RU2670229C1 - Composition for fire-proofing of polyester fabrics used for decorative purposes - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to compositions for fire-proofing of decorative fabrics. In the method, a composition is proposed for imparting flame retardant properties to decorative interior fabrics of polyester fiber of Jacquard weave, containing Pyrovatex, which is a methylated derivative of the condensation product of dimethylphosphite with acrylamide, characterized in that the composition comprises 400 g of the preparation of Pyrovatex, 1,000 g of water, 1 wt. % of the weight of the obtained Teflon powder solution, which is a tetrafluoroethylene polymer, wherein the powder of the tetrafluoroethylene polymer penetrating between the fibers is processed by ultrasound.

EFFECT: composition for fire-proofing of decorative interior fabrics made from polyester fibers of Jacquard weave is developed.

1 cl

Description

The invention relates to the textile industry, to compositions for flame retardant processing of decorative interior fabrics made of polyester fibers of jacquard weave, and can be used in aircraft, automotive and for other special purposes.

To decorate the interior of the premises, various textile materials are used, and mainly fabrics made from synthetic fibers. The danger of using synthetic fiber fabrics in interiors is associated with high combustibility and the burning characteristics of these fibers. The presence in the premises of a combustible load of synthetic fabrics used for interior decoration is a serious source of danger during fires, they are highly flammable, contribute to the spread of flames and emit large amounts of smoke and gases during combustion. Therefore, the problem of imparting flame retardant properties to textile materials of various nature and purpose in recent years is becoming increasingly important.

Fire-retardant compositions for the processing of decorative fabrics, according to research, must satisfy the following requirements:

- maintain thermal stability up to 300 ° C;

- it is easy to dose, melt during polymer processing or have a high degree of dispersion (less than 1-15 microns);

- to provide a reduction in combustibility when introduced into the polymer of not more than 10% of the mass, while the concentration of phosphorus in the polyester should be at least 1%;

- reduce the smoke-forming ability and toxicity of polymer combustion products;

- must not adversely affect polymer properties.

The most common method of reducing the flammability of polyester materials using various flame retardants is the surface treatment method at the stage of finishing production. To give fire protection by surface treatment, a very wide class of additives is used: phosphorus and phosphorus-halogen-containing oligomers, polyphosphates and other organic compounds. To fix flame retardants on the fabric, the treatment is carried out in the presence of methylol compounds or melamine-formaldehyde resins by drying the impregnated fabric at a temperature of 60-100 ° C or heat treatment for 2-3 minutes at a temperature of 160-170 ° C.

The main objective of the invention is to develop a composition for flame retardant treatment of decorative interior fabrics made of polyester fibers of jacquard weave, providing increased fire resistance, permanence and preservation of the neck of the fabric after surface treatment.

A known composition for flame retardant chemical fibers based on a 5-7% aqueous solution of phosphorus-containing monomer (Fakril-M) using a redox system Fe ²⁺ -N ₂ About ₂ (application for invention 93012912 Russia; publ. 09/20/96 ) However, this composition must be grafted onto the fibers for a long time and at high temperature.

A known two-stage method for processing polyester fabrics, including impregnation with the composition Proban, then hexabromocyclododecane or cyclic phosphonate. The treated fabric is thermofixed, and in the case of hexabromocyclododecane, it is heated above 182 ° C to melt the flame retardant. The two-stage process and the need for heat setting at high temperatures significantly complicate the possibility of practical application of the proposed method.

To reduce the combustibility of polyester materials, a nitrogen-containing phosphonic acid derivative, T-2 flame retardant, produced on a pilot scale in the Russian Federation, can be used. The treatment is carried out according to the regime, including impregnation with an aqueous solution of glycazine, drying, impregnation with an aqueous solution of T-2 flame retardant, followed by drying, heat treatment and washing. The resulting fabrics from a mixture of polyester and cellulose fibers (in a ratio of 67: 33%) were characterized by an oxygen index of 28-30% with a flame retardant content of not more than 10-12%. However, the fire retardant effect is not stable during repeated washing.

A well-known liquid preparation Fyrol PBP, which is a mixture of pentabromodiphenyl oxide and aryl phosphates, containing about 50% bromine, is recommended to reduce the flammability of polyester fabrics. It is noted that the fire retardant effect persists in the process of multiple washings. However, the composition can only be modified decorative materials. Flammable fabrics can be obtained with a weight gain of at least 30-40%, which worsens the neck and leads to a decrease in the physical and mechanical properties of materials.

For the decoration of polyester fabrics and fabrics from a mixture of cellulosic and polyester fibers, the fire retardant composition Pirovateks (methylated derivative of the condensation product of dimethylphosphite with acrylamide, C ₆ H ₁₄ O ₅ NP) is known. However, the effectiveness of its fire retardant effect for fabrics containing more than 15% polyester fiber is quite low, since this fire retardant decomposes at a lower temperature compared to polyester.

Therefore, to eliminate these shortcomings, it is proposed to introduce the commercial drug Teflon into an aqueous solution of Pirovatex. Teflon is a polymer of tetrafluoroethylene (PTFE), a plastic material that has rare physical and chemical properties and is widely used in technology and in everyday life. Density is from 2.18 to 2.21 g / cm ³ . Teflon interferes with the interaction of the fabric with chemicals, provides excellent water repellent action and protection against splashes and dirt, Teflon coating protects the fabric fibers from oil and water pollution, dust and dry dirt. Teflon coating is not visible visually and does not feel to the touch. Teflon processing is suitable for almost all types of fibers - even for delicate silk and thin cotton, does not affect the color and breathability of the fabric.

The proposed composition is intended for flame retardant processing of fabric made of polyester fiber jacquard weave, used for sewing curtains and curtains in the design of the interior.

Composition Recipe

- 400 g of the drug Pirovateks (methylated derivative of the condensation product of dimethylphosphite with acrylamide, C ₆ H ₁₄ O ₅ NP);

- 1000 g of water;

- 1 mass. % by weight of a solution of a powder of a polymer of tetrafluoroethylene (commercial preparation Teflon).

The technology of applying the composition

Fabric samples of polyester fiber 21 × 17 cm in size for 72 hours are kept in water, changing it every 24 hours, dried and processed with hot steam.

Next, tissue samples are placed in a flame retardant solution and incubated for 30 minutes in an ultrasonic bath heated to a temperature of 65 ° C. Then the samples are squeezed out and subjected to heat setting at a temperature of 150 ° C for 15 minutes. Samples are dried naturally.

Processing the proposed composition leads to a relative weight gain of the tested samples of polyester from 15 to 20% at an initial surface density of the fabric of 181 g / m ² . It should be noted that this has little effect on the neck stiffness of the fabric, and, therefore, does not interfere with the further sewing of products, consumer properties do not deteriorate.

To study the effect of fire protection, the treated tissue samples were tested according to the methods described in the following regulatory literature:

- GOST 21793-76 Plastics. Method for determining the oxygen index;

- GOST R 50810-95. Fire safety of textile materials. Decorative fabrics.

Polyester samples treated with a Pyrovatex-based flame retardant with Teflon met the requirements of GOST R 50810-95. When exposed to an ignition source, the samples melted, but after removal of the ignition source, melting ceased. No residual combustion was detected. The height of the melted portion of the sample on the base was 8 cm, for the duck - 8.5 cm. Samples treated with a flame retardant based on Pirovateks with Teflon in accordance with the requirements of Federal Law of July 22, 2008 No. 123-F3 “Technical Regulation on Fire Requirements safety ”(as amended on July 3, 2016), GOST R 50810-95 are classified as flammable.

The results of determining the oxygen index of tissue samples made of polyester fiber treated with a flame retardant based on Pirovateks with Teflon showed an average value of this indicator of 27% with an average flame propagation rate of 0.96 mm / s. This result can be considered satisfactory, and textile material treated with the resulting composition may be difficult to burn.

As a result of the study, a fire-retardant composition was obtained (400 g of the drug Pirovateks (methylated derivative of the condensation product of dimethylphosphite with acrylamide, C ₆ H ₁₄ O ₅ NP), 1000 g of water, 1 wt.% Of the mass of the powder of the polymer polymer tetrafluoroethylene (commercial preparation Teflon)) , which allows to prevent ignition of the woven material of the jacquard weave of decorative polyester fiber.

Claims (1)

Composition for imparting flame retardant properties to decorative interior fabrics made of polyester fiber of jacquard weave, containing Pirovateks, which is a methylated derivative of the condensation product of dimethylphosphite with acrylamide, characterized in that the composition includes 400 g of the drug Pyrovatex, 1000 g of water, 1 wt. % by weight of the obtained Teflon powder solution, which is a tetrafluoroethylene polymer, the powder of the tetrafluoroethylene polymer penetrating between the fibers is treated with ultrasound.