RU191148U1 - GLASS FIBER NONWOVEN - Google Patents

Abstract

The utility model relates to non-woven roll materials that can be used in construction, for heat and electrical insulation, etc. Fiberglass non-woven mesh contains a coating of a mixture of inorganic and polymeric organic materials, including a mixture of flame retardants, for example, oxidized graphite and compounds of phosphorus, boron, aluminum and zinc. The technical result is the prevention of damage to the electrical cable in case of fire or short circuit when using the grid as part of cable insulation. 2 ill.

Description

The utility model relates to non-woven roll materials that can be used in construction, for heat and electrical insulation, etc.

Fiberglass non-woven nets are known (GOST R 55225-2012; TU 5952-001-17848214-2013), used, in particular, in construction - as a reinforcing material for building coatings.

Known non-woven fiberglass mesh impregnated with bitumen or asphalt concrete, used as a reinforcing material for building and paving (RU 2247179, D04H 3/00, 3/04, 2005; RU 2274690, D04H 3/04, V32V 17/02, V32V 11/00, B32B 11/02).

Closest to the proposed utility model is the well-known non-woven fiberglass mesh coated with a mixture of inorganic (cement, sepiolite) and polymeric organic materials (CN 104355552 A, C03C 25/16, C03C 25/42, 2015), which imparts resistance to the mesh in relation to alkaline environments.

The technical problem, which is aimed at solving the utility model, is to create an elastic material with fire retardant properties.

To solve this problem, a non-woven fiberglass mesh with a coating of a mixture of inorganic and polymeric organic materials is proposed, characterized in that the coating contains a mixture of flame retardants.

The technical result achieved using the proposed utility model is that the use of the grid as part of the cable insulation avoids damage to the electric cable in emergency situations - in case of fire or short circuit - due to the fact that under the influence of temperature a fireproof layer of solid non-conductive is formed on the grid foam.

The flame retardants that make up the mesh coating can be selected from among inorganic and organic compounds known in this quality (V.I. Kodolov. Combustion retardants of polymeric materials, Moscow: Chemistry, 1980, pp. 220-257; S.M. Lomakin, G.E. Zaikov et al. Combustion Retardants for Polymers. — Bulletin of Kazan Technological University, 2012, v. 15, No. 7, pp. 71-86). This can be, in particular, oxidized graphite, compounds of phosphorus, boron, aluminum and zinc, or other known flame retardants and mixtures thereof.

As organic polymeric materials, thermoplastic polymers can be used, for example, acrylic dispersions widely used in industry (http://www.ngpedia.ru/id5442p1.html) and other similar materials that play the role of a binder during coating formation.

The proposed non-woven coated fiberglass mesh is manufactured by passing a standard rolled fiberglass mesh through a bath with an aqueous dispersion of flame retardants and polymeric materials, for example, in a conventional two-roll apparatus, the lower roll of which is lowered into the bath, followed by passing it through a heating zone with warm air or Microwave radiation, in which the polymer is softened, which secures the coating components on the grid, while removing excess moisture.

The essence of the utility model is illustrated by the attached FIG. 1, 2, which show photographs of fragments of the grid, which is a specific example of the embodiment of the utility model, as well as the following information about its manufacture and testing.

A non-woven mesh coated with flame retardants and polymeric organic materials was made by passing a standard rolled fiberglass mesh (TU 5952-001-17848214-2013, mesh size 4 × 4 mm, weight 160-200 g / m ² ) through a two-roll machine whose bath contained an aqueous dispersion of the following composition (wt.%):

acrylic dispersion Novopol 110 (TU 2241-001-53912669-2012) 50-60 a mixture of flame retardants (oxidized graphite, zinc borate, aluminum hydroxide, trichloropropyl phosphate) 30-40 pigment 4-6 target additives (dispersants, defoamers, pH regulators) up to 100

The resulting coated mesh was passed through a heating zone at 60-120 ° C with warm air or microwave radiation.

The finished mesh in the form of a tape 1 m wide and 15 m long, rolled up into a roll, has the following characteristics:

area of closed cells no more than 30% coating weight (with a wire mesh weight of 160-200 g / m ² ) not less than 1500 g / m ² .

Tests of samples of the electric cable coated with the specified grid, in accordance with GOST R 53311-2009, showed that the grid provides fire-retardant efficiency according to both indicators provided by this standard: the coefficient of reduction of the permissible continuous load current is not lower than 0.98, the length of a damaged flame or carbonized part of the cable strip, measured in accordance with clause 6 of GOST R IEC 60332-3-22, does not exceed 1.5 m.

Claims (1)

A non-woven fiberglass mesh with a coating containing polymeric materials and a flame retardant mixture containing oxidized graphite and phosphorus, boron, and zinc compounds, characterized in that the flame retardant mixture further comprises aluminum compounds.

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