DE936620C - Process for the manufacture of silica products - Google Patents

Description

Process for the manufacture of silica products The invention relates to focus on the production of high quality silica products from quartzites or other siliceous substances by burning at high temperatures for the purpose Conversion of the silica into cristobalite or tridymite.

According to an earlier, but not part of the prior art Proposal should be made from alumina-containing quartzites self-binding by adding phosphoric acid Silica masses produced "= earth, d. H. such masses, even without the addition of Set lime or another binding agent.

The phosphoric acid forms with that which is present as a companion in the quartzites Alumina aluminum orthophosphate, which has a particularly high melting point and its Crystal structure and properties in many respects those of the various modifications is related to silica.

In contrast, it has been found that there is an even greater improvement of silica products that are manufactured without lime binding can that one od the quartzites forming the starting material. Like. Both alumina as well as phosphoric acid added, in such proportions that in the fired Produce the total alumina and phosphoric acid in that characteristic of orthophosphate Quantity ratio are included.

The silica products produced according to the guiding principle of the invention are characterized by a significant increase in the melting or dropping point. This unexpected effect is believed to be related to the fact that aluminum phosphate isomorphic with silica, in all its modifications, namely _ quartz, tridymite and cristobalite, crystallized and that thereby the in normal silica stones themselves harmful clay in the fire from the silica in its crystal lattice is absorbed: So it actually occurs through the addition of phosphoric acid and Alumina does not actually add to the initial mass consisting of quartzites expected lowering of the melting point. Therefore, the invention differ Silica stones also differ significantly from the clay-bonded silica products known per se (so-called clay-bound silica stones), in which the alumina is bound to silica is present and in which the alumina-silica eutectic of 154o ° has an effect comes.

It is also possible to use such substances containing silica, which have been converted into cristobalite or tridymite by previous firing. In this way of working, the addition of kaolin +. Phosphoric acid or A1 P 04 as amblygonite residue from lithium extraction sufficient strength achieved after drying, so that immediate use is possible. Further firing immediately after installation in a furnace, e.g. B. Siemens-Martin furnace, then leads to further solidification.

The size of the addition of alumina and phosphoric acid according to the invention naturally depends on the composition of the raw materials. In the In most cases, an additive of up to 5 percent by weight, based on orthophosphate, is used in the finished product, with the addition of phosphoric acid being the content the starting raw materials of alumina must be taken into account.

The additive according to the invention can either be in the form of a mixture of Alumina or alumina hydrate and phosphoric acid are made; but it can also the clay in the form of aluminum silicates or Kaolin can be used.

In a further embodiment of the invention it is provided that the starting material contains an addition of aluminum phosphate, optionally with the addition a certain amount of phosphoric acid.

As aluminum phosphate, the practically alkaline and alkaline earth-free residues are used in the processing of amblygonite for the purpose of obtaining lithium compounds. By using such a The waste product is the manufacture of high-quality silica products according to the Invention particularly economical.

The phosphoric acid can either be in free form or, as in itself known to be used in the form of phosphorus compounds in the following Fire did not result in any alkali or alkaline earth containing residue and with the clay Form orthophosphate, e.g. B. Ammonium phosphate.

You can add alumina to the starting material or phosphoric acid is also a suitable binder to increase the dry strength add to the molded body produced, for example an organic binder, like cell pitch.

Claims (6)

PATENT CLAIMS: i. Process for the production of high quality silica products, where phosphoric acid or phosphoric acid salts are added to the raw mass before the fire are characterized in that the mass contains both alumina and phosphoric acid, namely in such a ratio to each other containing additive that in the fired Product alumina and phosphoric acid in the proportions characteristic of orthophosphate are included. 2. The method according to claim i, characterized in that the mass contains an addition of alumina or alumina hydrate and phosphoric acid. 3. Procedure according to claim i, characterized in that the clay is in the form of aluminum silicates or Käoliri is used. 4. The method according to claim i, characterized in that that the mass receives an addition of aluminum phosphate. 5. The method according to claim q., characterized in that the mass of the aluminum phosphate, practically Alkali and alkaline earth free residue is added from the processing of Amblygonite comes from for the purpose of obtaining lithium compounds. 6. The method according to claim 1, 2, 3, 4 or 5, characterized in that a binder is also added to the mass to increase the dry strength of the molded bodies produced. -7. Process according to one or more of Claims 1 to 6, characterized in that those silicic acid-containing substances are used which have been converted into cristobalite or tridymite by - prior firing. Cited pamphlets: German Patent Nos. 445 722, 52.1 350; Special print from Tonindustrie-Zeitung, 74, 1950, pp. 171 to 177, 198 to 201, 223 to 235, 262 to 265 (pp. 33, 34).