DE3103111A1 - Fine-grained expanded granules and process for their production - Google Patents

Abstract

Perlite having a grain size of preferably 0.1 to 0.6 mm is mixed with a glazing material which, before reaching the expanding temperature of the perlite, forms a film of glassy melt on the individual perlite particles. If the particles are then heated up to the expanding temperature of the perlite while in constant motion, granules having a grain size of less than 3 mm and a strength of the granule particles corresponding to the strength of sand are obtained. These granules are used in particular, preferably on their own, as an aggregate for plastering mortar, with which insulating plasters with a very high insulating value can then be produced. The preferred glazing material used is a suspension of colloidal perlite in a concentrated solution of phosphates or of silicates and borates in water. The colloidal perlite is readily obtained from perlite expanded in a conventional way.

Description

Fine-grained expanded granules

and method for its production. The invention relates to a fine-grained Granules made from an expanded mineral material, in particular as an aggregate for plaster mortar.

Foamed or expanded ones are used in particular for purposes of thermal insulation A wide variety of materials are being used to an increasing extent, as thermal insulation is of increasing importance, especially in the construction industry. The so far known insulating materials require the training or attachment of special Insulation layers because of their lack of mechanical stability and weather resistance cannot take on any other functions. Attempts have been made To develop heat-insulating plasters that perform both the protective function of a normal Plaster as well as the role of a thermal insulation layer can take over, however Thermal insulation achievable with such an insulating plaster is still very low. This lies the fact that the previously available additives, which the high insulation values should replace, either themselves do not have very high insulation values, such as Brick chippings, or, for example, granules made of foamed plastics, do not have sufficient strength to be used in such large quantities as would be required for good thermal insulation.

There are basically expanded mineral materials high strength and low thermal conductivity available, such as Expanded clay or foam glass granules, however, such granules have a small grain size of more than 5 mm and is therefore unsuitable as an aggregate for plastering mortar because as coarse aggregates that Application of flawless plaster layers no longer allow. The puffed fabric would have excellent thermal insulation properties Perlite, however, expanded perlite has no significant mechanical strength, but rather breaks down into colloidal dust. This can be used as an insulating material Form suitable granules, However, such granules have a grain size in the range of 10 mm, so that it is completely unsuitable as an additive to plastering mortar.

The invention is therefore based on the object of a granulate To create an expanded mineral material that is both so fine-grained as well as having such mechanical strength that it can be used as an aggregate for Plaster mortar is suitable and can be added to the plaster mortar in such quantities that this means that layers of plaster with high insulation values can be created.

This object is achieved according to the invention by a granulate which consists of expanded perlite, the particles of which are glazed.

As mentioned above, perlite is an expandable material. That Bloating takes place through evaporation of the water bound in the perlite. The evaporation and swelling occurs at temperatures below 10,000 C, while the pearlite itself only melts at temperatures above 12000 C. As a result, the Structure of the pearlite destroyed, so that the perlite by peeling loses its mechanical strength. However, in the case of the granules according to the invention the puffed pearlite particles have a high mechanical strength due to the glaze granted because the glaze melts before the expansion temperature is reached and therefore when the perlite particles expand their structure cannot be destroyed. Rather, the perlite particles become solid due to the glaze that has hardened during cooling bound, so that particles are formed whose strength is comparable to that of sand is. Correspondingly fine perlite can also be used to produce particles that have a have a grain size comparable to that of sand. This granulate can be because of its high Use strength like sand in mortar and in large quantities the hydraulic binders add so that a plaster can be produced from the granules according to the invention, the has very high insulation values and in many cases the use of separate layers makes it unnecessary to isolate worms.

In principle, the particles of the granulate according to the invention can be provided with glazes of any kind, provided that it is only guaranteed that the melt the materials forming the glaze at a temperature which is lower than the expansion temperature of the perlite, so that the glaze material does not expand when it puffs up Destruction is similar to that of perlite itself. In a preferred one Embodiment However, of the granules according to the invention, the glaze consists of the reaction product a suspension of igneous rocks or minerals with a grain size of less than 0.1 mm in a concentrated solution of phosphates or of silicates and borates in water.

Such a glaze is described in DE-OS 23 56 524.

The particular advantage of using such a glaze lies in the very low cost of the raw materials used to make the glaze are required, and in that no special steps for the preparation of the glaze material are needed. Another advantage of the glaze is that in further Embodiment of the invention in the suspension used for its preparation as igneous mineral perlite can be used, making the glaze the same It contains basic components like the particles of the granulate itself, which makes it a special one intimate connection is guaranteed and also the base body and glaze essentially have the same physical properties, in particular a large degree of correspondence the coefficient of thermal expansion, which is important for the resistance and freedom from cracks of the Glaze and thus the strength of the granulate particles is of particular importance.

The invention also has a method of making one Granules to the subject. The inventive method consists in that the granular perlite with a Glaze agent is mixed before reaching the expansion temperature of the pearlite on the individual pearlite particles a film of a vitreous melt forms, and then the particles with constant agitation up to the expansion temperature of the perlite can be heated.

As already mentioned above, that formed by the glaze agent The film is not destroyed when the particles expand, so that after cooling the Granulate particles whose constituents firmly bind and thereby give the particles the desired, gives high strength.

To ensure film formation, it is particularly advantageous to to use a suspension of particles forming a glaze as the glaze agent and to mix with the pearlite in such an amount that the individual pearlite particles are coated with a film of the suspension before heating to the swelling temperature of the perlite. By slurrying the glaze-forming particles into shape a suspension and mixing of the suspension with the perlite particles is ensured that the glaze uniformly covers the surfaces of the pearlite particles and forms a uniform glass film after melting.

In a preferred embodiment of the method according to the invention a suspension of igneous rocks or minerals is used as a glaze agent in a concentrated solution of phosphates or of silicates and borates in Water used. Such a suspension can be produced in a simple manner. Starting materials can be used that are plentiful at low cost To be available. This is for the production of an aggregate for plastering mortar of considerable importance because such aggregates themselves do not have a huge cost cause.

In a preferred embodiment of the invention, a suspension used, which contains fine-grain perlite as suspended particles. While others Minerals must be mechanically crushed in order to be slurried in a To have suspension required fineness can be further developed of the method according to the invention, the perlite used in the suspension by grinding from expanded perlite. Because expanded perlite even with the slightest mechanical Exposure breaks down to dust, the particles of which have a colloidal size, this is it Perlite is excellently suited for the suspension and very easy to manufacture.

To obtain an expanded granulate with the desired small grain size, is useful for the production of the granules perlite with a grain size of less set as 1 mm. Commercially available perlite with the grain fraction is particularly suitable from 0.1 to 0.6 mm. It is also advisable to add 0.1 to 0.2 l of suspension to 1 kg of perlite use to ensure a perfect coating of each Particle to ensure with the glaze and accordingly to obtain parts of high strength, without the amount of suspension used being unnecessarily large.

As mentioned above, the granules according to the invention are in particular as Additive for mortar, in particular for plastering mortar for the production of Insulating plaster, suitable. Accordingly, the invention also relates to the use of the granules according to the invention for this purpose.

As mentioned above, is one for the production of the granules according to the invention Particularly suitable glaze agent-a suspension that is described in DE-OS 23 56 524 for Manufacture of binders and warping on granular rock material is described is. The details of the production described in DE-OS 23 56 524 and application of this glaze agent are hereby part of the description of the Granules according to the invention and the process for their production made.

This is followed by the production of the granules according to the invention described and explained in more detail using a special example of implementation.

It was first a solution of 10 Ges .. NA2SiO3. 5 H20 and 3.6 Wt. H3B03 in 10 parts by weight Water is made by first adding the sodium metasilicate into the water stirred in and then completely with the addition of boric acid was brought to a solution. This solution was in a weight ratio of 1: 1 with puffed Perlite mixed, which disintegrated into colloidal perlite when mixed, so that a suspension des Per] tXs in the solution mentioned.

Raw perlite with a grain size of 0.1 to 0.6 mm was added to the suspension mixed in a ratio of 1 kg perlite to 100 cm3 suspension. This created a slightly moistened product in which the individual particles of raw perlite with a film of the suspension were coated.

This mixture was slowly increased to about 10,000 in a rotary kiln C heated. First, a dry, solid coating was created from the suspension, which at around 8000 C, i.e. before the perlite has reached the expansion temperature, in a film of glassy melt passed over. After the perlite piles have expanded The granulate obtained was cooled while moving until it solidified the melt was continued.

In this way it became a granulate with a sand-like character and a grain size of a maximum of 3 mm.

The individual particles also had a strength equal to that of strength of grains of sand was comparable. The bulk density of the granules was about 0.2 g / cm³.

The granules obtained can be because of the very high strength of his Use particles as the exclusive additive in mortars, also because of the small grain size are suitable as plastering mortar. Layers of plaster made with it can be applied in thick layers due to the low density of the granulate and because of the high content of the distended and therefore poorly thermally conductive Material has a very high insulation value.

Tests with larger amounts of the suspension did not show any discernible results Improvement of the properties of the granules according to the invention brought about, however The amount of glaze to be used depends to a large extent on its type depend.

Claims (11)

Claims 1. ' Fine-grained granules from an expanded mineral oil Material, in particular as an additive for plaster mortar, characterized in that that it consists of expanded perlite, the particles of which are provided with a glaze. 2. Granules according to claim 1, characterized in that the glaze the reaction product of a suspension of igneous rocks or minerals mlt; has a grain size of less than 0.1 mm in a concentrated solution of phosphates or of silicates and borates in water. 3. Granules according to claim 2, characterized in that the suspension. contains perlite as an igneous mineral. 4. Process for the production of granules according to a previous one Claims, characterized in that the granular perlite with a glaze agent is mixed before reaching the bloom temperature of the perlite on the individual Perlite particles form a film of glassy melt, and then the particles heated with constant movement up to the swelling temperature of the perlite. 5. The method according to claim 4, characterized in that as a glaze flat a suspension of glaze-forming particles is used and in such an amount with the pearlite is mixed that the individual pearlite particles with a film the suspension are coated before heating to the swelling temperature of the Perlite takes place. 6. The method according to claim 5, characterized in that as a glaze agent a suspension of igneous rocks or minerals in a concentrated Solution of phosphates or of silicates and borates in water is used. 7. Ancestors according to claim 6, characterized in that the used Suspension contains fine-grained perlite as suspended particles. 8. The method according to claim 7, characterized in that in the suspension colloidal perlite obtained by grinding expanded perlite is used. 9. The method according to any one of claims 4 to 8, characterized in that that pearlite with a grain size of less than 1 mm, preferably in the range of 0.1 to i), 6 inni, elnesetzt. 10. The method according to any one of claims 5 to 7, characterized in, that 0.1 to 0.2 l of suspension are used for 1 kg of perlite. 11. Use of the granules according to any one of claims 1 to 3 as Additive for mortar, in particular for plastering mortar for the production of insulating plaster.