DE757545C - Process for the production of aerated concrete - Google Patents

Description

Process for the manufacture of aerated concrete The usual manufacture of Aerated concrete is done in such a way that a mortar mixture z. B. cement and sand or lime or sand or lime cement and sand with gas-evolving substances, e.g. B. Aluminum powder, calcium powder, powder off. Aluminum alloys, etc., mixed, the mass is then converted into a pulpy liquid state with the addition of water, is poured into molds. In the forms, the mass is left to rest until the Gas evolution is complete. The outer surfaces and are then smoothed after the masses have set or stiffened, they can be removed from the mold.

For the production of aerated concrete must be made with mortar mixtures of higher Water content to be worked. This inevitably means that a longer Time passes before setting begins, and that in turn means that only mortar components may be used that are not too coarse otherwise sedimentation will occur of these coarser components would occur. Another means of prevention sedimentation is the use of lime as an additive in the mortar mix, which also contains cement as a binding agent.

In the production of aerated concrete one therefore usually starts from already mortars and aggregates present in fine form, d. H. one uses Sand flour or% v. fine sand to prevent the very harmful sedimentation.

If you work with the addition of lime, it can easily happen that agglomerations form in the crowd. To destroy these agglomerations has therefore already been proposed, the entire mortar mixture, which is the metal powder contains to subject a grinding process using a disintegrator or the like, in this way to obtain a lump-free powder and intimate mixture. Further if you have: put metal powder into the mortar mixture as early as possible and mixed in intensively to ensure that the metal powder is distributed as evenly as possible to secure.

Surprisingly, it has now been found that the production of aerated concrete can be improved quite extraordinarily by not only the production of aerated concrete higher mechanical strength succeeds, but also the production of aerated concrete, which improved through very little post-shrinkage and one Thermal insulation.

Namely, it has been found that mechanical strength, after-shrinkage and thermal insulation capacity are largely dependent on the pore size and an aerated concrete is obtained which has up to 60% higher compressive strengths as conventional aerated concrete and also in the other directions mentioned it is considerably improved if it is possible to keep the pore size below a certain limit to lower.

With the previously well-known working methods, it was not possible to to come down below a certain level with the pore size. In part, that's because of it due to the fact that it cannot be achieved technically, metal powder, such as. B. aluminum powder, further to fine, but also in part because the mortar mixture segregates occur, namely in the liquid-pulpy mass after initiation of gas evolution. The pores in conventional aerated concrete are generally not made up of a single metal particle, but formed by several people together.

A way has now been found, which enables the achievement of the desired "goal, the production of aerated concrete with extremely fine pores ensures that it is achieved the above-mentioned effects guaranteed.

According to the invention, in contrast to the usual gas concrete production, is not started from finely divided or finely grained mortar components, but it on the contrary, at least one 'coarse-grained to lumpy component is purposefully made used: This, e.g. B. coarser quartz sand or cement clinker is mixed with the metal powder common in one: mill subjected to fine grinding for several hours Choice of such working conditions that the granular hard materials are also converted into a fine one Powder to be transferred. The effect of this grinding treatment is as follows: Simultaneously with the comminution of the hard material, a very fine comminution of the takes place Metal powder and the fine metal powder particles become quite firmly adherent with Proportions of the hard material connected. This now ensures that in the mortar mixture only the finest metal particles are present and that, secondly, segregation in the liquid: mortar mixture can no longer enter. Have experiments of the inventor show that z. B. with an aerated concrete mass to be produced from cement and sand a density of 0.8 t / m3 and when using extremely finely ground mortar components only a compressive strength of about 60 kg per square cm could be achieved. However, according to the invention grind the coarse sand together with the aluminum powder for 3 hours and thereby Sand and cement to the same fineness as in the previous experiment, then, when the same density of the aerated concrete mass was achieved, the strength increased on average rog kg per square centimeter.

In conventional aerated concrete, the pores have a diameter between 1/10 and 3 mm, in the case of the one produced according to the invention a pore size of 1/10 to 1 / a mm.

These figures show that by appropriate distribution of the pores, by keeping these even and by minimizing them as much as possible that were in no way to be expected.

In what way the solidification of the body takes place, whether, how that when running out of cements or cementitious mixtures is possible by hardening in air or by the action of steam under pressure, as is especially the case with Starting out from lime mortars is practical, is in itself indifferent. Anyone can do it any known hardening process are used, and also with regard to the There is the greatest possible scope for building up the raw mix. It can sand-lime lightweight bricks can also be produced using the new process, for example.

Deviating from the usual gas / clay production process, it is particularly recommended to work with water-poor masses, for example those with a plastic consistency to come close.

Claims (2)

PATENT CLAIMS: i. Process for the production of aerated concrete, porous Sand-lime bricks or the like of high strength from raw materials containing solid gas propellants, such as aluminum powder, calcium powder or the like. Contain the mass components are jointly subjected to a grinding process, characterized in that the solid Gas propellant with coarser granular to lumpy 1 starter of the mortar mixture together in one, # l.ühle a fine grinding of several hours with a choice of such Is subject to working conditions that even the granular hard materials in a fine Powder transferred «to earth. 2. The method according to claim i, characterized in that granular to coarse-grained sand or correspondingly coarse cement clinker is used as a starting point. To distinguish the subject matter of the invention from the state of the art, the following publications were taken into account in the granting procedure: German Patent Specifications No. .4.o4 677, 447 194, 468 664, 544 049 # 574 623, 582 876, 673 375.