RU208582U1 - Protective material - Google Patents

Abstract

The utility model relates to protective materials and can be used, for example, as a fire-retardant layer between the lining and insulation of the lathing of locomotive cabs, a fireproof vapor-water-tight gasket in the shelves and seats of cars, a coating material for protecting industrial equipment. The fire-retardant material contains a layer of TAF grade fluoroplastic fiberglass and an adhesive layer. At the same time, the adhesive layer is made of a solvent contact adhesive based on a solution of styrene-butadiene rubber in an organic solvent. The technical result is to obtain a strong connection of the material with the product. 6 w.p. f-ly.

Description

Technology area

This utility model relates to protective materials, namely to a product made of natural, artificial or synthetic materials, with a protective coating made of fluoroplastic fiberglass TAF.

State of the art

There is a known method of obtaining fiberglass fluoroplastic grade TAF, disclosed in the RF patent for invention No. RU2726670 (publ. 07/15/2020). The method makes it possible to obtain a fluoroplastic fabric made of fiberglass impregnated with aqueous suspensions of fluoroplastic-4D. The fabric is intended for use as a protective material for thermal, sound and chemical insulation, as well as fire-retardant, vapor-permeable linings, ceilings, partitions, including in passenger cars. The working temperature range of glass fabric is from minus 100 ° С to plus 250 ° С.

A significant disadvantage of this fabric in the manufacture of insulation bags / thermal covers, etc. is the presence of a protective layer of fluoroplastic-4D, the gluing of which is extremely difficult.

A known method of surface treatment of fiberglass-filled polytetrafluoroethylene, disclosed in the RF patent for invention No. 2400493 (publ. 09/27/2010). The known method makes it possible to obtain a product with a high strength of attachment of rubbers based on acrylate or fluoride rubber to the surface of glass fiber-filled polytetrafluoroethylene due to the fact that the surface of glass fiber-filled polytetrafluoroethylene is subjected to treatment with a sodium-naphthalene complex in tetrahydrofuran followed by washing the solution with 3-ethanol and drying.

However, the known method is associated with significant costs and is complicated by measures to ensure the safety of work, and compliance with environmental requirements.

The known method of gluing products made of polytetrafluoroethylene, disclosed in the author's certificate of the USSR No. 423828 (publ. 02/18/1975). The known method makes it possible to obtain a product from glued samples of fluoroplastic, which are preliminarily treated with organosilicon liquids containing groups capable of hydrolysis, prior to the stage of baking the workpiece, and then washed with water and heat treatment is carried out. After processing, the surface is well glued with ordinary adhesives, for example, epoxy, such as BF.

However, in the known method of gluing fluoroplastic samples, rather expensive chemical reagents are used in preliminary preparation of the surface for gluing, which must subsequently be disposed of.

Known composition for bonding fluoroplastic and polyethylene, disclosed in the USSR AC No. 1457392 (publ. 03/10/1996). The known composition can be used for gluing products made of fluoroplastic and polyethylene and includes esters of acrylic and methacrylic acids, trialkylboron and a curing accelerator.

However, the known method is associated with significant costs and is complicated by measures to ensure the safety of work, and compliance with environmental requirements.

There is a known method of gluing an activated fluoroplastic film with a metal, disclosed in the RF patent for invention No. RU2665540 (publ. 06/26/2018). The known method makes it possible to obtain an article glued with an activated fluoroplastic film. Rubber glue 51-K-10V was used as an adhesive to create an adhesive layer between the film and the product. The specified glue contains in its composition epoxy resin and rubber mixture based on butadiene-nitrile rubber.

However, the known method for bonding a fluoroplastic film to a metal is complicated by long-term preparation of the surface for bonding, preliminary activation of the fluoroplastic film and holding the seam to be bonded under pressure for a long time.

Disclosure of the essence of the utility model

The technical problem to be solved by the present utility model is to provide a durable non-combustible adhesive bond of fluoroplastic glass fabric with the surfaces of products, the production of which does not require laborious pretreatment of fluoroplastic glass fabric.

The technical result achieved with the implementation of the present utility model consists in applying a protective coating made of fluoroplastic fiberglass to the surface of the product.

The technical result is achieved by the fact that in a fire retardant material containing a layer of fluoroplastic fiberglass TAF and an adhesive layer, in contrast to the prototype, the adhesive layer is made of a solvent contact glue based on a solution of styrene-butadiene rubber in an organic solvent.

In particular, the specified fluoroplastic glass fabric of the TAF brand is represented by glass fabric impregnated with an aqueous suspension of fluoroplastic-4D.

In particular, the solvent contact adhesive may contain petroleum resins.

In particular, the solvent contact adhesive may contain rosin esters.

In particular, the solvent contact adhesive may contain a plasticizer.

In particular, dichloromethane was used as an organic solvent in the solvent contact adhesive.

In particular, the specified solvent contact-glue is represented by glue of a brand selected from the following group: Ergospray-39, Ergospray-40, Ergospray-41 / K.

The surface of the product can have any geometric shape. The product can be made from natural, artificial or synthetic materials.

The declared utility model can be used as a fire retardant layer between the cladding and insulation of the lathing of the cabins of locomotives, wagons of multi-unit rolling stock, passenger cars of locomotive traction, cars of special rolling stock of railway transport, providing waterproofing and preventing their fire; fireproof steam-water-tight gaskets in the shelves and armchairs of the carriages; covering material (gaskets, ceilings, partitions) for thermal, sound and chemical insulation of industrial equipment, pipelines, building structures and other technical purposes. The working temperature range of the protective coating made of fluoroplastic fiberglass is from minus 100 ° C to plus 250 ° C.

In terms of its technical characteristics, the TAF grade PTFE fiberglass, obtained by impregnating the fiberglass with aqueous suspensions of PTFE-4D, is superior in its technical characteristics to similar fiberglass fabrics. However, the presence of a fluoroplastic protective layer significantly complicates the adhesion of fiberglass to the surface of the main product.

Today, there are two fundamental technologies for preparing fluoroplastics for bonding: treatment with aggressive chemical reagents, for example, a mixture of metallic sodium with ammonia, and plasma surface treatment. Chemical processing ensures effective adhesion of fluoroplastic to the surface, however, the use of chemical reagents (metallic sodium, solvents) in preparation for bonding is a harmful production factor and harmful to the environment. Plasma treatment does not have these disadvantages, however, plasma-treated fluoroplastics do not contribute to the formation of reliable adhesive bonds.

After the search, the authors settled on a one-component elastic solvent contact adhesive consisting of a solution of styrene-butadiene rubber (styrene-butadiene copolymers), petroleum resins, rosin esters, plasticizers in an organic solvent dichloromethane.

Ergospray adhesives produced on the basis of TU 2242-020-36449201-2013 can be used as such an adhesive. According to the parameters of acute toxicity, the adhesive belongs to low-toxic substances (hazard class 4 according to GOST 12.1.007). The adhesive layer formed between the glass fabric and the product has an open holding time of 40-50 seconds, a fast setting time of 20-25 seconds, high initial strength, high thermal stability, high torsional and shear strength. After gluing the surfaces of fiberglass TAF grade fluoroplastic, an elastic seam is formed, which retains its elasticity for a long period of time. The adhesive can be applied to the surface by various methods, both automatic and mechanical.

Description of embodiments of the utility model

The possibility of implementing the utility model is illustrated by the following examples.

Example 1. The surface of the fiberglass fabric of the fluoroplastic grade TAF is cut out for the manufacture of a package of insulation / thermal cover, etc. the desired shape according to a given template, the surfaces to be glued are cleaned of dust and dirt, and then manually, for example, using a universal construction brush based on 100% synthetic silk No. 30 or directly from a glue gun with a pump dispenser and with a removable brush with a diameter of 11 / 17/25 mm is applied to the surfaces to be glued with solvent contact-glue "ERGOSPRAY-39" TU 2242-020-36449201-2013. The glue is classified as NG (non-flammable). The temperature of the adhesive, the environment and the surfaces to be bonded should be between 10 and 30 ° C. After applying the glue, connect and press the glued surfaces tightly for 15-20 seconds. The maximum strength of the seam to be glued is achieved within 24 hours. Average consumption of glue in the range of 50-130 g / m². After drying, the material does not emit toxic substances. A long-term elastic consistency of the glue seam is achieved, which makes it possible to ensure the permissible regulated strength of the glue joint. Mechanical strength within the required values.

Example 2. The surface of the fiberglass fabric of the fluoroplastic grade TAF is cut out for the manufacture of an insulation package / thermal cover, etc. the desired shape according to a given template, the surfaces to be glued are cleaned of dust and dirt, and then manually, for example, using a universal construction brush based on 100% synthetic silk No. 30 or directly from a glue gun with a pump dispenser and with a removable brush with a diameter of 11 / 17/25 mm is applied to the surfaces to be glued with a solvent contact-glue brand "ERGOSPRAY-40" TU 2242-020-36449201-2013. The glue is classified as NG (non-flammable). The temperature of the adhesive, the environment and the surfaces to be bonded should be between 10 and 30 ° C. After applying the glue, connect and press the glued surfaces tightly for 20-25 seconds. The maximum strength of the seam to be glued is achieved within 24 hours. Average consumption of glue in the range of 50-140 g / m². After drying, the material does not emit toxic substances. A long-term elastic consistency of the glue seam is achieved, which makes it possible to ensure the permissible regulated strength of the glue joint. Mechanical strength within the required values.

Example 3. Cutting of the surface of fiberglass fabric of fluoroplastic grade TAF for the manufacture of a package of insulation / thermal cover, etc. the desired shape according to a given template, the surfaces to be glued are cleaned of dust and dirt, and then manually, for example, using a universal construction brush based on 100% synthetic silk No. 30 or directly from a glue gun with a pump dispenser and with a removable brush with a diameter of 11 / 17/25 mm is applied to the surfaces to be glued with solvent contact-glue of the "ERGOSPRAY-41 / K" brand TU 2242-020-36449201-2013. The glue is classified as NG (non-flammable). The temperature of the adhesive, the environment and the surfaces to be bonded should be between 10 and 30 ° C. After applying the glue, connect and press the glued surfaces tightly for 35-40 seconds. The maximum strength of the seam to be glued is achieved within 24 hours. Average consumption of glue in the range of 50-150 g / m². After drying, the material does not emit toxic substances. A long-term elastic consistency of the glue seam is achieved, which makes it possible to ensure the permissible regulated strength of the glue joint. Mechanical strength within the required values.

Claims (7)

1. Fire retardant material containing a layer of fluoroplastic fiberglass TAF and an adhesive layer, characterized in that the adhesive layer is made of solvent contact-glue based on a solution of styrene-butadiene rubber in an organic solvent. 2. Fire retardant material according to claim 1, characterized in that said fluoroplastic glass fabric of the TAF brand is represented by glass fabric impregnated with an aqueous suspension of fluoroplastic-4D. 3. Fire retardant material according to claim 1, characterized in that the solvent contact-adhesive contains petroleum resins. 4. Fire retardant material according to claim 1, characterized in that the solvent contact adhesive contains rosin esters. 5. Fire retardant material according to claim 1, characterized in that the solvent contact-adhesive contains a plasticizer. 6. Fire retardant material according to claim 1, characterized in that dichloromethane is used as an organic solvent in the solvent contact adhesive. 7. Fire retardant material according to claim 1, characterized in that said solvent contact-glue is represented by glue of a brand selected from the following group: Ergospray-39, Ergospray-40, Ergospray-41 / K.