DE416765C - Process for the production of an iron cement - Google Patents

Description

Process for the production of an iron cement. Subject of the invention is a compound of lime and iron oxide, which according to special, described below Conditions is established.

The formation of this iron cement is based on the following experimental ones Observations: A mixture of iron oxide or iron oxide hydrate and calcium carbonate, that consists of 2 molecules of calcium carbonate on 1 molecule of Fe, 03, or that essentially Contains smaller amounts of calcium carbonate, no hydraulic product is entirely regardless of the temperature at which the mixture is fired. The ferrates formed in the process are unable to set.

A mixture that has a much larger amount of calcium carbonate than the specified, (l. 1i. more than: 2 molecules of calcium carbonate on 1 molecule of Fe_ O ", Contains a hy- (Iraulisclies product can supply if it is under certain conditions is burned.

The connection between iron oxide and lime begins at temperature the splitting off of carbonic acid; if the burning is continued up to a temperature of 100 °, inan receives a liydratilisclies product, (it slowly sets. The resulting Cement has less good properties when the firing temperature is near the melting point approaching. After the mass has melted, the mixture has no liydratilischen Properties more.

The mix that provides the best hydraulic mix is made from 3 ', \ molecular calcium carbonate,' -as corresponds to the formation of a tricalcium ferrate. However, mixtures that deviate slightly from this ratio upwards or downwards give also good cements.

If the starting materials contain silica or alumina, apply z.% more calcium carbonate in a corner, namely 1 molecule more calcium carbonate on 1 molecule of clay and: 2 more molecules of calcium carbonate on 1 molecule of silica.

The following substances can be used as iron oxide: those used when roasting Iron pyrite, some sulfur-containing burns, iron ores, ocher types, the residues from alumina factories, etc.

For example, one uses 160 kg of pyrite burned off, 300 kg of limestone with a content of 98 percent calcium carbonate. The specified amount of limestone also contains the amount of calcium carbonate that is necessary to replace the sulphides remaining in the pyrite burns. These substances are crushed and dry or wet together ", emiscbt. The: cup is fired in a rotary kiln or some other kiln system after it has been appropriately mixed with 2 to 30 percent water. Firing takes place at about 100 ° without exceeding this temperature too much. Unlike other cements, the mass does not need to be crushed very carefully.

Burn-offs are particularly suitable for the production of this Iron cement and fin (len in this way an interesting application it is necessary, as has already been mentioned, the amount of lime in consideration of the amount of lime in these To increase the presence of silica and alumina. In the same way it is necessary, i molecule of lime for i atom of sulfur, which may be present in the burn-offs, to add. When the sulfur is saturated in this way, it does not form any Obstacle to the production of the target. When burning, make sure that that there is no reduction in wetness.

When using pyrite burn-off, the specified firing temperature is from 110o ° a bit low. In this case one must do a good cement to obtain burn at 1-25o °. Here too, however, the essential condition for burning is that the firing temperature remains below the melting point.

The fish cement, which is within the applied mixing and temperature limiters. is a slow-setting cement. He is completely resilient against sea water and hard water. After setting it will be in such water when immersed, it becomes very resilient.

Claims (3)

PATE NT-AiVSPRtiCHR: i. Method of making one against seawater and hard water resistant iron cement, characterized in that a mixture of at least 2 molecules of lime on i 2, 1 molecule of iron oxide, and if so Alumina is present, i 'molecule of lime on i molecule of alumina, possibly without content of silicic acid, made and named below the melting point of the mass Temperature is fired. 2. The method according to claim i, characterized in that that the starting mixture when using silicic acid-containing starting materials or Sulfur-containing pvritic burns 2 molecules of calcium carbonate on 1 molecule of silica and i molecule of calcium carbonate is added to i atom of sulfur. 3. Procedure according to Claim i and 2, characterized by the use of a firing temperature between i ioo and 1300 ".