RU2320954C2 - Method for safe storage of explosive and inflammable objects and fireproofing composition - Google Patents

Abstract

FIELD: storage of explosive and inflammable objects.

SUBSTANCE: the method consists in packing of the mentioned objects in containers, piling of the containers and storage of the piles in warehouses or in open areas, the piles are coated with a fireproofing material made of a flexible net of mineral fiber with a fireproofing composition on the basis of intercalated graphite applied onto it. The offered fireproofing composition contains chloroprene rubber, zinc borate, chlorinated paraffin, phenolformaldehyde resin, ammonium polyphosphate and intercalated graphite.

EFFECT: enhanced efficiency of protection from fires and explosions, provided a reserve of time for beginning of fire protection actions.

7 cl, 1 tbl

Description

The technical field to which the invention relates.

The group of inventions relates to the field of storage of explosive and flammable objects, namely, to preventive measures that prevent the occurrence of fires and explosions, carried out in warehouses for storage of explosive and flammable objects, and can be used in places of compulsory accumulation of a large number of explosive and flammable objects.

State of the art

The patent RU 2206865 discloses a method for storing and transporting explosive objects, including their placement in containers separated from each other. The entire mass intended for storage is divided into separate parts, each part is placed in a separate container localizing the explosion products mounted on an individual vehicle, the tanks are moved to the joint storage place and placed at a distance from each other, at least two values of the expected deformation of the tank wall at internal explosion.

This method provides an increase in group explosion safety during transportation and storage of large masses of explosive objects.

The closest method to the proposed one is the method of explosion-fire prevention in warehouses for storage of explosive objects, which consists in applying a fire-retardant coating to wooden structures, as well as to the surface of a rigid or elastic material pre-installed on wooden structures, in particular plastic, plywood, film, fabric, and time sheet camouflage coating (see RU 2234662).

The closest composition to the proposed disclosed in patent RU 2131448.

In accordance with RU 2131448, the composition contains, parts by weight: chloroprene rubber - 100, intercalated (oxidized) graphite with a degree of expansion of 50-400 - 50-100, chloroparaffin with a chlorine content of 25-30 wt.% - 40-60, mixture calcium carbonate and silicon oxide in an equal weight ratio of 35-45 and a vulcanizing mixture of 15.

However, the known technical solutions can find only limited use, which is associated with high labor costs when coating in the field. In addition, the preparation of the surface of the boxes for storing explosive and flammable objects is of great importance when applying the coating, namely their cleanliness and the complete absence of moisture both on their surface and in volume (in the case of wooden products). Neglect of these factors will lead to a significant reduction in the service life of the coating.

The disadvantages of the known technical solutions include the difficulty of providing fire and explosion-proof storage of explosive and flammable objects.

Under real storage conditions of explosive and flammable substances and objects, standards apply, according to which the time interval between the beginning of smoke and the beginning of fire extinguishing should not exceed 15 minutes.

As a rule, explosive hazard storage facilities are equipped with special fire extinguishing means that are deployed during this standard time and begin to operate effectively.

However, it is extremely important that during this regulatory period of time the fire cannot spread and the situation does not get out of control.

Disclosure of the invention.

The objective of the invention is to increase the effectiveness of protection against fires and explosions, providing a reserve of time for the start of fire fighting and preventing the wetting of explosive and flammable objects.

The problem is solved by the method of safe storage of explosive and flammable objects, including stacking them in containers, stacking containers in stacks and storing stacks in vaults or in open areas, while the stacks are covered with fire retardant material made of a flexible network of mineral fiber coated with heat-expanding flame retardant based on intercalated graphite.

In private embodiments of the invention, the problem is solved by the fact that the stacks are covered with fire-retardant material laid in at least one layer, characterized by a surface density of one layer not exceeding 350 g / m ² .

It is desirable to cover the stacks with a fire retardant material made of a flexible network based on fiberglass and / or basalt fiber and / or silica fiber.

The problem is also solved by a flame retardant containing chloroprene rubber, chloroparaffin and intercalated graphite, which additionally contains ammonium polyphosphate, zinc borate and phenol-formaldehyde resin in the following ratio, wt.%:

Chloroprene rubber 22.0-34.0 Zinc borate 5.0-11.0 Chloroparaffin 2.0-6.0 Phenol formaldehyde resin 12.0-16.0 Ammonium polyphosphate 12.0-16.0 Intercalated graphite rest.

In particular embodiments of the invention, the composition may further comprise 0.5-1.1% antimony trioxide.

In addition, it may additionally contain 0.5-2.0 wt.% Masking dye, which may use chromium oxide in an amount of 0.8-1.6 wt.%

The invention consists in the following.

The storage of explosive and flammable substances under the covering material from a flexible network based on mineral fibers, such as, for example, fiberglass, basalt or silica fiber with a flame retardant coating based on thermally expanded graphite, is very efficient - this material is easily laid directly on stacks, allows air and explosives to pass through and flammable objects do not damp, and the coating on the grid based on intercalated graphite has excellent fire retardant properties.

The term "intercalated graphite" covers a wide range of chemical compounds - products of the introduction of atomic and / or molecular systems into the graphite matrix. A number of intercalated graphites, such as graphite bisulfate, graphite nitrate, the so-called oxidized graphite, etc., has the ability, when heated, to multiply increase in volume and form a foam that prevents the spread of fire.

To achieve the declared technical result, it is sufficient to use only a thermally expanded composition with a binder as a flame retardant.

However, the effectiveness of the foam that prevents the spread of fire can be greatly enhanced by introducing special additives into the fire retardant composition that can improve, for example, the skeleton of the foam and other operational properties.

In particular, in the best embodiment of the invention, an intercalated graphite composition containing the following components in wt.% Can be used:

Chloroprene rubber 22.0-34.0 Zinc borate 5.0-11.0 Chloroparaffin 2.0-6.0 Phenol formaldehyde resin 12.0-16.0 Ammonium polyphosphate 12.0-16.0 Intercalated graphite rest.

The joint introduction of all these components into the flame retardant composition in the claimed ratios leads not only to an increase in the foaming ability of the flame retardant, but also to an improvement in the mechanical strength and skeleton of the resulting foam.

An additional introduction of antimony trioxide significantly enhances the flame retardant properties of another flame retardant contained in the composition - chloroparaffin. The simultaneous introduction of these two components in the claimed amounts allows you to achieve a synergistic effect - a sharp increase in flame retardant properties.

The introduction of chromium oxide allows you to achieve camouflage properties of the coating material, which is necessary in some conditions, for example, during field storage of ammunition. The coating takes on the color khaki, which has long-term durability.

To obtain a flame retardant composition and material based on it, for example, the following materials can be used:

- Chloroprene rubber in accordance with TU RA 00204145-0651-97 or chloroprene rubber M-40 from Denka

- Intercalated graphite in accordance with TU 55728-006-13267785-96

- Zinc borate in accordance with TU 113-07-015-91

- Formaldehyde resin in accordance with TU 6-051725-73

- Chlorinated paraffin HP-470 in accordance with TU 6-01-16-90

- Antimony trioxide in accordance with TU 48-14-1-88

- Ammonium polyphosphate in accordance with TU 2148-029-13267785-04.

In addition, upon receipt of the material, solvents are used - ethyl acetate, grade A (B) according to GOST 8981-78 and / or Nefras C2-80 / 120 gasoline according to TU 38.401-67-108-92.

As a flexible base, a mesh of mineral fibers is used, for example, a fiberglass mesh of the SSAFP brand according to TU 2296-036-00204949-97 with a mesh size of 5 × 5, 5 × 6 and others, with a surface density of 125 to 235 g / m ² . Such a network has the necessary flexibility, easily pounces on piles of ammunition and covers them reliably without cluttering and snugly against the piles.

The invention is as follows.

The preparation of the rubber mixture was carried out on rollers.

1.5 kg of chloroprene rubber, 0.43 kg of zinc borate, 0.75 kg of ammonium polyphosphate and 0.22 kg of plasticizer (chloroparaffin 470) were sequentially loaded into the gap between the rollers with simultaneous rolling. Then, the obtained plates were removed.

The plates of the obtained rubber mixture removed from the rolls were crushed and placed in a mixer. Then, solvents were added to the mixer - 5.4 kg of ethyl acetate and 2.7 kg of nefras, then the remaining components - resin SF-010-0.75, antimony trioxide - 0.04 kg, chromium oxide - 0.05 kg and oxidized graphite - 1.6 kg, the mixer was stirred until homogeneous.

Got a paste, which contained 40 wt.% Flame retardant and 60 wt.% Solvent.

Next, the paste was applied on a grid of SSAFP with a cell size of 5 × 5.

The grid was tucked into a glue machine, glued and pasted on it, dried and received fire-retardant material in the form of a roll.

Fire-retardant materials obtained in accordance with the above, were tested at the test site.

Explosive objects packed in containers, and then in stacks, were coated with fireproof material in two layers. So that the material does not puff, it was fixed for a complete fit of the stacks.

Material tests were carried out in accordance with the following.

Prepared stacks were lined with combustible material, set on fire, providing a standard fire curve. On the reverse side of the material, the time to reach a temperature of 175 ° C was measured from the reverse side of the material at a distance of 40 mm from the box to the mesh with a fire retardant coating applied to it.

Table 1 shows materials with flame retardants with different contents of the composition, as well as the properties of these materials.

As follows from the table, the material has a high degree of expansion under the influence of temperature, which ensures that when exposed to fire, a continuous "coat" covering the network openings is obtained, and fire-retardant efficiency exceeds 30 minutes, which significantly exceeds the standard time by more than two times.

Table 1 Content of components in flame retardant composition Composition 1 Composition 2 Composition 3 one. Chloroprene rubber 22 28 34 2. Zinc borate 11.0 8.0 5,0 3. Ammonium polyphosphate 16,0 14.0 12.0 four. Chloroparaffin 2.0 4.1 6.0 5. Resin SF-010 12.0 14.0 16,0 6. Antimony trioxide 1,1 0.8 0.5 7. Chromium oxide 1,6 1,1 0.8 8. Intercalated graphite rest Properties of flame retardant material 9. The surface density of the material, g / m ² 310 330 350 10. The degree of expansion of the material 600,0 560.0 540.0 eleven. Fire retardant efficiency, min 34.8 32,3 30,2

Claims (7)

1. A method for the safe storage of explosive and flammable objects, including stacking them in containers, stacking containers in stacks and storing stacks in storage or outdoors, characterized in that the stacks are covered with flame retardant material made of a flexible mineral fiber network coated with it thermally expanding flame retardant based on intercalated graphite. 2. The method according to claim 1, characterized in that the stacks are coated with a fire retardant material laid in at least one layer, characterized by a surface density of one layer not exceeding 350 g / m ² . 3. The method according to claim 1, characterized in that the stacks are coated with a fire retardant material made of a flexible network based on fiberglass and / or basalt fiber and / or silica fiber. 4. Fire retardant composition containing chloroprene rubber, chloroparaffin and intercalated graphite, characterized in that it additionally contains ammonium polyphosphate, zinc borate and phenol-formaldehyde resin in the following ratio, wt.%: chloroprene rubber 22.0-34.0 zinc borate 5.0-11.0 chloroparaffin 2.0-6.0 phenol formaldehyde resin 12.0-16.0 ammonium polyphosphate 12.0-16.0 intercalated graphite rest 5. The composition according to claim 4, characterized in that it additionally contains 0.5-1.1 wt.% Antimony trioxide. 6. The composition according to claim 4, characterized in that it additionally contains 0.5-2.0 wt.% Masking dye. 7. The composition according to claim 6, characterized in that as a dye it contains 0.8-1.6 wt.% Chromium oxide.