DE3732199C1 - Process for the production of a flameproofed foam - Google Patents

Abstract

A flameproofed foam based on polyurethane is produced by impregnating an open-cell foam having a uniform cell structure and containing 10-14 pores/cm, and having an air permeability of 50-150 l/min and a density of 14 to 60 kg/m<3> with zinc salts of metapolyboric acids as solid-containing carboxylated chloroprene latex in an amount of 5-800% by weight, based on the initial density of the foam, in such a way that all the cell webs and the remainder of the cell walls are uniformly and homogeneously covered or coated with the chloroprene latex containing the zinc salts.

Description

The invention relates to a method for Production of a flame retardant foam based on polyurethane with a solids containing organic binder system is soaked.

Such a flame-retardant foam is known from US-PS 44 39 472. It is called Binder system chloroprene latex and as a solid in essential alumina hydrate used.

This aluminum hydroxide does indeed cause a corresponding Loading has a relatively good fire protection however, the disadvantage is a high smoke density in the event of a fire to effect. In addition, the chloroprene latex split off in significant amounts of hydrochloric acid. Both phenomena are very disadvantageous when used such flame retardant foams as a cushion in public transport, especially when used in passenger seats by Airplanes. According to the test specification ATS 1000.001 In the event of a fire in the cabin, one may Aircraft among other things the smoke density as well as the the resulting toxic gases do not exceed certain values, to have enough time to escape the to ensure endangered passengers.

The invention is therefore based on the object Specify the process by which a foam is created  in addition to optimal fire behavior significantly less, at least in the initial phase Flue gases and toxic gases developed and beyond high elasticity values despite the required impregnation maintains.

To achieve this object, the invention provides that an open cell foam more evenly Cell structure with a pore number of 10-14 / cm, an air permeability of 50-150 l / min and a density of 14-60 kg / m³ with zinc salts of carboxylated metapolyboric acids as a solid Chloroprene latex in an amount of 5-800 % By weight, based on the initial bulk density of the foam, is soaked that all cell webs and remaining cell walls uniformly homogeneous with the the chloroprene latex containing zinc salt or be coated.

Although it is a flame retardant from WO 87/00852 Surface coating agent known to be essentially from a mixture of a liquid emulsion made of ethylene vinyl chloride polymer and a zinc borate powder and / or aluminum trihydrate. Such a thing Coating agent initially offers one good surface protection with one on this surface acting ignition source; there at higher temperatures the ethylene vinyl chloride polymer used as the binder but burns itself, it offers only an insufficient one Protection for the underlying untreated, normal flammable material, so this itself melts and burns. In addition, forms in Fire event when using this binder is only an insufficient one Carbon structure, so that it melts is also poorly prevented. Even though if you use this coating agent to impregnate Foam would be used next to the  worse fire resistance is also a significant Deterioration of the physical values of the so treated Foam, in particular the compression set, result so that a so treated Foam practically no more than cushion material can be used.

Only the impregnation of one that crosslinks during drying Chloroprene latex and special zinc salts with low crystal water content offer besides an optimal Fire protection also ensuring high physical Values that determine the long-term use of the do not reduce foam treated in this way.

Tricinctetraborate pentahydrate can be used as the zinc salt or tetrazinc dodecaborate heptahydrate be, the latter because of the least Crystal water content as particularly useful has proven.

It is useful if the ratio of chloroprene latex to the zinc salt 1: 1 to 1:10, in particular 1: 2 to 1: 4, based on the dry matter, is.

Regarding the initial density of the foam the chloroprene latex with the zinc salt as a solid be used in an amount of 500% by weight.

In particular through the use of the zinc salts mentioned there is primarily an improvement in flame retardant Behavior of the foam in small and large ignition sources, as detailed below is performed.

If necessary, however, it is also possible to use the zinc salt to replace up to 50% by weight with aluminum hydroxide,  without significantly increasing the smoke density in the event of a fire elevated.

An essential prerequisite for the functioning of the method according to the invention is, however Open cell of the foam used with a extremely uniform cell structure and as large as possible Cells, d. H. 10-14 pores per cm and one Air permeability of 50-150 l / min, the Air permeability on a test piece of 1 dm² Area and 5 cm thickness with a pressure difference of 100 Pa was measured. With such a foam the cell webs and cell walls become homogeneous the one containing chloroprene latex, which acts as a binder Solids encased or coated, where despite a significant amount of water - based on that Raw weight of the foam - full of open cells preserved.

Due to the surface of the foam matrix accumulated solids and the resulting change the pyrolysis behavior of the foam this in the event of fire and excessive heat no longer melt and drain, whereby in general, such a melt is particularly easy burns, but it forms a stable carbon structure, that once prevents this melting and to protects the material behind for longer. This carbon frame is relatively stable and breaks too in the case of prolonged exposure to the flame not together; it is also considerably more stable than when used alone of aluminum oxide hydrate arising very quickly Mineral framework. The emergence of this stable, with Minerals interspersed with carbon framework can also be when using the zinc salts mentioned also with achieve significantly lower drinking levels.

This brings another significant advantage as  Binder used carboxylated chloroprene latex, which with appropriate careful temperature control the drying of the soaked foam completely post-networked and in cooperation with the very causes uniform cellular structure of the foam, that the characteristic values of the foam matrix, such as elasticity, compression hardness, tensile strength, endurance test and compression set against each other the values of the original foam matrix only change slightly, with a range of values even improve. In addition to the considerable Flame retardant effect of the impregnation material also specific Material properties that the usability improve and increase the application possibilities, be significantly increased.

Parallel to the improvement of the flame protection behavior and the achievement of optimal physical values there is also an improvement in flue gas behavior, to a large extent with the changed course of carbonization the soaked foam matrix related.

It has been shown in particular that when used of the zinc salts mentioned, the so-called initial peak of Smoke gas development at the start of exposure to large Ignition sources are pushed back strongly and that a fundamental delay in the development of flue gas results. Rather, it occurs evenly Smoke gas density at a reduced level, where measurements according to ATS 1000.001 halve the Smoke density compared to the use of alumina Have resulted in hydrate.

This last appearance is particularly in passenger compartments of airplanes important because of the occurrence a fire caused by the usually occurring  strong smoke development for the passengers the escape route was cut off quickly because the Cabin like a thick opaque fog with Smoke was filled. On the other hand, if it is possible, once to reduce the smoke density and especially the The time at which these flue gases are formed is only around Delaying for a few minutes results from this a significant improvement in the possibility of escape Passengers.

Furthermore, it has been shown that after extinguishing further flue gas development to a large extent is omitted. That means that unlike untreated Foam, in which a visible flame over a longer period of time thick smoke rises and so the view continues increasingly worsened, in one according to the invention treated foam which is strong even in the event of fire reduced and in particular later onset smoke gas development after the flame has gone out increases, which increases the visibility and thus the Escape options can be significantly improved.

But also the development of hydrochloric acid, in particular from the chloroprene latex when used as Binder, is pushed back as much as later is explained.

As already stated, has proven to be inorganic Solid especially the use of tetrazinc dodecarborate heptahydrate in the form of 2 ZnO 3 B₂O₃ · 3.5 H₂O proved to be particularly advantageous, since this has the lowest crystal water content and the has the highest B₂O₃ content.

The following effects have in particular corresponding fire tests shown:

• The water of crystallization is released from 250 ° C.
• Precipitated zinc oxide precipitates, which is excellent acts as an absorber for the hydrochloric acid.
• Through the B₂O₃ takes place in the polyurethane frameworks dehydration instead of one Formation of pyrolysis gases.
• The melting and sintering tendency of the cell structures of the foam enveloping B₂O₃ and zinc borate not yet decomposed on the surfaces which shows cellular structures of the foam the following effects: by melting the boric acid at about 400 ° C water separates, the one Cooling causes, and on the other hand envelops the boric acid the cell webs of the foam matrix and prevented thus an oxygen admission, so that the Do not burn cell bridges. Above 800 ° C then the pure zinc borate melts, causing the Combustion of the cell webs that remain forming carbon structure lasts considerably longer.

The following is the example of some Effect of the materials used on the Flame protection behavior examined:

Example 1

A foam sheet made of PUR ether with a density of 20 kg / m³ and a thickness of 13 mm a mixture of carboxylated chloroprene latex and Tetrazinc dodecaborate heptahydrate (2 ZnO.3 B₂O₃3.5 H₂O) in a ratio of 1: 2 to 400% of its own weight soaked so that a foam of 100 kg / m³ resulted. For the impregnating agent used the following recipe is given as an example  be, the parts mentioned refer to the obtain the corresponding parts by weight of dry matter:

100 parts of carboxylated chloroprene latex
200 parts of zinc borate
10 parts of chlorinated paraffin
15 parts of antimony trioxide
15 parts of zinc oxide
5 parts of melamine resin

The chlorinated paraffin used serves as flame protection for the resulting pyrolysis gases, the Antimony trioxide intensifies this effect; the Zinc oxide serves as a crosslinker for the chloroprene latex and the melamine resin is used as an additional carbonation aid used.

With this foam soaked with the above recipe was a normal PUR foam with a Density of 45 kg / m³ encased and in accordance with FAR 25 853c checked, d. H. with a kerosene burner a flame of 1035 ° C and a power density of 11.5 W / cm² for two minutes from a distance of Flamed 102 mm.

After the flame was swung away, the flame showed Upholster a total weight loss of only 5.8%, which is significantly less than that after Test specification allowed value of 10%. Further revealed no afterburning, no dripping of foam melt and no burning of the soaked foam layer.

With regard to the smoke density, the following values were recorded in Comparison of one with the zinc borate according to the invention treated foam and one in conventional Only with foam soaked with aluminum hydroxide  measured:

This clearly shows that when using the mentioned zinc salts to average the flue gas density is more than half lower than previously usual solids and that the maximum of now significantly reduced smoke density about 50% later. In order to is so soaked even when using one Foam as a seat cushion in the passenger compartment of an aircraft the escape option described above significantly improved.

Example 2

A 13 mm thick piece of foam that in the same Way as impregnated in Example 1 was by a Bunsen burner flame with a temperature of Flamed above 1000 ° C from a distance of 15 mm. The Foam withstood the flame for more than 1 hour without to blow. He also fulfilled that Flue gas test according to ATS 1000.001.

Example 3

A foam according to Example 1 was made with polychloroprene latex and the zinc salt soaked in a ratio of 1: 3 and checked accordingly 1.

The weight loss was only 4%.  

Example 4

A foam according to Example 1 and one Impregnation of polychloroprene latex and a zinc salt in the Ratio 1: 2 was in a thickness of 30 mm Test pad made of solid material from the FAR test 25 853c subjected. The total weight loss was 6%.

The same material resisted a Bunsen burner longer than 30 min.

Overall, this results in a foam with one outstanding fire behavior, d. H. the foam melts even with a large ignition source and high The effect of temperature does not, it does not burn and that Generation of pyrolysis gases is largely suppressed, so that the risk of a flashover is also excluded is. The smoke gas development is considerable less and especially starts much later, while the physical values over the unimpregnated At least keep foam. Here did u. a. reveal that the compression set is only 4%, d. H. the suitability of one so treated Foam as the seat cushion material is opposite an untreated foam practically not restricted or changed.

Claims (6)

1. A process for producing a flame-retardant polyurethane-based foam which is impregnated with an organic binder system containing solids, characterized in that an open-cell foam has a uniform cell structure with a pore number of 10-14 / cm, an air permeability of 50-150 l / min and a density of 14 to 60 kg / m³ with zinc salts of metapolyboric acids as a solid containing carboxylated chloroprene latex in an amount of 5-800 wt .-%, based on the initial density of the foam, soaked that all cell webs and remaining cell walls uniformly homogeneously coated or coated with the chloroprene latex containing the zinc salts. 2. The method according to claim 1, characterized in that that used as zinc salt tricentetraborate pentahydrate becomes. 3. The method according to claim 1, characterized in that as the zinc salt tretrazinc dodecaborate heptahydrate is used. 4. The method according to any one of claims 1-3, characterized characterized in that the ratio binder system to Zinc salt 1: 1 to 1:10, in particular 1: 2 to 1: 4. 5. The method according to any one of claims 1-3, characterized  characterized in that the binder system with the zinc salt as a solid in an amount of 50-500% by weight, based on the initial density of the foam, is used. 6. The method according to claim 1, characterized in that the zinc salt up to 50% by weight through aluminum Hydroxide is replaced.