RU2516127C2 - Fireproof composition for cable "kl-1" - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to construction materials, namely to field of fireproof materials, and is intended for application of fireproof coating on single cable, bundle of cables or cable lines in construction of different buildings and constructions for ensuring nonproliferation of flame on cable surface. Fireproof composition includes, in wt %: melamine - 10.5-25, ammonium polyphosphate - 10-30, titanium dioxide - 0.5-7, pentaerythritol - 10-17, dispersion of vinylacetethylene - 10-50, plasticiser - 0.5-5, ethylene glycol - 0.5-5 to reduce minimal temperature of film formation, paraffin-based foam extinguisher - 0.1-1, hydroxyethylcellulose - 0.1-0.8, as structure-forming agent and reological additive and water - the remaining part. Coating based on obtained fireproof composition does not require reduction of current loading, does not crack and does not impair adhesion to surface in the process of exploitation.

EFFECT: invention can be used in residential and industrial buildings.

Description

The invention relates to construction materials, in particular to the field of fire retardant materials, and is intended for applying a fire retardant coating to a single cable, a bundle of cables or cable lines during the construction of various buildings and structures to ensure flame propagation over the cable surface.

The technical result is to increase flame retardant efficiency, reduce smoke generating ability and toxicity of combustion products.

The invention can be used in residential and industrial buildings, engineering, energy facilities and nuclear power plants.

Known fire retardant composition for cables (RF patent No. 2272057 C1) comprising an acrylic dispersion as a binder, magnesium oxide, borates, antimony oxide, salts of phosphoric acid and preservative additives. The disadvantage of this composition is the use of toxic antimony (III) oxide as a flame retardant.

The closest analogue is fire retardant paint (US patent No. 6251961) including, parts by weight:

ammonium polyphosphate and / or phosphate 4-10 acrylic dispersion 5-30 pentaerythritol 5-25 titanium dioxide 5-25 melamine 5-50 plasticizer and water up one hundred

The disadvantages of this flame retardant composition by cable is the requirement to reduce current loads, the use of an acrylic copolymer, prone to brittleness and cracking at low temperatures as a binder, as well as the high toxicity of combustion products according to GOST 12.1.044-89.

The objective of the present invention is to increase the fire-retardant efficiency of the coating by improving the adhesion, lowering the film-forming temperature of the material, reducing the toxicity of the combustion products and the possibility of using a fire-retardant coating without reducing current loads.

The problem is solved in that the fire-retardant composition by cable, including melamine, ammonium polyphosphate, titanium dioxide and pentaerythritol, contains instead of an acrylic copolymer it contains a vinyl acetate-ethylene copolymer, as well as functional additives - ethylene glycol to lower the minimum film-forming temperature, a plasticizer, a paraffin-based antifoam, hydroxyethyl cellulose as a structure-forming agent and a rheological additive and water, in the following ratio of components, wt.%:

Long Chain Ammonium Polyphosphate 10-30 Melamine 10.5-25 Pentaerythritol 10-17 Titanium dioxide 6.5-7 Dispersion of a vinyl acetate ethyl copolymer 10-50 Plasticizer 0.5-5 Antifoam agent 0.1-1 Hydroxyethyl cellulose 0.1-0.8 Ethylene glycol 0.5-5 Water rest

In this case, the term dispersion of a vinyl acetate ethyl copolymer is understood as a product representing a dispersion based on a copolymer of ethylene and vinyl acetate in the indicated amounts. An example of a plasticizer is tricresyl phosphate and other phosphate plasticizers commonly used for such formulations.

The fire-retardant composition is prepared by cable as follows: the components are sequentially loaded into a mixing container and mixed for 100-120 minutes.

The structural features of the vinyl acetate-ethylene copolymer stipulate the possibility of using a fire-retardant coating without reducing current loads; in addition, the vinyl acetate-ethylene copolymer also plays an important role in achieving radiation resistance.

The method of application to the cable surface is airless spray or by hand.

On a pre-prepared cable surface, paint is applied with a thin layer (0.5-0.8 mm) depending on the cable insulation material.

Assessment of fire-retardant coating efficiency was carried out according to GOST R53311.

The service life of a paint-based coating without direct contact with drip moisture is at least 15 years.

The transportation and storage of paint is carried out at temperatures from plus 5 ° C to plus 40 ° C.

Claims (1)

The fire-retardant composition for applying to the cable surface, including melamine, ammonium polyphosphate, titanium dioxide and pentaerythritol, contains a dispersion of a vinyl acetate-ethylene copolymer, as well as ethylene glycol to lower the minimum film-forming temperature, a plasticizer, an antifoam based on paraffin, hydroxyethyl cellulose as a structure-forming agent and rheological additive , in the following ratio of components, wt.%:
Long Chain Ammonium Polyphosphate 10-30 Melamine 10.5-25 Pentaerythritol 10-17 Titanium dioxide 0.5-7 Dispersion of a vinyl acetate ethyl copolymer 10-50 Plasticizer 0.5-5 Antifoam agent 0.1-1 Hydroxyethyl cellulose 0.1-0.8 Ethylene glycol 0.5-5 Water rest