RU2103300C1 - Polymer composition for fireproof foaming coating - Google Patents

Abstract

FIELD: paint industry, more particularly composite materials for protection of objects from flame. SUBSTANCE: claimed polymeric composition comprises one- component glue based on 100 parts of chlororubber; 50-60 parts of disubstituted ammonium phosphate; 30-40 parts of 10-20 parts of urea. The claimed composition further comprises 5 parts of chloroparaffin: 2-2.5 parts of aerosil; 0.4-0.5 part of chlororubber. EFFECT: improved properties of the polymeric composition.

Description

 The invention relates to the production of materials used to protect objects from fire, and more particularly to a polymer composition for a flame retardant foamable coating.

 A known polymer composition for an expandable fire retardant coating comprising a polymer binder and expandable fillers (FR, A, 2265838). As a polymeric binder, this composition contains plasticized polychloroprene, chlorinated rubber, chlorinated polyolefin, and “intumescent” graphite as a foaming filler, with 10-50 wt.% Of a polymeric binder being its 100 wt.%.

A fireproof foaming coating based on this polymer composition is mainly used to protect metal and wooden structures and products, however it is characterized by a high foaming temperature (approximately 250 ^o C) and does not have elasticity, which does not allow it to be used to cover flexible elements of various designs, for example rubber products.

 A known polymer composition for a fire retardant expandable coating, comprising a polymer binder and expandable fillers (US, A, 3021293).

As a polymer binder, this composition contains, wt.%:
20% solution of chlorinated rubber - 500
Glycerol monoester and rosin - 30
Lecithin - 5.0
and as foaming fillers -
Monoammonium phosphate - 200
Melamine formaldehyde condensate - 80
Pentaerythritol - 85
Fire retardant foaming coating based on the known polymer composition is used to protect concrete and asbestos cement slabs. Under the influence of a flame or high temperatures on this fire-retardant expanding coating, at the initial moment, its upper layers quickly warm up to the foaming temperature, then, as the foam coke is formed, the heating of this coating sharply slows down. This composition begins to foam at temperatures of 250 ^o C and is intended to protect against the effects of fire and high temperatures> 1000 ^o C. When exposed to a flame with a temperature of 600-900 ^o C, the heating time of the coating to the foaming temperature is significant and therefore when using this coating to protect products with a temperature at which decomposition starts below 250 ^o C, for example rubber-technical, and, in particular, fuel supply hoses, a large thickness coating is required.

 The basis of the invention is the task of creating a polymer composition so that the fire-retardant foaming coating obtained on its basis is characterized by a relatively low temperature of the onset of foaming and possesses elasticity, which would greatly expand its field of application.

The problem is solved in that the polymer composition for a flame retardant expandable coating, comprising a polymer binder and expandable fillers, according to the invention contains as a polymer binder a one-component adhesive based on chloroprene rubber and expandable fillers - ammonium disubstituted phosphate, paraform and urea in the following proportions, wt. .:
One-component adhesive based on chloroprene rubber - 100
Disubstituted Ammonium Phosphate - 50-60
Paraform - 30-40
Urea - 10-20
The proposed polymer composition is obtained by mixing pre-crushed ammonium phosphate disubstituted, paraform and urea, followed by making them with stirring in a one-component adhesive based on chloroprene rubber.

 It is advisable that the polymer composition additionally contains a plasticizer - chloroparaffin in an amount of not more than 5 parts by weight

 The presence of such a technological additive significantly increases the elasticity of the flame retardant foaming coating obtained on the basis of the proposed polymer composition.

 To ensure the possibility of applying a fire-retardant foaming coating, obtained on the basis of this composition, on vertical surfaces, that is, to increase the viscosity of the outer surface of this coating, it is desirable that the polymer composition additionally contains a matting agent - Aerosil in an amount of 2-2.5 wt.h.

 To accelerate the surface drying of the flame retardant expanding coating, it is desirable that the polymer composition additionally contains chlorinated rubber in an amount of 0.4-0.5 wt.h.

 It is desirable that the polymer composition additionally contains an inorganic pigment in an amount of 0.5-2.0 wt.h.

 Application of the proposed composition to the protected products can be carried out by any known means: brush, dousing, dipping, spraying using mechanized means. A coating with a thickness of 1-1.5 mm without the above technical additives is aged on products at room temperature for 30-60 hours.

The cured polymer composition has the following physical and mechanical properties:
Elongation,% - 350-450
Bounce elasticity,% - 32-35
Tensile strength, kgf / cm ² - 46-55
The temperature range of foaming coating, ^o C - 140-180
The fire-retardant properties of the foaming coating obtained on the basis of the proposed polymer composition were evaluated under the influence of an open flame with a temperature of 600 ^o C on the segments of rubber sleeves with filament braid of various diameters 30 cm long with the application of a layer of the required thickness. By the drop in the overpressure of the inert gas supplied to the closed volume inside the rubber sleeve, the time of its burning was recorded.

 Example 1. Pre-crushed and mixed 6 g of ammonium phosphate-disubstituted, 3 g of paraform, 2 g of urea are introduced with stirring in 20 g of glue based on chloroprene rubber and applied with a brush to pieces of rubber sleeves to obtain a layer 1.5 mm thick. Samples are dried and cured at room temperature for 45 hours.

 The test results of the polymer compositions obtained by the above method are presented in table 1.

 The burn-out time of a piece of uncoated rubber sleeve is 2 minutes.

From the table. 1 it can be seen that the burning time of rubber-cord sleeves with a flame retardant foaming coating with a thickness of 1.5 mm is 9-11 minutes When exposed to an open flame (600-800 ^o C), the coating foams with the formation of a layer of foam coke, which protects the protected surface from burning.

 Example 2. In the composition of the polymer composition similar to example 1, an additional plasticizer is added — chloroparaffin. Changes in the properties of a flame retardant expandable rubber-based coating as a result of the introduction of a plasticizer are given in table. 2.

 From the table. 2 shows that with the introduction of chloroparaffin more than 5 parts by weight, the strength characteristics of the flame retardant foaming coating are significantly deteriorated.

 Example 3. The composition of the polymer composition obtained in example 1, is additionally introduced matting agent - Aerosil - in the amount of 2-2.5 wt.h.

 The modified composition has the following indicators of stackability (see table. 3).

Example 4. In the composition of the polymer composition obtained in example 1, an additional 0.4-0.5 wt.h. low molecular weight chlorinated rubber (chlorinated natural rubber). As a result, the drying time of the resulting coating at a temperature of 20-25 ^o C was almost halved from 45 hours to 24 hours

Thus, the proposed polymer composition in comparison with the known compositions has a low foaming start temperature, which makes it possible to protect structures from the effects of low temperatures of 600-800 ^o C with a small thickness of fire-retardant foaming coating (1.0-1.5 mm). In addition, a coating based on the proposed polymer composition can be applied to vertical surfaces due to the presence of a matting agent in the composition of the proposed composition. The fireproof foamable coating based on the proposed polymer composition has significant elasticity achieved by introducing a plasticizer, for example chlorine paraffin, into its composition, which makes it possible to use this coating to protect flexible structural elements, including those made on the basis of rubber, for example rubber cord sleeves.

Claims (4)

 1. A polymer composition for a fire retardant expandable coating comprising a chlorine-containing binder, ammonium phosphate disubstituted and a foaming additive, characterized in that the composition contains a one-component adhesive based on chloroprene rubber as a chlorine-containing binder, as a foaming additive paraform and urea in the following ratios of components, .h. One-component adhesive based on chloroprene rubber 100
Disubstituted ammonium phosphate 50 60
Paraform 30 40
Urea 10 20
2. The composition according to claim 1, characterized in that it further comprises a plasticizer chloroparaffin in an amount of not more than 5 parts by weight  3. The composition according to PP.1 and 2, characterized in that it further comprises a matting agent Aerosil in an amount of 2 2.5 wt.h.  4. The composition according to PP.1 to 3, characterized in that it further comprises chlorinated rubber in an amount of 0.4 to 0.5 wt.h.  5. The composition according to PP.1 to 4, characterized in that it further comprises an inorganic pigment in an amount of 0.5 to 2.0 wt.h.

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