DE1188500B - Mortar mix and method of processing on an extruder - Google Patents

Description

Mortar mix and method of processing on an extruder Addendum to Patent: 1129 411 The present invention relates to a mortar mix for the production of lime concrete, a material that is a combination of concrete and sand-lime brick represents.

There are already mortar mixes for particularly high-quality concrete become known, for example the mortar mixture according to patent 1129 411, which is characterized in that it is used as components cement and aggregates in the Has a weight ratio of 1: 3.0 to 1: 3.5. There is a grain size distribution of the aggregates in which the fine grain size class below 0.2 mm with a proportion of 6 to 12 percent by weight is present and the finest grain of the size class 0.2 to 1 mm has a proportion that is common for both of the size classes mentioned gives approximately (30 ± 6) percent by weight. The remaining approximately (70 ± 6) percent by weight consist of at least 20 percent by weight of medium grain size class 1 to 3 mm and the rest from ballast of the size class 3 to 15 mm.

In the main patent 1129 411 it has also already been proposed in such Mortar mixes for high quality concrete the individual components relative to the whole Specify the amount of all solids in percent by weight. With the help of this rule a mortar mixture for high-quality concrete was specified, characterized by an amount of solids consisting of hydraulic binders and aggregates with a content of components of grain size class a below 0.2 mm of at least 25 percent by weight, of components of grain size class b = 0.2 to 1 mm of at least 8 percent by weight and of components of grain size class c = 1 to 15 mm of a maximum of 62 percent by weight, the constituents of grain size class a Share of at least 5 percent by weight of the total amount of hydraulic solids Contain binders.

The present invention relates to a mortar mix of the same Grain size distribution, but with different binders, and is characterized by that the binders consist of a mixture that is hydraulic type and Contains quicklime.

The invention also relates to a method for producing moldings from the above-mentioned mortar mixture and is characterized in that the addition of water plasticized mortar mixture processed in an extruder and the fresh Moldings are heat-treated in an autoclave under pressure for a few hours. The invention is illustrated below with reference to FIGS. 1 that a. Grain size chart shows the mortar mixture according to the invention explained in more detail.

It should first be noted that suggested earlier was to shorten the setting time of moldings made of concrete in that this Shaped bodies are subjected to a heat treatment, for example in a heating chamber by means of high pressure steam. This will shorten the curing time of such Achieved concrete moldings and a certain improvement in the quality of the same.

On the other hand, it is common in the manufacture of sand-lime bricks It is common practice to heat the fresh stones formed in a stone press under them to cure more or less high pressure in an autoclave. Given this heat treatment there is of course no reason at all, the well-known sand-lime brick mixture add a hydraulic binder such as cement. It was too not known that by a combination of measures of concrete technology with such sand-lime brick technology made any useful advances in manufacture would be expected or achievable from molded bodies.

When using the present special mortar mixture that consists of There are binders and aggregates, with a mixture of binders such hydraulic type, e.g. B. cement and quick lime is used, succeeds the production of moldings from a new type of "lime concrete" by using the Addition of water plasticized mortar mixture using an extruder in the Brought the desired shape and the fresh moldings in the manner of sand-lime bricks heat-treated in an autoclave under pressure. Those produced in this way Shaped bodies have significantly higher mechanical strengths than sand-lime bricks from the same mixture, but without hydraulic binders.

For example, a mortar mixture suitable for the production of extruded molded bodies from lime concrete can comprise the following components (the grain size classes a, b and c correspond to the definition given in the main patent, according to which the grain size class a contains the components smaller than 0.2 mm, the grain size class b those between 0 , 2 and 1 mm and grain size class c includes all solid components larger than 1 mm): 5 parts by weight of cement (100% belonging to grain size class a), quality PZ 225, 15 parts by weight of raw limestone meal (100% belonging to grain size class a), 6 Parts by weight of burnt ground lime (100% belonging to particle size class a), 74 parts by weight (particle size distribution a = 11.1; b = 18.5; c = 44.4).

This mortar mixture has the following grain size proportions of the total amount of solids: Grain size class a = 37.1 percent by weight Grain size class b = 18.5 percent by weight Grain size class c = 44.4 percent by weight The binder content is 11 percent by weight, namely 5 or 6 percent by weight of cement or lime. In the grain size diagram of the figure, which corresponds to that of the main patent and shows the delimitation A of the range of high-quality and extrudable mortar mixtures described there, the extrudable lime concrete mixture according to the example just described corresponds to point K1.

This amount of solids becomes after the appropriate addition of water the desired fittings are made with a screw extruder and then For 5 hours at elevated temperature in an autoclave with 8 to 16 atmospheric pressure hardened. The moldings produced in this way show a significantly higher compressive strength as roughly sand-lime brick moldings made from 6 parts by weight of lime and 74 parts by weight Sand, as used in the present example, is a common sand-lime brick mixture.

Used in the same lime concrete mix as described above, the The proportion of limestone raw meal increased to 30 to 60 parts by weight, so result higher compressive strengths for the lime concrete fittings made from it.

The moldings that can be produced with the present mortar mixture Lime concrete is completely waterproof and also acid-proof. Because of this, can the mixture mentioned with advantage also for the production of extruded pipes made of lime concrete can be used.

In compliance with the rule for the grain size distribution given in the main patent the amount of solids can. the cement content can be significantly reduced, if at the same time the proportion of lime is increased accordingly; this can be used stable, durable and usable extruded lime concrete moldings according to the present process. Such mortar mixtures with greatly reduced Cement content and the extruded moldings produced from it are noticeably cheaper, because lime is cheaper than cement.

Such a mixture with reduced cement content, which turns out to be Has proven extrudable and usable is indicated below: 2 parts by weight Cement PZ 225, 25 parts by weight of raw limestone meal, 14 parts by weight of quick lime, 59 parts by weight of sand (grain size distribution a = 1.1; b = 10.4; c = 47.5).

The grain size distribution of the total amount of solids thus has the following Proportions on: grain size class a = 42.1 percent by weight, grain size class b = 10.4 Percentage by weight of grain size class c = 47.5 per cent by weight of this lime concrete mixture corresponds to point K2 in the grain size diagram according to the figure.

In the lime concrete mix, if the required fine grain content of grain size class a in a different way, for example by adding raw stone meal, fine-grained Sand or the like is guaranteed, the lime content can also be reduced up to about 4 to 6 percent by weight of the amount of solids.

All within the line in the figure's grain size diagram Lime concrete embankments in the delimited area can be extruded.

Claims (6)

Claims: 1. Mortar mixture for the production of moldings by means of a continuously operating extruder from one of binders and aggregates existing solid amount with a content of constituents of grain size class a below 0.2 mm of at least 25 percent by weight of components of grain size class b = 0.2 to 1 mm of at least 8 percent by weight and of components the grain size class c = 1 to 15 mm of a maximum of 62 percent by weight, with the Components of grain size class a have a proportion of at least 5 percent by weight the total amount of solids contained in binders according to patent 1129411, characterized in that the binders consist of a mixture, the such hydraulic type and quick lime. 2. Process for the production of Shaped bodies from the mortar mixture according to Claim 1, characterized in that the mortar mixture made plastic by the addition of water is processed in an extruder and the fresh moldings in an autoclave under pressure for a few hours be heat treated. 3. Mortar mixture according to claim 1, characterized in that that the constituents of grain size class a have a proportion of over 10 percent by weight contain the total amount of solids in limestone raw meal. 4. Mortar mix after Claim 1, characterized in that the components of grain size class a a proportion of 30 to 60 percent by weight of the total amount of solids of limestone raw meal contain. 5. mortar mixture according to claim 1, characterized in that that the mixture consists of the following components: 5 parts by weight of cement, 15 parts by weight Limestone raw meal, 6 parts by weight of burnt, ground lime, 74 parts by weight Sand. 6. mortar mixture according to claim 1, characterized in that the mixture consists of the following components: 2 parts by weight of cement, 25 parts by weight of raw limestone meal, 14 parts by weight of burnt, ground lime, 59 parts by weight of sand.