CS227109B1 - Fireproof coating composition - Google Patents

Description

The object of the invention is a fire protection coating material intended for fire protection of steel and reinforced concrete load-bearing structures or other elements.

Protection of load-bearing structures in the building industry against the effects of fire has recently become increasingly important. This is not so much about protecting the material from burning, as most load-bearing structures have been solved on the basis of non-combustible substances in recent years, but rather protection against the effects of elevated temperature and consequences of shape deformations, loss of stability, etc.

So far the most widespread method of protection of load-bearing structures is the cladding or cladding of the structure with thermally insulating board materials. The structures, especially the supporting columns, are lined with brick masonry, often with the addition of a perlite mortar to increase thermal insulation. Just as often, cladding boards based on cement-bonded fibrous materials, "plasterboard, asbestos or asbestos-cement boards, in many cases combined with other materials such as aluminum foil, are used. Foam-based boards, boards with a high content of perlite, keramzite, vermiculite, platelet mica etc. are also used. These boards are screwed, nailed, lined or fixed in a number of other ways to ensure the strength of the joint even at high temperatures .

Since the present methods mentioned above have a number of disadvantages, especially from an economic point of view, they require a lot of labor, the sheet materials themselves are very expensive and the method of fastening is laborious and not always completely reliable, different types of fire protection coatings have been developed. These are mostly mortars and plasters with a high content of expanded perlite or vermiculite, fibers based on glass, asbestos, mineral and basalt or slag wool. As binders are mostly cements or organic binders based on acrylic dispersions, phenolic resins, etc.

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- 2 With these plasters a high thermal insulation effect can be achieved, but even in these cases there are various problems. Indeed, most of the coatings have a very high weight, the specific gravity is usually from 500 to 1200 kg / m and since these mortars have to be applied to the structure often in several centimeters layers, they often load the structure above the carrying limit. In addition, the binders used are usually sensitive to the presence of atmospheric moisture or running water, and the spray coatings are removed after some time. Similarly, these coatings cannot be used in cases where the structure is loaded dynamically, the aesthetic aspect of the case is not negligible, since the surface of the coatings is relatively unsightly and the surface treatment is again highly laborious and expensive.

As a result, various methods of fire protection are being developed, ranging from glass wool insulation, wrapping the structure with various types of non-flammable mats, to building costly sprinkler fire extinguishers that protect the most vulnerable parts of the structure by spraying water or spraying water mist temperature above the specified limit.

One of these methods is also fire protective coatings. These are generally so-called foamable masses, ie substances which are able to form from a relatively thin, usually one to five millimeter layer at higher temperatures often a multi-centimeter layer of thermal insulating foam, which protects the supporting structure against the effects of elevated temperatures. The chemical nature of these systems consists in the fact that the functional mixture contains phosphoric acid cleavers, substances that easily carbonise and various types of usually nitrogen blowing agents. All of these additives can be either one agent per group, or mixtures thereof in different proportions. Accordingly, it is also possible to achieve different types and heights of foam layers, both syntactic foams and open-structure foams, with different cell sizes, with different durability and heat resistance, different adhesion to the substrate, sagging and other properties. To date, no regularity has been established that would allow the inheritance of foams having the desired properties. On the other hand, these reactions are so sensitive that often only a small interchange of components with a similar structure or only a change in the content of a particular component is sufficient and the results and effects are quite different. Significant changes always occur

- 3,227,109 when the base binder is replaced, which also determines most of the specific properties of the resulting coating.

In view of these patterns, but on the contrary, due to the high effect and considerable advantages of these coatings for fire protection, various types of coatings are being developed all over the world based on the same general basis. In addition to many foreign countries use this principle, for example, MS. AO 197 520, which deals with the protection of polyester and epoxy glass laminates, AO 202 359, which uses for coating systems in addition to unsaturated polyester resins and acrylic resins, etc. About 300 other combinations and mixtures for these coatings are known abroad, mostly patented.

The advantage of these systems is primarily the low weight of the paint on the structure, which means that the structure is not additionally loaded. Thin layers of coatings do not significantly change the overall appearance of the structure, nor does the slenderness ratio of the building elements change. The coatings usually adhere very well to the substrate, which, however, must be properly treated beforehand. Then it is possible to reliably protect even dynamically stressed structures. Due to thin layers and low material consumption, labor costs and overall costs tend to be lower. A great advantage is the fact that the protection can be carried out in interiors where technology is already built. On the other hand, a considerable disadvantage of these coatings is the relatively short lifetime and low fire resistance values, which are around 30 minutes.

Some of these disadvantages are overcome by the coating composition of the present invention consisting of a binder and retardant composition, wherein the polyvinyl chloride binder composition comprises a soluble polyvinyl chloride or a copolymer thereof such as vinyl chloride and vinyl acetate, an aromatic hydrocarbon and ketone solvent, filler and plasticizer. based on chlorinated organic compounds. The retardant composition comprises a mixture of readily carbonizing agents, blowing agents, and a phosphoric acid catalyst component. It is an object of the invention that the coating composition consists of 100 parts by weight. binder mixtures containing from 5 to 10 parts by weight of binder; % of polyvinyl chloride or its copolymer vinyl chloride-vinyl acetate; an organic solvent of acetone, methyl ethyl ketone and / or toluene, from 5 to 10%

- 4 227 109 parts by weight fillers and from 3 to 10 parts by weight. plasticizers which are trichlorodiphenyl to hexachlorodiphenyl or chloroparaffin. This applies to the binder mixture. The coating composition further comprises 80 to 120 parts by weight. % retardant mixtures containing 6 to 20 parts by weight of the composition; % hexamethylenetetramine, melamine, guanidine; % ammonium polyphosphate, ammonium phosphate, mixed triaryl phosphate, 10 to 25 parts by weight. of four to six hexavalent polyols. Preferably, pentaerythritol to tripentaerythritol, mannitol, sorbitol, arabite and up to 20 parts by weight of pentaerythritol. starch, carboxymethylcellulose dextrin, based on the retardant composition.

The solution according to the invention brings a number of advantages. In addition to the general advantages of using fire protection coating systems on steel structures in general, the coating according to the invention is characterized in particular by the low toxicity of the combustion products and the light smoke, which only slightly reduces the firefighters' orientation during intervention. Another advantage of the solution is also the relatively long lifetime of the coatings from the functional point of view, according to the existing tests at least double that of paints of other types. Also, the functional fire resistance time ranges from 30 to 60 to 70 minutes, which is twice as much the usual fire resistance achieved by these coatings. Due to these features, some applications that have not been realistic, such as fire protection of steel doors and hatches for 30 and 45 minutes, have been successfully solved. The economic effect that the invention brings only in these applications ranges from 5 to 25 thousand crowns per one door in today's sessions. These effects have already been demonstrated.

Example 1

The coating composition according to the invention has the following composition:

Part A) Binder mixture

5.2 parts by weight polyvinyl chloride parts mass. acetone

5.6 parts by weight talc 3 parts by weight chlorparaffin

Part B) Retarding mixture of parts by mass. hexamethylenetetramine

15.2 parts by weight ammonium phosphate, prim.

parts by weight pentaerythritol

0.5 parts by weight starch

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Both parts A and B were mixed together at a ratio of 100:80. The resulting coating was homogenized on friction rollers and used for fire protection of steel doors.

Example 2

The following coating composition was prepared for the anticorrosive protection of the load-bearing steel structure by a surface metal insulating bath:

AND) 5 parts wt 5 parts wt 23 parts wt 10 parts wt 12 parts wt 5 parts wt 10 parts wt 3 parts wt 7 parts wt (B) 5 parts wt 8 parts wt 7 parts wt 15 Dec parts wt 20 May parts wt 10 parts wt 15 Dec parts wt 5 parts wt parts, ie part A

copolymer vinyl chloride-vinyl acetate acetones methylethylketone toluene diatomaceous earth slate flour chloroparaffins pentachlorodiphenyl hexamethylenetetramine melamine guanidine mixed ammonium polyphosphate triaryl phosphate tripentaerythrite sorbitol carboxymethylcellulose

Both parts A and B were mixed together in a homogenizer at a ratio of 100 parts by weight. of mixture A and 120 parts by weight of the composition. The resulting viscous coating was further treated on a plate friction mill.

In addition to building structures, it is also possible to protect various types of thermally stressed housings in mechanical engineering, metal parts and engine parts, cables and cable distribution systems and other structural elements by coating the composition.

Claims (1)

Coating fire protection compound for fire protection of steel and reinforced concrete structures, consisting of a binder and a retardant mixture, the binder mixture based on polyvinyl chloride comprising a soluble polyvinyl chloride or a copolymer thereof, e.g. vinyl chloride and vinyl acetate, an aromatic hydrocarbon and ketone solvent, filler and a chlorinated organic compounding agent, while the retarding composition comprises a mixture of readily carbonating substances, blowing agents and a phosphoric acid catalyst component, characterized in that the coating composition consists of 100 parts by weight. % of a binder mixture comprising from 5 to 10 parts by weight of binder; % polyvinyl chloride or a vinyl chloride-vinyl acetate copolymer thereof; % of an organic solvent of acetone, methyl ethyl ketone and / or toluene; fillers and from 3 to 10 parts by weight. 80 to 120 parts by weight of a plasticizer which is trichlorodiphenyl to hexachlorodiphenyl or chloroparaffin, based on the binder mixture; % retardant mixtures containing 6 to 20 parts by weight of the composition; % hexamethylenetetramine, melamine, guanidine; % ammonium polyphosphate, ammonium phosphate, mixed triaryl phosphate; four. % to about 6-valent polyalcohol; starch, dextrin, carboxymethylcellulose, based on the retarding composition.