment - 3
The composition is prepared in the same way as in example 1. Then it is applied on kapron tissue art. 56007 knife squeegee, followed by thermal hardening at 120 ^o C for 15 min in three strokes. The thickness of the cured siloxane coating is 0.15 mm.

Example 3. Prepare a composition of the following composition, parts by weight:
G-grade Siloxane Rubber - 100
Catalyst 18 - 8
Emulsion Polyvinyl Chloride - 15
Resorcinurotropin modifier RU - 15
Pigment - chromium trioxide - 3
The composition is also prepared as in example 1. Then it is applied to the nylon fabric art. 56007 knife or roll squeegee followed by thermosetting at 130 ^o C for 5 min in two strokes. Then the material is kept for 10 min at a temperature of 160 ^o C. The thickness of the cured siloxane coating of 0.2 mm

Studies have shown that a change in curing temperature in the range of 120-130 ^o With does not significantly affect the fire resistance and physico-mechanical properties of materials.

 The table shows the fire resistance and breaking load of nylon fabrics with cured siloxane coating. From the data in this table it can be seen that the materials obtained have significant fire resistance and do not ignite when exposed to an open flame for 15-25 s, while uncoated nylon fabrics, as is known, ignite instantly and completely burn out. Compared with the prototype, the breaking load of nylon fabrics with cured siloxane coating is significantly higher.

Claims (1)

 Fire-resistant textile material consisting of a fabric base and a flame retardant polymer coating deposited on the base, characterized in that it contains a capron fabric as a fabric base, and a cured coating based on low molecular weight siloxane rubber with a thickness of 0.05-0 as a polymer fire retardant coating, 25 mm.

Images