RU41310U1 - FABRIC FIRE RESISTANT - Google Patents

Abstract

The utility model relates to the production of heat-resistant fabrics intended for use as a layer between the lining and insulation in railway cars, as a fireproof lining between the lining and insulation, as well as laying in the shelves and chairs of cars. According to the utility model, glass twisted yarns are used as the main and weft yarns in a fire-resistant fabric, consisting of warp and weft silica yarns, to obtain an inert reinforcing base which is impregnated with a suspension of aluminum hydroxide powder in an acetone fluoroplastic solution. The suspension is made on the basis of an acetone solution of fluoroplast - 42 with a viscosity of 0.4 to 3.5 minutes and contains (in weight%): aluminum hydroxide 50-86, and fluoroplast - 14-50. The fabric is made with a surface density of at least 130 g / m ² . An inert reinforcing base is performed on the basis of construction fiberglass GOST - 19907-83 or roving fiberglass TU6 - 48-43-90, or on the basis of electrical insulating fiberglass brand E.

Description

The utility model relates to the production of heat-resistant fabrics intended for use as a layer between the lining and insulation in railway cars, as a fireproof lining between the lining and insulation, as well as laying in the shelves and chairs of railway cars. This fabric can also be used as protection for equipment, premises, scaffolding and wooden floors at construction sites during the reconstruction and repair of ancient buildings and buildings for dividing the space of production, theater and entertainment facilities into smoke zones. It is possible to use for non-combustible tourist and military tents.

Known technical fabric (RU No. 211200, class D 03 D 15/00, 2001), consisting of weaving the warp and weft threads, and textured silica threads of linear density 560-1120 tex were used as the main and weft threads.

A disadvantage of the known fabric is its low heat-resistant characteristics.

The objective of the utility model is to increase the fire-resistant characteristics of the fabric.

The task is achieved by the fact that in a fire-resistant fabric, consisting of warp and weft silica threads, according to the utility model, twisted glass strands are used as warp and weft threads to produce an inert reinforcing base, which is impregnated with a suspension of aluminum hydroxide powder in an acetone fluoroplastic solution. The suspension is made on the basis of an acetone solution of fluoroplast - 42 with a viscosity of 0.4 to 3.5 minutes and contains (in weight%):

aluminum hydroxide 50-86, and fluoroplastic - 14-50. The fabric is made with a surface density of at least 130 g / m ² .

An inert reinforcing base is performed on the basis of construction fiberglass GOST - 19907-83 or roving fiberglass TU6 - 48-43-90, or on the basis of electrical insulating fiberglass brand E.

Impregnation of the fabric with a suspension based on an organofluorine preparation with aluminum hydroxide makes it possible to obtain a fabric with enhanced fire and heat-resistant characteristics and at the same time increased operational properties, namely, fabric impregnated with a suspension with the addition of aluminum hydroxide powder improves the properties of the fabric, increasing its elasticity.

The utility model is illustrated in the drawing, which shows a diagram of a fire-resistant fabric in cross section.

Fire-resistant fabric contains the main glass yarns 1, interwoven with weft glass yarns 2, with the formation of an inert reinforcing base. Impregnation 3 in the form of a suspension of powder 4 in an acetone solution of PTFE envelops the warp threads 1 and weft 2, impregnates them, with the formation of a protective coating film.

Depending on the purpose of the fabric being produced, an appropriate inert reinforcing base is chosen. It can be structural in accordance with GOST 19907-83, roving in accordance with TU6 - 48-43-90 or electrical insulating grade E.

Fireproof fabric is obtained as follows.

To obtain a suspension, the required amount of fluoroplastic - 42 (to obtain a 5-9% solution) from 6 to 48 kg is weighed on a balance and loaded through the hatch into the reactor with the stirrer switched on. After closing the hatch, five times the reactor is flushed with nitrogen from atmospheric oxygen. The dissolution of the fluoroplastic 42 is continued for at least 4 hours with stirring. The dissolution is completed by obtaining a homogeneous mass without fluoroplastic lumps - 42. The viscosity of the finished solution should be 2.0 minutes. If the viscosity is greater than the specified one, then acetone is added with repeated viscosity analysis. The viscosity of the solution above 3.5 min will not allow further suspension to penetrate into the fibers of glass fibers, and the viscosity

below 0.4 min will not provide sufficient tissue impregnation, the suspension will drain and not linger on the tissue. Then, to obtain a suspension, the required amount of aluminum hydroxide (from 24 to 192 kg) is weighed and poured into the reactor, in which the fluoroplastic solution 42 is located, with the stirrer operating. After five times nitrogen stripping from air oxygen, the suspension is stirred for at least 30 minutes, after which it is drained by gravity. The ratio of aluminum hydroxide in suspension should be from 50 to 86% by weight, and fluoroplastic - 42 from 50 to 14% by weight. The prepared suspension is impregnated with the initial inert reinforcing base on the basis of fiberglass according to GOST 19907-83 in a vertical impregnation-drying machine at a temperature of 30-70 ° C and a speed of fabric pulling between the rolls of 20 - 90 m / h, checking the thickness of the fabric coating by measuring with a micrometer or a thickness meter in two opposite points on both sides of the impregnated fabric. After impregnation, the fabric is dried.

The obtained fire-resistant fabric of the TAF type is an elastic material of white color (or specially dyed), slow-burning and low-toxic, with a thickness of at least 0.2 mm and a width of at least 820 mm and a surface density of at least 130 g / m ² .

Tensile strength, N (kgf / cm ² ), no less than: based on 294 (30), and weft 147 (15).

Fireproof fabric developed at LLC Himplast. Its tests showed high fire-resistant properties. Currently preparing mass production of this fabric.

Claims (7)

1. The fabric is fireproof, consisting of warp and weft silica threads, characterized in that twisted glass strands are used as warp and weft threads to produce an inert reinforcing base, which is impregnated with a suspension of aluminum hydroxide powder in an acetone fluoroplastic solution. 2. The fabric according to claim 1, characterized in that the suspension contains, wt.%: Aluminum hydroxide 50 - 86 Ftoroplast 14 - 50 3. The fabric according to claim 1, characterized in that the suspension is made on the basis of an acetone solution of fluoroplastic - 42 with a viscosity of from 0.4 to 3.5 minutes 4. The fabric according to claim 1, characterized in that it is made with a surface density of at least 130 g / m ² . 5. The fabric according to claim 1, characterized in that the inert reinforcing base is made on the basis of structural fiberglass GOST 19907-83. 6. The fabric according to claim 1, characterized in that the inert reinforcing base is made on the basis of roving fiberglass TU 6-48-43-90. 7. The fabric according to claim 1, characterized in that the inert reinforcing base is made on the basis of electrical insulating fiberglass brand E.