DE1914282A1 - Use of fly ash as a refractory material in fire retardants - Google Patents

Description

Charles Emile Zwickert 108 bis, rue Jean-Jaure * s, 93-Noisy-le-Sec, France

Use of fly ash as a refractory material in fire retardants

The invention relates to the use of fly ash as, more refractory Substance in fire retardants, which is particularly advantageous for the production of fire-resistant components, in particular in the form of plates.

There are already numerous for the manufacture of fire retardants suitable refractories known, e.g. mica and asbestos. However, the known refractory materials have the disadvantage that they are usually expensive and often difficult to handle and process. This is particularly the case if these refractory materials are intended to increase the fire resistance of building elements, in particular building boards.

Such building panels, which are used, for example, as cladding for walls, partition walls, floors, ceilings, doors and safes must be fire-resistant and, especially if a fire breaks out, the flames must be able to penetrate from one side prevent the building boards on the other side of the same.

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The known, commonly used building boards usually have finely divided, held together with the aid of an adhesive Fabrics and / or cladding attached to the panels by glueing on. If the starting materials are finely divided substances, these can, for. B. chips or particles of

resin
Hardwood or XMXX materials, particles of materials on a flax or canvas basis, natural or artificial fibers, materials of mineral origin or the like. The building boards made of such materials are either compact or have x ^ iron channels, which, for example, insulating material, ζ. Β. Sand. Customary known processes, advantageously pressing or extrusion processes, can be used to produce such plates.

Such building panels are inherently very sensitive to the effects of fire and it is difficult to use those provided by the consumer To meet fire resistance requirements, without dividing such panels to Hers refractories such. B. asbestos or asbestos derivatives to use, which, however, the production costs the plates are increased very much. In practice, therefore, it is usually an unsatisfactory compromise closed.

It has now surprisingly been found that for the production of refractory components that are completely satisfactory both in terms of value for money and in terms of fire resistance, In particular building boards, suitable fire retardants can be achieved if they are made as a fire-resistant material the fly ash generated in thermal power plants is used.

The invention therefore relates to the use of fly ash as a refractory material in fire retardants.

The fly ash used according to the invention falls in thermal power plants as a residue and consists of fine particles that come with

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The smoke is discharged and intercepted with the help of mechanical and electrostatic dust collectors before it leaves the chimneys will.

The inventive use of fly ash as a refractory Substance in fire retardants opens up a new use for fly ash in a particularly advantageous manner which is a very cheap incineration residue that occurs in very large quantities, for which it has been used so far by far not enough uses are known.

The fly ash used according to the invention also has the advantage that it is in the form of an extremely fine powder, the fineness of which is comparable to that of talc, so that it is easy is processable.

For incorporation in components whose fire resistance is to be increased, the fly ash can advantageously with a Dispersants are mixed. It has been shown that in the manufacture of building boards for gluing fine-grained Fabrics usually used adhesives represent ideal dispersants for fly ash.

Since the production of building panels is usually automated Process, the incorporation of fly ash into the adhesive does not constitute a complication of the manufacturing process, because the fly ash is easily either the mixing device used for kneading the adhesive components or one of the feed lines used to introduce the adhesive components can be fed.

The fly ash can be added to the adhesive in various concentrations be incorporated, since the adhesive is practically only an aid for dispersing the fly ash in the Building material acts. Furthermore, the production of such

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Adhesives used in construction elements have very different compositions, although many of the same Adhesive based on thermosetting synthetic resins.

So z. B. for the production of a refractory, from finely divided Building board made up of materials, which has 20 kg of chips per m area, which are known adhesive based on urea-formaldehyde in the way are glued so that 5 to 1/2 wt the adhesive incorporates 10 to 20% by weight, based on the total weight of the adhesive, of fly ash from thermal power stations.

If such a building board is exposed to the flame of a soldering torch, thus it has excellent dimensional stability (no deformation) and remarkably good fire resistance on; As soon as the flame is removed, the red heat of the plate goes out and there is no destruction caused by burning up the plate.

It also shows that such a building board is advantageous Way is moisture-proof and does not swell.

In the case of fireproof building panels with glued panel cladding, z. B. to building panels with glued-on plywood panels, it can also be very advantageous for such building panels Way, the fly ash be incorporated into the adhesive used to glue the panel cladding. It turned out to be Proven to be advantageous to add a larger amount of fly ash to the adhesive used to glue the panel cladding than the one intended for gluing fine-grained fabrics Adhesive, e.g. B. an amount of 30 wt .-% fly ash, based on adhesive.

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If several cladding panels are arranged on top of one another in such a way that there is between them If an adhesive layer containing fly ash is located, then suitable building boards are used for the production of fire protection walls obtain.

The use according to the invention of occurring in thermal power plants Fly ash as a refractory material thus leads in a simple manner to building boards with particularly advantageous properties, e.g. B. Fire resistance and dimensional stability.

If necessary, the fly ash can also be in the form of a moistened Powders can be used if water does not have an adverse effect on the adhesive used.

As already mentioned, the adhesives used for gluing, e.g. B. glue, proven. However, such adhesives are not the only ones to disperse suitable dispersant for the fly ash. Other conventionally known dispersants can also be used, but are these are generally less suitable due to their lower economic efficiency and poorer effectiveness.

So can z; B. the fly ash directly into the building board building up finely divided substances are dispersed. Furthermore can the fly ash are dispersed in such a way that it is mixed with a liquid permeating the building board structure will.

The fly ash used as a refractory material in accordance with the invention can of course not only be used in the form of a fire retardant in building boards, but mixtures can from adhesives and fly ash can be used in the usual known manner wherever the fire resistance of formula elements

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ten to be improved using adhesives. So z. B. such, fly ash containing adhesives xferden used advantageously in the furniture industry.

According to a further advantageous embodiment of the invention, the fly ash used as a refractory material is used in the form of a dry powder together with a stabilizer, the mixture of fly ash and stabilizer being introduced into the cavities of the molded body whose fire resistance is to be increased. "Stabilizer ¹¹ " denotes an agent which is able to form a solid mass. Excellent results are obtained with mixtures in which the agent causing the consolidation of the mass is a powder which, under the action of heat, solidifies to form a coherent mass forms a block containing the fly ash while stabilizing the powder.

Sodium borate has proven to be a particularly effective and extremely economical stabilizer
and hardened the hard mass

comparatively low temperature of about 70 ⁰ C in a solid

The powdery mixture of fly ash and stabilizer is particularly advantageous in. The building boards of the specified Type used. Since, as already mentioned, such plates have channels, channels such as Fireplaces work as soon as their partitions are pierced by flames, so that the fire is stoked even further in this way. It does not matter if such ducts contain a powdered soundproofing agent or fire protection agent, since such powdery agents pour outside the channel as soon as its walls are broken.

In contrast, the channels of such plates with the inventive use of fly ash and a stabilizing

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medium, e.g. sodium borate, powdery dry obtained When filled with fire retardants, a solid and hard mass is formed from this powder under the action of heat prevents penetration of cracks from the flames.

It has been found to be particularly advantageous to use sodium borate in Form of borax in concentrations of less than 20% by weight, based on based on the total weight of the mixture, preferably from about 5 to 10% by weight.

Fire retardants obtained using fly ash according to the invention with a predominant content of fly ash are comparatively light and their weight is about 600 g each Liters in the loose state to about 900 g per liter in the compressed state.

To improve the sound insulation, the inventive Use of fire retardants obtained from fly ash sound-insulating additives, ζ. B. sand, to be incorporated, whereby such fire protection means are indeed heavier, but more expensive. .

Typical suitable powdery sound-insulating additives are e.g. B. refractory earth, cement, lime, ground porcelain, Pumice stone, vermiculite, asbestos, plaster of paris and wood flour.

The sound-insulating additives can be added to the fire retardants in various concentrations. Depending on, whether a sound insulation and fire protection effect or just a fire protection effect The aim is to achieve concentrations of 1.5 to 0.2 kg per liter of powdery fly ash containing Mixture proven to be appropriate.

If necessary, this can be introduced into the cavities of a molded body powdery mixture of fire retardants by heating

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are pre-stabilized. Most of such fire retardant mixtures keeps melting temperatures of more than 2000 ⁰ C.

The fire retardant obtained using fly ash according to the invention can also be used in low concentrations, e.g. B. in a concentration of about 2 % _t sodium bicarbonate as the

4 flame retardant substance can be added to. in this way to significantly slow down the spread of the flames on the * surface of the panels.

According to a further advantageous fill-out form of the invention a porous material, the pores of which are filled with the fire retardant mixture, is added to the filling mixture. As such Porous materials have become materials with a honeycomb structure, especially cheap ones, in a particularly advantageous manner such materials, for example cardboard or paper, proved to be suitable. Materials from other materials are also suitable Substances, e.g. B. of metals, plastics, laminates, artificial fibers and threads, glass fibers and the like.

As already mentioned, materials with a honeycomb structure are preferred, but can be added to the refractory filling mixture porous materials of other types can also be added. So it has z. B. in certain cases proven to be appropriate, a porous plastic material with open cells that are under pressure are filled with the fire retardant obtained using fly ash according to the invention, to be used.

Will the porous material containing the fire retardant between two plates or other cover elements are arranged, so components with good fire protection, their production costs are only slightly increased. If necessary, building boards or other components can also be produced, which in a particularly advantageous manner several layers of porous material, the cavities of which with the below according to the invention

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- y -

Filled with fire retardants obtained using fly ash are, have.

The porous material is with one or more cover plates usually with the help of a known, in the manufacture of such preformed building panels commonly used adhesive, e.g. B. urea-formaldehyde resins connected.

In the refractory construction elements manufactured in the specified manner, z. B, building boards, the fire retardant contained therein is, as already mentioned, stabilized by heat, in which it solidifies and becomes honeycomb-like in the form of a solid mass The cells are completely sealed up to the cell walls that surround them, so that no cracks remain that could damage the fire allow passage. Retain in spite of any deformation of the cover plates caused by heat the fire retardant mixtures stored in the solid partition walls and converted into solid masses by heat are theirs original shape without any cracking.

The stabilization of the existing components in the fire retardant mixtures can also be effected in such a way that the cover plates are veneered under pressure at temperatures of about 80 to 18O ⁰ C.

It turns out that the inventive use of Fire retardants obtained from fly ash increase their volume under the influence of heat, which contributes to the fact that the cavities, in which it is included must be completed in full.

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Claims (18)

19H282 - ίο - claims 1.) Use of fly ash as a refractory. Substance in fire retardants. '- 2. Use of fly ash according to claim T, characterized in that that the fly ash is used together with a dispersant. 3. Use of fly ash according to claim 2, characterized in that that the fly ash is used together with an adhesive as a dispersant. 4. Use of fly ash according to claim. 1, characterized in that that the fly ash is used together with a stabilizer in the form of a dry powder. 5. Use of fly ash according to claim 4, characterized in that the fly ash is used together with matrium borate used as a stabilizer. 6. Use of fly ash according to claim 5, characterized in that that the sodium borate in concentrations below 20% by weight, preferably in concentrations of 5 to 10 Weight I, based on the total weight of the mixture, used. 7. Use of fly ash according to claims 4 or 5, characterized in that there is an additional sound-insulating material Sand, refractories, cement, lime, ground Porcelain, pumice stone, vermiculite, asbestos, plaster of paris and / or wood flour are used. 909840/1 1 75 8. Use of fly ash according to claims 4, 5 or 6, da-, characterized in that there is an additional low concentration of sodium bicarbonate as the flame-retardant substance used. 9. Use of. Fly ash according to Claims 4 to 8, characterized characterized in that the mixture is in the form of a by heating to temperature: th mass used. heat to temperatures of about 70 ⁰ C or above solidify- 10. Use of fly ash according to Claims 1 to 3, characterized in that the fire retardant is used for production of refractory components made up of pieces of material glued together with the aid of adhesives, in particular in shape of building boards. 11. Use of fly ash according to Claims 1 to 3, characterized in that the fire retardant is used for production of fire-resistant construction elements, in particular in the form of cover plates, glued on with the aid of adhesives of building boards. 12. Use of fly ash according to claims 4 to 9, characterized characterized in that the fire retardant is in the form of a dry powder for the production of refractory components, used in particular in the form of building panels. 13. Use of fly ash according to claim 12, characterized in that that the fire retardant is introduced into the cavities of a porous material. 14. Use of fly ash according to claim 13, characterized in that that the fire retardant in the cavities of a porous material with a honeycomb structure brings in. 909840/1175 19-282 15. Use of fly ash according to claim 14, characterized in that the fire retardant in a porous material with a honeycomb-like structure made of paper or paper-like Material, made of metal or plastic. 16. Use of fly ash according to claims 12 or 13, characterized characterized in that the porous material containing the fire retardant with a honeycomb structure with Provides cover plates. 17. Fire retardants, consisting of a refractory substance dispersed in a dispersing or stabilizing agent, as well as possibly sound-insulating or flame-retardant Additives, characterized in that the refractory material consists of fly ash. 18. Fireproof component, in particular in the form of a building board, consisting of a fireproof material and either finely divided materials or glued with the aid of an adhesive an arrangement having cladding panels glued on with the aid of an adhesive or a porous material having arrangement, characterized in that the refractory material consists of fly ash and either in the Adhesive is dispersed or embedded in the cavities of the porous material in the form of a dry powder. 909840/1175