RU121256U1 - HEAT RESISTANT FIRE-PROTECTIVE FABRIC - Google Patents

Abstract

1. A heat-resistant flame retardant fabric made by weaving warp yarns selected from the group of para-aramid fibers and weft yarns selected from the group containing natural fibers, the warp yarns additionally containing yarn with a linear density of 25-29 tex × 2 from natural fibers, and the weft yarns additionally contain yarn from fibers selected from the group of para-aramid fibers in the following ratio of components, wt.%: ! para-aramid fibers 20-30 natural fibers 70-80, ! in this case, the surface density of the produced fire-retardant fabric is 280-310 g/m2. ! 2. The fabric according to claim 1, characterized in that cotton, or a cotton/linen blend, or cotton/viscose, is used as the natural fiber. ! 3. The fabric according to claims 1 and 2, characterized in that the space between the fibers is filled with a composition of a phosphorus- and nitrogen-containing compound or a phosphorus-containing compound in an amount of 35-40 wt.%.

Description

The utility model relates to the production of textile material - a fabric having a complex of fire, heat-protective and special properties to provide protection from dangerous and harmful production factors: fire, elevated temperature, sparks and splashes of molten metal, heat fluxes of high intensity in accordance with the purpose of workwear.

Known fabric, which is made from a mixture of aramid and / or polyamide yarns and about 70% of pre-oxidized polyacrylonitrile fibers, while twisted yarns are used in the weft system (see patent GB 2191792, 1986, class D03D 15/00).

The specified technical solution has insufficiently high mechanical strength of the fabric.

Known protective fabric containing a warp and a weft combined two-component thread, consisting of a complex aramid thread twisted with a second component of cotton yarn. As an aramid yarn, yarns based on polyparaphenylene terephthalamide and their copolymers are used (see RU 2129173 class D03D 15/00, 1999).

In a well-known fabric, flame retardant properties are not high enough.

Closest to the claimed technical solution is the patent RU 2204631 class. D03D 15/12, 1999. protecting flame retardant fabric containing warp and weft threads, the warp threads containing filaments having fibers selected from the group of aramid and / or similar fibers having an oxygen index of 27-28%, and weft threads are made of a group of fibers consisting of cotton, wool, viscose and fire-resistant viscose.

The known technical solution has relatively low fire-resistant properties of heat-resistant fabric (the fabric does not ignite and does not continue to burn after exposure to flame for 3-5 seconds, the oxygen index is 27-28%), as well as insufficiently high cost-effectiveness.

The technical result of the proposed utility model is to obtain a protective heat-resistant fabric with increased mechanical strength, resistance to burning, increasing the oxygen index, reducing burning and residual smoldering to expand the range of products made from it with improved comfortable, hygienic properties.

The technical result is achieved by the fact that heat-resistant fire-retardant fabric made by weaving the main threads selected from the group of para-aramid fibers and weft threads selected from the group containing natural fibers, the main threads additionally containing yarn of linear density 25-29 tex × 2 from natural fibers, and the weft yarns additionally contain yarn from fibers selected from the group of para-aramid fibers in the following ratio of components,% wt., para-aramid fibers 20-30 and natural fibers 70-80, while the surface density of the produced fire retardant fabric is 280-310 g / m ² ,

In another embodiment, cotton or cotton / linen or cotton / viscose is used as natural fiber in a fabric.

According to the third embodiment, in the tissue, the space between the fibers is filled with a composition of a phosphorus and nitrogen compound or a phosphorus compound in an amount of 35-40 wt.%.

An example of obtaining the proposed heat-resistant flame retardant fabric.

Heat-resistant flame retardant fabric is produced on standard equipment of textile enterprises.

Harsh textile material made by weaving warp and weft yarns containing para-aramid and natural fibers, with the following ratio of components,% of the mass: para-aramid fibers 20-30 and natural fibers 70-80, after preparation (decoction or decoction and bleaching, mercerization) and coloring the space between the fibers is filled with a composition of a phosphorus and nitrogen-containing compound or a phosphorus-containing compound in a concentration of 35-40 wt.%.

In this case, the surface density of the produced heat-resistant fire-retardant fabric is 280-310 g / m.

As natural fiber use cotton or a mixture of cotton / linen, or cotton / viscose. The linear density of the yarn is 25-29 tex × 2.

Tables 1 and 2 show the technical parameters, physicomechanical and physicochemical properties of the resulting heat-resistant flame retardant fabric.

Table 1 - Technical parameters of fabric No. p / p The fibrous composition of the yarn,% Linear density of yarn, tex The surface density of the fabric, g / m ² Para-aramid fiber Natural fibers Cotton Cotton / Linen Cotton / Rayon one. twenty 80 29.4 tex × 2 310 2. thirty 70 2 5.0 tex × 2 285 3. 25 75 - - 29.4 tex 293

× 2 four. 25 50/25 29.4 tex × 2 301 5. thirty 50/20 25.0 tex × 2 280 6. twenty 60/20 29.4 tex × 2 300 7. twenty 60/20 29.4 tex × 2 295 8. thirty 45/25 25.0 tex × 2 287

When using para-aramid fiber, more than 30% is impractical due to the rise in price of tissue, and less than 20% - the result of the technical task is not achieved.

In examples 1, 4, 5, 8, the space between the fibers is filled with phosphorus and nitrogen-containing compounds with a concentration of 35 wt.%. In examples 2, 3, 6, 7, a phosphorus-containing compound with a concentration of 40 wt.% Was used for filling.

table 2 - Physico-mechanical and physico-chemical properties of the fabric. No. p / p Breaking load, N Torn. load, N Fire resistance (flame contact 30 sec.) Oxygen Index,% Resistance to burning, sec Hygroscopicity,% the basis weft the basis weft residual burning, sec. residual decay, sec. one. 2463 1197 164 119 0 0 42 59,4 eighteen

2. 2405 1155 153 109 0 0 40 57.1 16 3. 2450 1185 160 112 0 0 44 58.6 17 four. 1905 1150 153 110 0 0 41 58.9 twenty 5. 1800 1100 150 109 0 0 41 57.3 19 6. 1850 1135 155 112 0 0 42 57.0 19 7. 1805 1127 142 108 0 0 41 55.6 eighteen 8. 1890 1125 140 105 0 0 41 56.5 16

In an analog, as the main threads for the fabric, threads selected from the group of para-aramid fibers are used, and as weft threads, fibers selected from the group consisting of cotton, silk, wool, viscose are used. As mentioned above, the resulting tissue does not ignite and does not continue to burn after exposure to flame for 3-5 seconds. and has an oxygen index of 27-28%, in contrast to the proposed utility model, where the oxygen index is 40-42%, and the residual burning and residual decay upon contact with the tribe for 30 seconds. equal to zero.

Claims (3)

1. Heat-resistant fire-retardant fabric made by weaving the warp yarns selected from the group of para-aramid fibers and weft yarns selected from the group containing natural fibers, the warp yarns additionally containing 25-29 tex × 2 linear density yarn from natural fibers, and the weft yarns additionally contain yarn from fibers selected from the group of para-aramid fibers in the following ratio of components, wt.%: para-aramid fibers 20-30 natural fibers 70-80, while the surface density of the produced fire retardant fabric is 280-310 g / m ² . 2. The fabric according to claim 1, characterized in that as natural fiber use cotton, or a mixture of cotton / linen, or cotton / viscose. 3. The fabric according to claims 1 and 2, characterized in that the space between the fibers is filled with a composition of a phosphorus and nitrogen compound or a phosphorus compound in an amount of 35-40 wt.%.