DE1671197A1 - Fired materials with high or very high acid resistance - Google Patents

Description

Fired materials with high or maximum seam resistance The invention relates to fired materials with high or maximum acid resistance, preferably without the addition of poxcell fragments. For the lining of containers and pyrotechnic systems, natural stones, for example made of granite, sandstone and so on, were used in the past to protect against acids and alkalis further, Due to the difficulty of working with natural stones, they switched to the manufacture of synthetic stones; on the other hand, these no longer meet the technical demands, it is also known that acid-resistant stones are manufactured using ground forcelain clay (with a grain size of about 0 to 3 inches) and clay. If the stones are manufactured using the plastic process, the mixture settles from about 60 to 65% porcelain sober and about 35 to 40% acid-resistant clay, if the stones are produced by the non-plastic process, the mixture is made up of about 75 to 80 % porcelain oherben and about 1020 to 25 % acid-resistant clay, with part of the clay can be added as Sohlioker> together * Especially for DenitztertUrze (Glovertürme), the acid resistance of the stones made from the above-described batches is often insufficient, so that such linings often only have a short shelf life that the attack of porcelain roughshod in vers chiedenen countries is not high enough to cover the increasing demand for the production of acid-resistant bricks, the invention addresses the problem zugrundag burned materials of high and high acid resistance to create the additional voxzugsweise of manufactured Porzellansaherben without. The production can take place either according to the plastic or unplastic production process, whereby the use of the plastic or unplastic process is known to depend on the proportion of the individual raw material components and the water content of the mixture plastic-like or non-plastic processes from about: 10 to 40% by weight of acid-free clay 5 to 60 % by weight of feldspar sand (or the corresponding amount of feldspar and quartz) 5 la 40% by weight of 4 slurried kaolin 3 (# up to 70 % by weight of raw ochamot produced will.

As Rohochamotte can highly dense acid-resistant synthetic Rohsohamotte (synthotiaohe Forzellanaohamotte), kaolin clay raw chamottes, kaolin Rohnehamotte been used or hochdiohte acidic raw chamottes, the acid-resistant materials having high Säurereaistenz REDIAL can @ 14e natural Hartetoffe as NUttenachlaoke, quartz, feldspar, various Sande, Granite, stone stone and the like have been added.

Materials with the highest acid resistance can be produced using the plastin-like or non-plastic process from about: 60 to 90 peldspar sand (or the corresponding * close feldspar and quartz) 5 to 40 lined kaolin 5 to 40 mäuxefenter clay * With these material components it is possible to To completely replace porcelain shards, however, there is the option of adding a certain amount of porcelain soil as a rodent, This applies to materials with high as well as very high acid resistance, The mixing of these components can be done wet or dry, With a suitable composition of the backfill the clay can be completely replaced by slurried kaolin or raw kaolin.

The advantage of the production of acid-proof materials from this raw material combination is that it can replace porcelain upholstery, which are very limited in their occurrence, so that the prerequisite was created to be able to cover the actual need for acid-proof material. It is also possible to by appropriate combinations of raw materials, acid-resistant materials with still besse- rer acid resistance, possess than the previously known acid-resistant stones using Porzellansoherben to produce, at the 6 A # sfUhrungsbeispielen'soll the invention will be closer explained ER, 1, AusfUhrungebeispiel, for the manufacture of Materials with high building resistance after the plastic process * 15 to 35 % acid-resistant clay 10 to 30,% peldspar sand 10 to 30 % geaohlämter kaolin 25 to 45,% raw hanotte and / or natural hard materials such as NUttensohlackeg quartz # Poldopatg various sandeg granite # Peobstein and similar 2, embodiment for d ie the production of materials with high Säurereaistenz after aplastic procedure 15 to 35,% acid-resistant clay 10 to 35% Peldspatsand 5 to 30% geaohlämmter kaolin - 50 to 60% raw chamottes and / or natural hard materials 3. exemplary embodiment for the production of materials with highest acid resistance.

60 to 90 feldspar sand 5 to 40 lamelled kaolin 5 to 40 acid-proof clay are first mixed dry and then wet, then flakes or standard parts are drawn out on a pre-drawing press and these are either cut and / or re-pressed Pormg, with the pre-pressing immediately or first a certain period of time (standing) can be produced, dried and fired, in this way a homogeneous porcelain-like product is created.

4, exemplary embodiment for the production of materials with the highest acid resistance of 60 to 90 feldspar sand.

5 to 40 slurried kaolin 5 to 40 acid-proof clay is first mixed dry and then wet., Danaoh are drawn on a pre-drawn rungs, blanks in the format of a pipe or multi-reward stones (because of the more uniform and faster drying) and these are dried in an appropriate porm. The dried blanks are then comminuted to a Bekundärkörnung (Arbeitakörnung) of about O'bin 2 and 0 to 3 and lättohen to B, or Wormalien Pormuteinen verproßte The September # eßten products have been dried and fired * on these wines creates a honogenen porzellanähinliches product, 5, Exemplary embodiment for the production of materials with the highest acid resistance.

60 to 90 feldspar sand 5 to 40 lined kaolin 5 to 40 acid-resistant clay are mixed dry or wet. Thereafter, extruded or pressed from a dry, if necessary pregranulated mixture blanks are produced # dried and fired, this fired bricks are used in the ground state as acid-resistant synthetic raw chamottes (synthetic porcelain chamotte) for the production of acid-resistant or special fireclay bricks according to the known processes, in order from stones With optimal acid resistance, it recommends using the raw product of the above composition as the binding component. In this way, a porcelain-like product 6 is created, an exemplary embodiment for the production of materials with the highest acid resistance.

To reduce the shrinkage was the offset 60 of acid-resistant to 90 feldspathic sand 5 to 40 geschlämmtex kaolin 5 to 40 clay grog in the form 'of Porzellansoherben, synthetic acid-resistant raw chamottes (synthetic Porzellanachamotte), kaolin clay Rohnehamotteg kaolin Rohochamotteg acidic Rohoohamotte or natUrliohe hard materials added and together dry or wet untermiaoht "the production of oäurefesten stones can-still carried out by known plastic and non-plastic procedures * to produce stones at the aplastic method is known to be a part of the trusses as Sohlicker. leads, which is also recommended in this case »It is sufficient here if part of the plastic components (kaolin or clay) is sealed,

Claims (1)

P atentan apx U o h e 1, Fired materials with high or very high acid resistance without the addition of porcelain fragments, characterized in that the material consists of 5 to 40 weight-4 acid-resistant clay 5 to 90 weight-4 feldspar sand or the equivalent amount of feldspar and Quartz consists of 5 to 40% by weight of insulated kaolin and 0 to 70 % by weight of raw chamotte, the production and firing taking place according to the known processes * 2, acid-resistant stones according to claim 1, characterized in that the percentages in their proportions can vary, 3, acid-resistant stones according to spoke 1, characterized in that the mixture consists of 60 to 90% synthetic porcelain chamotte and 10 to 40% synthetic binder or clay, 4, acid-resistant stones according to claim 1, characterized in that natural leaning agents, such as rocks, bohlacken and other substances included as a lean agent with the addition of egg Suitable binders have been used for the manufacture. 5a Fired materials with high and highest acid resistance, characterized in that the materials according to AzLoprllohen 1 to k can also be produced with synthetic rodents such as broken porcelain, acid-resistant raw bohemian (synthotic porcelain chamotte),