DE1151460B - Process for the production of lightweight construction elements from blue, grainy material - Google Patents

Description

Process for the production of lightweight construction elements from expandable, granular material It has been around for several decades, particularly from Swedish Patent specifications, known that lightweight building blocks with desired properties, such as low volume weight and good insulating properties for heat and sound, made of sinterable, Can produce expandable, granular material, with granular material under granular or crushed material is to be understood. Such materials are in particular Clay and clay containing minerals.

The swelling process occurs by heating the material at a temperature chosen according to its properties and is based on the fact that while heating inside the grain, to use this general term, gas development occurs, which inflates the grain. The bloating process will thus the volume of the introduced material is significantly increased and the volume weight accordingly reduced. It stands to reason that the bloating process is adhering to a requires a certain temperature and treatment time, because a temperature that is too high or too long a treatment time would melt the material and thus lead to a pore-free gaseous melt material with a large volume weight, which the good Properties of the puffed material are missing.

There are two ways of expanding granular material.

The goods can be heated very quickly at a very high temperature. A vigorous evolution of gas then occurs; the gas almost explodes from the surface of the grain. The result is a heavily puffed grain with rough, rugged surface. But you can too, and that is in many cases It is advisable to carry out the expansion process so that there is initially a Plastic glass skin is formed, which allows the evolving gases to escape from the Prevented grain surface. An expanded grain is then obtained with essentially closed surface. With further heating of the prepared according to the first process The grain of the grain then becomes three-dimensional as well.

The expanded material forms the starting material for the production of Building blocks. It is interesting to see what paths have been suggested for this Has.

One has z. B. believed to achieve a better degree of swelling to be able to first heat the material so far that a substantial amount of gas has already escaped before the softening limit of the material (clay) has been reached so that only small amounts of gas remain. The heating is then continued, until the mass has melted throughout and assumed a sluggish state Has. It was believed that the gas that was still there was no longer it can escape, make the mass particularly porous. In this proposal there is a fundamental mistake of thought. Because a melting process leads, as before was said to be a compact but non-porous mass. It may be that the mass still contains some gas inclusions, but these are not enough, to give a product of significantly reduced density.

According to another suggestion, the material should gradually be in shape of thick solid bodies, briquettes, coherent strands or the like. In the Furnace and blown in this form, at a temperature which lies between extensive sintering and continuously beginning melt. The puffed material separates from the unexpanded material and falls onto the oven floor. After taking out of the oven, it is cooled and turned into porous macadam or Porous sand pounded or cut into blocks or moldings that slowly be cooled down. Whether this process is a product with a sufficiently low density results is difficult to say without careful experiment. It is very likely not because, although perhaps there is no continuous melting of the supplied Body enters, but at least a very deep layer is melted. In terms of costs, the process is unfavorable because the building blocks are replaced by another Operation that must be made by separating blocks.

From this point of view, another suggestion seems more favorable, which boils down to the expansion process directly in the combustion chamber in heated Perform iron molds. That to be treated Good will be with Mixed fuel and the combustion air sucked or pressed through the mixture. The swelling process then occurs immediately in the form from which the finished product is made Block can be found. However, the inventor himself says that the method a heavier product than other processes, but the strength is high, and the prime costs as well as the investment costs are low. This procedure delivers So no high porosity sealing modules with the resulting favorable ones Properties. It is particularly harmful that the building blocks produced in this way leave combustion residues of the fuel added before the treatment, especially if the Fuel contains sulfur. When using such stones, the known ones occur unpleasant phenomena such as "efflorescence" and damage to walls and plaster.

According to an American proposal, the granular expandable material is initially highly heated, but only so far that it does not yet melt on the surface begins. With the high temperature it is then placed in a combustion chamber in one shift introduced a certain height, at which first a melting due to the heating and caking of the particles on the surface occurs. As a result of the entering Gas development now inflates the layer and thus acquires a cell structure, which, as the inventor says, corresponds to that of a baked bread. The bloated Mass then passes through a cooling chamber, behind which it is broken down into blocks or building blocks is cut up. The product made by this process may be cheaper Have properties than the product using the method described first the densely melted viscous mass, but the process is cumbersome; because the expansion process is followed by a cooling process and the stones or blocks must be made by a cutting process.

You would get the cheapest building block if you pay attention to that the grain structure of the expanded material is preserved, and if you take the building block directly in the mold. This arose from this problem Method according to the invention. It consists in that the granular material in a treatment chamber is expanded at such a high temperature that it is at least in the outer grain layer goes into the pyroplastic state and that it leaves the treatment chamber immediately placed in molds and solidified therein by stamping, pressing, shaking or the like will. It is important to bring the product into the mold and to compress it to carry out so quickly that these operations before the start of the solidification of the goods are finished.

Lightweight construction elements produced by this method, in particular Bricks, in every respect, have proven to be the best building material of its kind proven to be found on the market. It's easy to see too. First the building block is free of undesirable additions in the form of ash and others Combustion residues, because the material in the treatment chamber in the hot gas flow is expanded without adding fuel. So it is not to be feared that excrete any constituents on the surface after installation. Further the grain structure of the expanded material is fully preserved, which leads to the highest porosity, on which the insulation capacity for heat and sound is based. But the good has very high strength, which is not only due to the sticking together of the individual Particle has arisen, but essentially through the subsequent compression process is increased. After all, by bringing the goods into forms outside of it In the treatment chamber, make dimensionally accurate building blocks with flat surfaces. That are all properties of the lightweight building blocks that are directly related to the handling of the goods are not accessible in forms in the treatment chamber. It is shown as experiments have, absolutely impossible, homogeneous building blocks with the old method explained to produce with a smooth surface, because it does not succeed in the good on continuously bring the same temperature. In the area of the mold walls only a few Centimeter thick layer properly inflated. One already appears on the surface Liquefaction of the goods and the expansion temperature in the area of the center of the mold not achieved at all. The unmolded blocks look like an im Fire-charred log with no burn marks at all in the middle shows. Compaction of the material in the mold is evident in the older method not possible, since you cannot install compressors in the combustion chamber.

For the method according to the invention it is therefore important that Bringing the material into the molds and compacting it so quickly that the solidification does not yet begin, because otherwise no homogeneous stones are obtained would; because an already solidified layer would only look bad with one more connect plastic layer.

In summary, it should be emphasized again that the method according to the invention: Generation of an expanded material in the treatment chamber in such a way that it has its grain structure is retained, but is at least pyroplastic in the outer layer of the expanded material in forms outside the treatment chamber, compression of the introduced Good in the form by pounding, shaking, pressing or the like and compliance with the working conditions, that introduction and compaction should be finished before the start of solidification, components results, which are far superior to all previously known components of this type in quality are.

Claims (1)

PATENT CLAIM: Process for the production of lightweight construction elements, in particular bricks, made of sinterable, expandable, granular material, wherein the process is conducted so that the material retains its grain structure, thereby characterized in that the expanded material in the treatment chamber at such a high temperature is expanded that it is pyroplastic at least in the outer grain layer that in this state it is introduced directly into molds from the treatment chamber and that it is compacted therein by tamping, shaking, pressing or the like, whereby the puffed material is so quickly introduced into the molds and compacted therein becomes that these processes are finished before the onset of solidification. Into consideration Drawn pamphlets: U.S. Patent No. 1858 499.