RU2738116C1 - Fire-retardant intumescent material - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to fire and heat protection material, which can be used as fire curtains. Disclosed is a fire-retardant intumescent material made in the form of a glass fiber fabric with a polymer coating applied thereon from a polyvinyl chloride composition containing a phosphoric acid derivative and dioctyl phthalate, wherein the composition further contains chlorinated paraffin, aluminum hydroxide, zinc borate and a phosphorus-boron-containing oligomer, and as a phosphoric acid derivative, the composition contains trichloropropylphosphate at the following weight ratio of components, pts.wt.: polyvinyl chloride 10.0, dioctyl phthalate 5.0, trichloropropylphosphate 35.0, chlorinated paraffin 9.0–14.0, aluminum hydroxide 22.0, zinc borate 13.0, phosphorus-boron-containing oligomer PBO 1.0–6.0.

EFFECT: high adhesion strength of bonding between plastisol-fabric layers and longer duration of fire-retardant material efficiency.

1 cl, 2 tbl

Description

The invention relates to a fireproof material that can be used as fire curtains.

Known fire retardant intumescent material consisting of an intumescent composition based on a plasticized polymer mass containing polyvinyl chloride, plasticizer, ammonium phosphate, pentaerythritol and amide, reinforced with a textile material (US Pat. GB 1408133, IPC C08K3 / 32, C08K5 / 52/06, 1975F114 ).

The disadvantage of this fire retardant material is the relatively low fire retardant properties.

Known fire-resistant textile material, which is a textile fabric from a mixture of polyester fibers or cotton or linen fibers, or with a mixture of cotton or linen fibers with woolen, coated with a discrete coating based on emulsion polyvinyl chloride containing talc or chalk and trichloroethyl phosphate ( RF Patent No. 2294411, IPC D06M15 / 244, D06M13 / 298, C09K21 / 14, C09D127 / 06, D06M101 / 04, D06M101 / 12, D06M101 / 32, C09K21 / 12, publ. 09/27/1997).

The disadvantage of this fire-resistant textile material is the relatively low fire-retardant properties.

Closest to the claimed is a fire retardant intumescent material (RF Patent No. 2091424, IPC S09K21 / 12, publ. 09/27/1997). The material is made in the form of a fiberglass cloth with a polymer coating applied to it from a polyvinyl chloride composition containing disubstituted ammonium phosphate as an ammonium salt of phosphoric acid and additionally as a plasticizer dioctyl phthalate. The intumescent component in the material is disubstituted ammonium phosphate and pentaerythritol.

The disadvantage of this material is that a high fire-retardant effect is provided by a significant thickness of the coating, and not by its properties.

The objective of the present invention is to develop a fire retardant intumescent material with a small coating thickness while maintaining the fire and heat protection efficiency of the material.

The technical result of the claimed invention is to increase the adhesive strength of the bond between the plastisol-fabric layers and to increase the duration of the fire retardant efficiency of the material.

The technical result is achieved by the fact that in a fire retardant intumescent material made in the form of a fiberglass fabric with a polymer coating applied to it of a polyvinyl chloride composition containing a phosphoric acid derivative and dioctyl phthalate, the composition additionally contains chlorinated paraffin, aluminum hydroxide, zinc borate and phosphorusboron-containing oligomer, and as a derivative of phosphoric acid, the composition contains trichloropropyl phosphate in the following mass ratio of components, wt. including: polyvinyl chloride 10.0, dioctyl phthalate 5.0, trichloropropyl phosphate 35.0, chloroparaffin 9.0-14.0, aluminum hydroxide 22.0, zinc borate 13.0, phosphorusboron-containing oligomer TSF 1.0-6.0.

The proposed intumescent fire retardant material uses the following components:

Polyvinyl chloride (PVC) - emulsion Slovinil E-671 plastisol base.

Dioctyl phthalate (DOP), trichloropropyl phosphate (TCPP), chloroparaffin (Chloroparaffin HP-470) are plasticizers.

Aluminum hydroxide, zinc borate - fire retardant fillers.

As a modifying additive that increases fire resistance and adhesion to tissue, a phosphorusboron-containing oligomer FBO (TU 40-461-806-66-07) is used.

Fiberglass ST-420 (TU 5952-331-00149363-2010) was used as a base.

The use of a phosphorusboron-containing oligomer TSF as a modifying additive with the claimed composition of the composition gives the fire retardant material increased fire resistance. The presence of TSF in the composition prevents the destruction of the fire-retardant material when exposed to high temperatures due to the formation of a more durable protective coke layer on the surface. In addition, there is a direct delivery of the phosphorusboron-containing oligomer to the zone of thermal action and coke formation, where radical-chain oxidation processes are inhibited. At the same time, the coke foam performs a heat-shielding function, prevents the heating and destruction of the material.

The fire resistance of the fire retardant material is achieved through the use of components that reduce flammability through a synergistic action. The synergists of the phosphorusboron-containing oligomer TSF, a combustion retarder, include aluminum hydroxide, zinc borate and halogen-containing plasticizer compounds. In addition, the additives used perform several functions, that is, they can simultaneously be: flame retardants, plasticizers, fillers, etc. For example, a great effect can be obtained by introducing a filler that decomposes with heat absorption. A classic example of such a filler is aluminum hydroxide Al (OH) ₃ , from which water is split off. In this case, heat is consumed both for heating the filler and for decomposition of the filler and heating the resulting water to the flame temperature.

Also, the TSF plays the role of an adhesion promoter - increasing the bond strength of the polymer coating from the polyvinyl chloride composition with glass fabric.

The declared amounts of phosphorusboron-containing oligomer TSF, make it possible to obtain a fire-heat-protective material with improved fire-retardant and adhesion characteristics.

Table 1 shows the compositions of the prepared mixtures.

Table 1

Ingredient, parts by weight Test case Squad number one 2 3 4 5 6 Pvc ten ten ten ten ten ten ten DOF 5 5 5 5 5 5 5 Thpf 35 35 35 35 35 35 35 Chloroparaffin HP-470 15 14 13 12 eleven ten nine Aluminum hydroxide 22 22 22 22 22 22 22 Zinc borate 13 13 13 13 13 13 13 TSF - one 2 3 4 5 6

Fire retardant intumescent material is manufactured as follows.

All dry ingredients in the recipe are thoroughly mixed. Then, while stirring, a mixture of plasticizers, pre-mixed, is added in small portions. The resulting homogeneous mass is aged for 24 hours for ripening. At this time, the PVC particles swell under the influence of the plasticizer, which increases the viscosity and facilitates the gelation process. The resulting paste is mixed again before further gelling of the plastisol. To study the resulting intumescent fire retardant material, plastisol is applied to a fiberglass cloth. The intumescent fire retardant material was kept in an oven for 10-15 minutes at a temperature of 150-165 ° C. The coating thickness was 0.65 mm.

The finished samples were subjected to the necessary tests.

Fire, heat-shielding and adhesive properties of the proposed material are shown in table 2.

table 2

Index Test case Squad number one 2 3 4 5 6 Sample warming up time to 100 ° С, s 11.0 13.0 20.0 28.0 16.0 14.0 12.0 Temperature after warming up for 60 s, ° С 165.7 164.1 143.4 115.8 124.9 144.9 165.4 Peeling adhesion strength, N 13.0 14.0 15.0 19.0 18.0 14.0 13.5

The assessment of the duration of the heat-shielding efficiency of the samples of fire-retardant material at high-temperature heating was carried out on samples with a size of 10 × 10 cm.

The assessment of the heating rate of the samples of fire-retardant material during high-temperature heating (heat resistance) was carried out as follows: the heating time of the reverse side of the sample to a temperature of 100 ° C was determined.

The sample was heated with an open flame of the Multiplaz-3500 plasmatron (GOST 12.2.007.8-75 "Electric welding and plasma treatment devices"), a temperature of 2000 ° C was created on the surface. The sample was fixed in a tripod at an angle of 90 ° to the plasma torch flame. To reduce the heat sink and to reduce the experimental error, the sample was insulated along the edge with asbestos.

To measure the temperature on the unheated surface of the sample, a S-300.3 "Photon" pyrometer (GOST 28243-96 "Pyrometers. General technical requirements") was used. The principle of operation of the pyrometer is based on measuring the power of the thermal radiation of the measuring object, mainly in the infrared and visible light ranges.

Peeling adhesion strength was determined according to GOST R 57514-2017.

Thus, a fire retardant intumescent material made in the form of a fiberglass fabric with a polymer coating applied to it from a polyvinyl chloride composition containing polyvinyl chloride, dioctyl phthalate, trichloropropyl phosphate, chlorinated paraffin, aluminum hydroxide, zinc borate and phosphorus boron-containing oligomer has a longer ratio of the components efficiency and high adhesive performance.

Claims (8)

Fire retardant intumescent material made in the form of a fiberglass fabric coated with a polymer coating of a polyvinyl chloride composition containing a phosphoric acid derivative and dioctyl phthalate, characterized in that the composition additionally contains chlorinated paraffin, aluminum hydroxide, zinc borate and phosphorus-boron-containing oligomer, and as a derivative phosphoric acid acid composition contains trichloropropyl phosphate in the following mass ratio of components, wt. h .: Polyvinyl chloride 10.0 Dioctyl phthalate 5.0 Trichloropropyl phosphate 35.0 Chloroparaffin 9.0-14.0 Aluminum hydroxide 22.0 Zinc borate 13.0 Phosphate-boron-containing oligomer TSF 1.0-6.0