RU170907U1 - MULTILAYERED FIRE-HEAT-RESISTANT MATERIAL - Google Patents

Abstract

The utility model relates to the production of multilayer fire-resistant materials and can be used in the manufacture of special protective clothing for a firefighter, which requires increased resistance to heat during emergency rescue operations in close proximity to an open flame, as well as from adverse climatic effects. The technical result of the utility model is the creation of a multilayer fire-heat-resistant material with high heat-shielding properties. The technical result is achieved in the inventive multilayer fire-resistant material containing a fibrous layer (1) made on the basis of aramid fibers, a layer (2) of filled fluororubber on the outer side of the fibrous layer (1), and a heat-reflecting layer (3) in contact with its inner surface with a layer (2) of filled fluorine rubber, while on the outer surface of the heat-reflecting layer (3) an additional heat-reflecting coating (4) is applied, the heat-reflecting layer (3) and an additional heat-reflecting coating (4) made on the basis of solutions of filled fluororubber and powder heat-reflecting metal with a mass ratio of filled fluororubum and powder heat-reflecting metal in a heat-reflecting layer (3) 15: 1, and in an additional heat-reflecting coating (4) - 3: 1 and with a mass ratio of powder heat-reflecting metal in an additional heat-reflecting coating (4) and heat-reflecting layer (3) 5: 1. In such a multilayer fire-resistant material, it is preferable: - aluminum is used as a heat-reflecting powder metal. 1 n.p. f-ly, 1 ill.

Description

The utility model relates to the production of multilayer fire-resistant materials and can be used in the manufacture of special protective clothing for a firefighter, which requires increased resistance to heat during emergency rescue operations in close proximity to an open flame, as well as from adverse climatic effects.

The closest in design features to the claimed technical solution and selected as the closest analogue is a material for heat-protective clothing containing fibrous and heat-reflecting layers, as well as additional layers made of filled fluororubber, located on both sides of the fibrous layer, and a layer made of unfilled fluororubber located on the outer surface of the heat-reflecting layer in contact with its inner surface with one of the layers made of filled th fluororubber, and which is a metallized coating (RF patent No. 2082469 for an invention, class А62В 17/00, А41В 13/00, publ. 06/27/1997 - prototype).

A significant drawback of the known material for heat-insulating clothing is the application of a layer made of unfilled fluororubber onto the outer surface of the metallized coating of the heat-reflecting layer obtained by spraying metal in vacuum on a layer of filled fluororubber, which significantly reduces the heat-reflecting properties of heat-insulating clothing.

The technical result of the utility model is the creation of a multilayer fire-heat-resistant material with high heat-shielding properties.

The technical result is achieved in the inventive multilayer fire-resistant material containing a fibrous layer made on the basis of aramid fibers, a layer of filled fluororubber on the outer side of the fibrous layer, and a heat-reflecting layer in contact with its inner surface with a layer of filled fluororubber, according to a utility model, on the outer surface of the heat-reflecting layer is applied additional heat-reflecting coating, while the heat-reflecting layer and additional heat-reflecting coating in made on the basis of solutions of filled fluorine rubber and powder heat-reflecting metal with a ratio of the mass of filled fluorine rubber and powder heat-reflecting metal in a heat-reflecting layer of 15: 1, and in an additional heat-reflecting coating - 3: 1 and with a mass ratio of powder heat-reflecting metal in an additional heat-reflecting coating and a heat-reflecting coating and 5-reflective :one.

In such a multilayer heat-resistant material, it is preferable

- aluminum was used as a heat-reflecting powder metal.

Application of an additional heat-reflecting coating on the outer surface of the heat-reflecting layer based on solutions of filled fluororubber and powder heat-reflecting metal, with a mass ratio of filled fluorine-rubber and powder heat-reflecting metal in a heat-reflecting layer 15: 1, and in an additional heat-reflecting coating - 3: 1 and with a mass ratio powder heat-reflecting metal in an additional heat-reflecting coating and a heat-reflecting layer 5: 1, and in an additional heat-reflecting coating - 3: 1 and with the weight ratio of the powder heat-reflecting metal in the additional heat-reflecting coating and the heat-reflecting layer 5: 1, as well as the preferred use of aluminum as the powder heat-reflecting metal, the claimed multilayer fire-heat-resistant material provides high heat-shielding properties.

A comparative analysis of the proposed utility model and prototype reveals the distinctive features of the inventive multilayer fire-resistant material in comparison with the closest analogue, which ensures that it meets the criterion of "novelty."

The presence of distinctive features allows you to achieve a positive effect, expressed in the creation of a new multilayer fire-heat-resistant material with high heat-protective properties.

The use of the inventive multilayer fire-heat-resistant material in the manufacture of special protective clothing for firefighters, requiring increased resistance to heat during emergency rescue operations in close proximity to an open flame, as well as from adverse climatic influences, ensures it meets the criterion of "industrial applicability".

The drawing illustrating the claimed utility model, shows a cross section of a fragment of a multilayer fire-heat-resistant material.

The multilayer fire-resistant material contains a fiber layer 1 made on the basis of aramid fibers, a layer 2 of filled fluororubber on the outer side of the fibrous layer 1, and a heat-reflecting layer 3 in contact with its inner surface with a layer 2 of filled fluororubber, while on the outer surface of the heat-reflecting layer 3 applied additional heat-reflecting coating 4, and heat-reflecting layer 3 and additional heat-reflecting coating 4 are based on solutions of filled fluororubber and porous heat-reflecting metal with a ratio of the mass of the filled fluororubber and powder heat-reflecting metal in the heat-reflecting layer 3 15: 1, and in the additional heat-reflecting coating 4 - 3: 1 and with the mass ratio of the powder heat-reflecting metal in the additional heat-reflecting coating 4 and the heat-reflecting layer 3 - 5: 1 .

In such a multilayer heat-resistant material, it is preferable:

- aluminum was used as a heat-reflecting powder metal.

The test results of the inventive multi-layer heat-resistant material are given in the table.

The table results of the tests of the inventive multilayer fire-heat-resistant material showed that the fire-heat-resistant material for protective clothing has heat-shielding properties corresponding to or exceeding the requirements of GOST R 53264-2009 “Special protective clothing of a fireman. General technical requirements. Test Methods. "

Claims (2)

1. A multilayer fire-resistant material containing a fibrous layer made on the basis of aramid fibers, a layer of filled fluororubber on the outer side of the fibrous layer and a heat-reflecting layer in contact with its inner surface with a layer of filled fluororubber, characterized in that on the outer surface of the heat-reflecting layer an additional heat-reflecting coating is applied, while the heat-reflecting layer and the additional heat-reflecting coating are made on the basis of fluorinated rubber solutions powder and heat-reflecting metal with a mass ratio of filled fluorine rubber and powder heat-reflecting metal in a heat-reflecting layer of 15: 1, and in an additional heat-reflecting coating - 3: 1 and with a mass ratio of powder heat-reflecting metal in an additional heat-reflecting coating and a heat-reflecting layer of 5: 1. 2. A multilayer fire-resistant material according to claim 1, characterized in that aluminum is used as the heat-reflecting powder metal.

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