DE2627504A1 - Fireproofing organic foams, e.g. polystyrene or polyurethane - with aq. compsn. contg. red mud, silica, water glass and hardener - Google Patents

Abstract

Fire-inhibiting aq. paint-, impregnating-, adhesive- and/or binder compsn. for organic materials contains 800-1600 pts. wt. moist red mud, 2-340 pts. wt. SiO2, 800-2400 pts. wt. water glass and 40-200 pts. wt. hardener. Red mud analysis, after drying, shows, by wt. 10% loss on ignition, 15-28% Al2O3, 24-45% Fe2O3, 3-13% TiO2, 5-20% SiO2, 5-12% Na2O and 0.1-3% CaO. Compsns. are used for producing flame-resistive organic foams, esp. on polystyrene- or polyurethane basis. Prodn. processes include: (i) coating finished foam articles with thickly brushable compsn., (ii) sandwich-laminating individual, coated foam layers with compsn. and (iii) stirring unexpanded plastic granulates or pearl polymers into compsn. and expanding them by heating in compsn. as matrix. Other uses include prodn. of glass fibre sandwich laminates and as binders for cork articles. Cheap combination of red mud and alkali silicate is intimately bonded with organic metals.

Description

Fire-retardant composition with water ylase components,

Process for their production and their use in organic Foam Moldings With Improved Flame Resistance The invention relates to a fire retardant, as a binder, paint, impregnation and / or adhesive for Aqueous composition that can be used for organic materials and contains waterglass, a process for the preparation of such a composition and its use.

It is already known (DT-OS 2 334 854, DT-AS 1 494 955, DT-AS 1 494 961, DT-OS 2 110 059) that aqueous media on alkali silicate @@ sis to this suitable, organic foam molded bodies, in particular polystyrene foam molded bodies, to create with improved heat resistance. After how vovc prepares it is difficult, however, to give the organic foam structures those which are desired in practice to impart flame-retardant properties, whereby there is generally the problem of low density, high ignition temperature and at the same time good mechanical Combine strength with each other.

The invention is therefore based on the gift of an inexpensive flame-retardant To create a composition which has the above properties or Allows to achieve and is universal for use in conjunction with organic Materials of all arc suitable.

According to the invention, this object is achieved by a fire-retardant composition solved of the type mentioned, which is marked. is through the following Components: 800 to 1600 parts by weight of moist red mush, analysis according to Drying: 10% by weight loss on ignition, 15 to 28% by weight Al203, 24 to 45% by weight Je203, 3 to 13% by weight Ti02, 5 to 20% by weight Si02, 5 to 12% by weight Na20 and 0.1 to 3% by weight CaO; 2 to 340 parts by weight of silica; 800 to 2400 parts by weight of water glass; and 40 to 200 parts by weight of hardener.

Particularly preferred embodiments of the composition according to the invention result from subclaims 2 to 11.

With regard to the production method according to the invention, see the dependent claim 12 is referred to, while preferred uses of the composition according to the invention from subclaims 13-16.

The invention is based on the surprising finding that it succeeds by combining alkali silicates, which have been known for a long time, with red mud to create a fire-retardant or flame-retardant composition, which is not only extraordinary economically can be produced, but also with organic materials with which the Composition is brought into contact, an extremely intimate connection comes in. This results in particular in the production of organic foam structures, that is, in combination with a matrix of the composition according to the invention with the corresponding foam components, an extremely fine one Structure which, in addition to the desired flame resistance, also has excellent mechanical properties Features.

This result was unpredictable because of the waste production Until now, the red mud that has accumulated in the production of aluminum has only been used as a gas cleaning compound, on a trial basis also in the production of underground and road building materials as well as for doden improvement could be used and this waste product has so far been difficult to use Component to be made or to be eliminated harmlessly was considered Obvious the effect of the red mud in the composition according to the invention is based on that due to the special, production-related fine grain of the red mud and the resulting large specific surface area of the same extraordinarily intimate connection with the water glass takes place, with the large specific Surface then in particular also for a particularly good contact with the organic Materials is responsible.

The composition according to the invention can of course not only Use in such a way that organic materials, especially finished organic Foam molded body, for example based on polystyrene or polyurethane, means the composition then used as a paint coated will, rather, flame-retardant foam moldings can also be produced directly by that the as yet unexpanded granulate or bead polymer particles in the matrix serving composition are foamed.

In this respect, the patent applications are expressly referred to in full P 23 34 854.1-43, P 24 61 817.5-4 and P 26 08 895.9-43 are referred to in this respect can be used in full to supplement the concept of the invention.

In addition, the composition according to the invention is also suitable for For example, glass fiber sandwich arrangements or, in general, arrangements made of plastic fleece, which are soaked and glued by means of the composition according to the invention, build up. The composition can also be used as a binder or matrix for moldings made of cork or crushed cork, cork flour or the like and also for bonding and impregnating of cork boards. For example, can. also wood, cardboard, or paper the like not only impregnated by means of the composition according to the invention and glued, but also after appropriate comminution in the composition processed as a matrix. A subsequent degassing is of course also possible of the flaminfiemmenden molded bodies produced possible, again being a supplement of the concept of the invention in full to the patent application P 26 Og 895.9-43 Is referred to.

It should be noted that the higher the red mud content of the invention Composition is, the better the consistency of the composition after curing results. This increases the mechanical strength of the composition increasing red mud content is probably due to the fact that the mechanical Properties of the structure are less and less determined by the water glass matrix, but from the with a high proportion of red mud, crystalline clashes Red mud particles result. It should also be noted that in all applications, in which the composition according to the invention on the outer surface of a molded article or the like is arranged, optionally stabilized mixed water glasses as water glasses Made of potash and soda water glass especially recommend because there are no signs of blooming appear.

The invention is explained in detail below by means of examples Explained: Example 1 800 g red mud, 100 g Si02 filler with a specific 2 2 surface area of approx. 20 m / g, analysis: 86 to 92% by weight SiO2, 0.9 to 2.6% by weight fe2O3, 0.6 to 12% by weight - Al203, 1.2 to 2.5% by weight MgO, 0.7 to 3.2% by weight CaO, 0.6 to 1.3% by weight FRC, 50g pure SiO2 as highly dispersed fumed silica, 2 specific surface approx. 100 to 400 in / g, 800 g of an alkali silicate with 2.7% by weight Na20, 9.5% by weight K20 and 25.3% by weight SiO2, a viscosity of 80 cP at 20 ° C, a density of 400 Be and a weight ratio of SiO2 to alkali oxide of 2.1, as well as 150 CaHPO4 became thick spreadable at room temperature Mixture stirred.

The red mud used had the following composition: 43.6% by weight moisture, 9.3% by weight loss on ignition, 20.5% by weight Al203, 6.99% by weight SiO2, 44.8% by weight Fe2O3, 12.8% by weight Ti02, 0.19% by weight CaO, 5.46% by weight Na20 (total), 0.67% by weight Na20 (water-soluble), 0.023% by weight Mn2O3, 0.17% by weight Cr203, 0.14% by weight V205, 0.13 wt% P205 and 0.002 wt% ZnO.

With the thus produced, thick-spreadable composition a finished polystyrene foam molded body encased.

The molded article produced in this way did not ignite when it was dried was heated to temperatures up to 7000C.

Example 2 Following the procedure of Example 1, a thick spreadable Mixture produced, but a raw sludge with subsequent analysis, after Removal of the residual moisture of 55% at 105 ° C, the following was used: Si02 approx.

16% by weight, TiO2 approx. 9% by weight, Fe2O3 approx. 25% by weight, Al 203 approx. 29% by weight, Total Na20 approx. 11% by weight, Na20 water-soluble approx. 1.5% by weight.

The liquid mixture produced in this way resulted in more the method as described in DT-OS 2 334 854 (patent application P 23 34 854.1-43) is described, made polystyrene foam molded body. The so produced Moldings had excellent compressive strength and also caught fire Do not heat up to temperatures of more than 8000C.

A composition was obtained by stirring at room temperature of the invention made from 1400 g red mud (as in example 2), 200 g SiO2 in the form of highly dispersed, pyrogenic silica, 2000g soda water glass with a weight ratio SiO2 to Na20 from 3.8 and 250g calcium hydrogen phosphate.

In addition, polystyrene bead polymer, which pentane as a blowing agent contained, pre-inflated in hot water with a temperature of 98 C for 30 minutes. Then, the pre-expanded polystyrene particles thus obtained became out of the water taken out, dried and shredded into fine flakes. Instead, were at a modified embodiment also flaked or fiberized polystyrene waste used.

The flaked or shredded polystyrene particles were then in the previously mixed composition entered.

The mixture was then stirred for about 10 minutes. Thereupon the mixture became from the composition according to the invention and the fiberized polystyrene particles entered in a block form, whereupon the one that had been at room temperature until then The temperature of the composition was raised to 800C in an oven for one hour. The finished molded body was then removed from the metal mold and then degassed for 60 minutes at 2900C in the oven. The material obtained in this way caught fire in a closed oven even when heated to a temperature of 1100 ° C not.

Example 4 Following the procedure of Example 1, a thick spreadable Amount of gel produced from the composition of the invention. This was in Weight ratio 1: 1 entered cork flour. The finished molded body was at 1050C and then degassed in the oven at 400 ° C. A molding resulted which easily withstood temperatures of 12006C. The mechanical strength was excellent.

Those in the above description as well as in the following claims disclosed features of the invention can both individually and in any Combinations for realizing the invention in its various embodiments be essential.

Claims (16)

Claims 1. Fire-retardant, as a paint, impregnation, element and / or aqueous composition usable as binders for organic materials with water ylase content, characterized by the following components: 800 Up to 1600 parts by weight of moist red mud, analysis after drying: 10 Wt .-% loss on ignition, 15 to 28 wt .-% Al203, 24 to 45 wt .-% Fe203, 3 to 13 wt .-% TiO2, 5 to 20% by weight SiO2, 5 to 12% by weight N-m20 and 0.1 to 3% by weight CaO; 2 to 340 parts by weight of silica; 800 to 2400 parts by weight of water glass; and 40 to 200 parts by weight hardener. 2. Composition according to claim 1, characterized in that red mud on the one hand and water glass on the other hand in a weight ratio of 2: 1 to 1: 3 are provided. 3. Composition according to claim 2, characterized in that the Weight ratio between red mud and water glass is at most 1.25: 1. 4. Composition according to claim 3, characterized in that the Weight ratio between red mud and water glass is 1: 1. 5. Composition according to one of the preceding claims, characterized characterized in that the silica component is 2 to 300 parts by weight SiO2 filler with a specific surface area of approx. 20m² / g, analysis: 86 to 92 wt. t SiO2, 0.9 to 2.6 wt. T Fe2O3, 0.6 to 12 Ge.- A1203, 1.2 to 2.5 wt.% MgO, 0.7 to 3.2% by weight CaO, 0.6 to 1.3% by weight per cent, moisture 0.2 to 0.5% by weight, loss on ignition 0.8 to 4% by weight and 20 to 40 parts by weight of pure SiO2 as highly dispersed pyrogens Silicic acid, specific surface approx. 100 to 400m² / g, primary particle size of both Silicic acid components 5 to 30µ are provided. 6. Composition according to one of the preceding claims, characterized characterized in that a water-soluble alkali silicate or modified as water glass Alkali silicate is provided, which at least 20 wt .-% SiO2 and at least 7% by weight of K20 and / or 1 to 5% by weight of Na20 and a viscosity of 35 to 150 cP. 7. The composition of claim 6, characterized in that as Water glass is a mixture of potassium silicate and sodium silicate or a potassium sodium silicate with a molar ratio SiO2: K20 of at least 2 in an amount of at least 25 wt .-% potassium silicate is provided. 8. The composition according to claim 7, characterized in that as Water glass made by adding triglycidyl isocyanurate, at least one water-soluble Amine with at least 2 active hydrogen atoms bonded to nitrogen and at least a quaternary ammonium base modified alkali silicate is provided. 9. Composition according to one of the preceding claims, characterized characterized in that a mixture of calcium hydrogen phosphate is used as the hardener and an alkali fluoride is provided. 10. Composition according to one of the preceding claims, characterized characterized that, based on the N water glass weight proportions, 5 to 8 wt .-% Harder are provided. 11. Composition according to one of the preceding claims, characterized characterized in that the silica component and the hardener component in a weight ratio Stand 1: 1. 12. Method of making the fire retardant composition according to one of the preceding claims, characterized in that the specified components are mixed together by stirring at room temperature. 13. Use of the fire retardant composition according to any one of the claims 1 to 11 for the production of organic foam moldings, in particular on Polystyrene or polyurethane base, with improved flame resistance. 14. Use according to claim 13, characterized in that the finished Foam molded bodies are coated with the thickly spreadable composition. 15. Use according to claim 14, characterized in that individual, encased foam layers sandwiched with one another by means of the composition be glued 16. Use according to claim 13, characterized in that the Unexpanded plastic granules or bead polyesters are stirred into the composition and are expanded in this matrix by heating in a manner known per se.