DE598507C - Process for the production of aluminum and aluminum alloys - Google Patents

Description

Process for the production of aluminum and aluminum alloys The industrial production of aluminum is generally carried out in this way; that clay, dissolved in a melt flow of iryolite, decomposed by direct current. The for This process required alumina is obtained in technology by using alumina Raw materials, especially bauxite, by treating with sodium carbonate or sodium hydroxide processed on sodium aluminate and then converted into aluminum oxide will.

Furthermore, there are also other methods of extraction recently of aluminum, which are based on the fact that the starting material containing alumina, z. B. bauxite, is converted into alumina by electrothermal means, the latter then as a starting material for the extraction of aluminum and aluminum alloys serves.

It is known that the primary aluminum previously obtained in the art and also its alloys, even if, according to the analysis result, they are exactly chemically the same Composition in their properties, e.g. B. with regard to machinability, castability, Quality of the alloys, sometimes subject to considerable fluctuations are. Even aluminum and aluminum alloys, which use one and the same working process are made and in the chemical analysis there are differences in composition do not reveal, often show quite different properties both in terms of their mechanical and chemical behavior, in particular their behavior against corrosive influences, which in processing and the manufacture of the objects to be made from it a certain uncertainty will be carried.

It has now been found that these difficulties are essentially due are based on that for the production of the previously technically produced aluminum, mainly for reasons of cheapness, generally by means of sodium compounds, e.g. B. over Sodium aluminate, from the mineral raw materials, e.g. B. Bauxite, manufactured intermediates, such as aluminum oxide can be used.

Experiments have shown that aluminum z. B. from potassium aluminate obtained by digesting bauxite or other alumina-containing raw materials with basic potassium compounds, has different properties than the aluminum previously produced in the factory from sodium aluminate with the help of cryolite, even if there are no analytical differences between the two products. The same applies to alloys such as aluminum-titanium alloys, also aluminum-boron, aluminum-zirconium alloys and the like. the like., which inter alia as Removing g e Recorded master alloys for the production of thermally-treatable (eg. B. nor of copper) have proved alloys. Further investigations have then shown that the properties of aluminum or aluminum alloys can be significantly improved or adjusted in the desired direction by using the aluminum or the alloy in a conventional manner, e.g. B. by electrolysis or thermally, from oxidic intermediate products such as aluminum oxide or aluminates, which are made from the mineral alumina starting materials such as bauxite, clay and the like, by reaction with basic compounds such as oxides or hydroxides, optionally mixtures such compounds, at least two different alkali metals, e.g. B. of sodium and potassium or sodium and lithium, etc., have been obtained.

In this way, it is possible to produce an aluminum that is similar to that in known way available aluminum both in terms of its uniformity Behavior when potting as well as in terms of its uniform mechanical Properties as well as especially in terms of its resistance to corrosive influences, e.g. B. the atmosphere, is considerably superior.

The same applies accordingly to the production of aluminum alloys.

The practical evaluation of the invention can be in various ways take place.

One can. z. B. proceed in such a way that one hand after aluminum usual methods, e.g. B. from by digesting bauxite with sodium carbonate or sodium hydroxide and electrolytic treatment of the sodium aluminate obtained alumina in a cryolite melt, while on the other hand Aluminum in the same way, but using the corresponding potassium compounds, generated. By melting the two products together in suitable proportions one can then produce products with properties improved in the above-mentioned manner achieve.

You can continue z. B. proceed in such a way that you bauxite with a Dissolves mixture of sodium and potassium hydroxide and the one obtained in this way Double aluminate aluminum oxide produced in the usual way in an electrolyte usual composition, e.g. B. in molten cryolite, electrolyzed.

Or you can also use part of the raw material, e.g. B. bauxite, by Reaction with sodium hydroxide and from another part of the raw material by reaction generate aluminum oxide with potassium hydroxide and so separated from a mixture of the two Parts made of alumina metallic aluminum by electrolysis in Separate the cryolite bath.

The potassium can be used to reduce costs in the digestion operations also in the form of cheap potassium-containing products, e.g. B. waste products, in the process to be introduced.

In a similar way one can also use aluminum alloys, which the show mentioned favorable properties, z. B. those that are still titanium, zircon, Boron, silicon or the like, optionally containing two or more such components, produce.

You can z. B. aluminum, which is made in the manner described below Participation of the basic compounds of at least two different alkali metals oxidic intermediate products generated from the starting materials was obtained with one or more alloy components produced in any way, e.g. B. by melting together.

Or you can also use aluminum, which is made up with the help of basic compounds an alkali metal, e.g. B. sodium, intermediate produced from the starting material is obtained, with at least one alloy metal, which from with the participation of basic Connections of at least one not used in the aluminum manufacturing process Alkali metal, e.g. B. potassium, produced intermediates, combine or in whole or in part from mixtures of the intermediate products of the alloy components go out and this by reduction, z. B. on electrolytic or electrothermal Ways to convert into the desired alloy, at least the one used to produce it one of the alloy components used intermediate products with the participation of at least two different alkali metals must be produced.

In this way of working you can, for. B. proceed so that one from Sodium aluminate or alumina obtained from sodium-potassium-aluminate together with Oxides of additives, e.g. B. titanium oxide, zirconium oxide, boron oxide, silicon oxide and the like, reduced that from the mineral raw materials of the additives concerned, z. B. by treatment with hydroxides or carbonates of at least one other alkali metal via intermediate products such as potassium titanate or potassium sodium titanate, potassium borate or potassium sodium borate or the like. The proportions the alkali compounds used for the production of the intermediate products vary within considerable limits. In general one can proceed in this way, that mainly used sodium compounds and potassium compounds in additional Quantities are introduced, with too. simultaneously hydroxides and / or oxides and / or carbonates of the alkali metals concerned can be used. links the strongly electronegative potassium should generally always be present be. There are sometimes enough amounts of z. B. 2 ° 4 of the total used Alkali compounds. However, potassium compounds can also be found in considerably larger ones Amounts that are up to 5o% and more of the amount of total alkali compounds used can be applied.

Another in the context of the invention in the form of its basic compounds applicable alkali metal is primarily lithium, its compounds in addition to or in association with the compounds, e.g. B. of sodium or potassium or both, can be applied. The amounts of lithium compounds are im Very low compared to those of the other alkali metal compounds; they do not amount to more than 5% of the total alkali metal compounds used and are generally kept below 3 °) o of the same.

The invention is not related to the electrolytic production of aluminum and aluminum alloys limited; Rather, it can be in a meaningful way also the production of aluminum or aluminum alloys as well as the the oxidic precursors, e.g. B. alumina or allcal aluminate, on any other Because of, e.g. B. by means of electrothermal processes, with the participation of the oxides and / or hydroxides and / or carbonates of various alkali metals take place.

Through the work of H o o p s and B e t t s is a method for Production of pure aluminum has become known, which consists in that of bauxite by a double electrolytic process - first an alloy of aluminum-copper-silicon and this is then processed on pure aluminum. Through this procedure one arrives at an aluminum which has the unfavorable properties mentioned at the beginning of the usual primary aluminum no longer has a disturbing effect. This pure aluminum But the price is twice as high as primary aluminum.

The present invention makes it possible to overcome the disadvantages mentioned of aluminum or its alloys produced in the usual way in a simple manner and much cheaper ways to fix, with the method still having the advantage offers that it is largely adapted to the desired properties of the products can be and also for the immediate production of high quality thermally temperable Aluminum alloys is suitable.

The advantages of the present method, e.g. B. in terms of the increase compared to the corrosion resistance of aluminum produced according to the invention in a known manner only by means of basic compounds of a single alkali metal produced intermediate products produced aluminum result from the following Comparison tests.

On the one hand by known methods and on the other hand by the present process aluminum, the content of Al both times 99.5 Test bars were cast. These rods were made in the usual way Testing for tensile strength and elongation exposed, once in unchanged condition and the other time after a pretreatment by spraying a solution of common salt according to the standard for testing corrosion resistance Procedure in which the treatment time for all test rods was 20 days.

Section A of the following table shows the results that were achieved were made with an aluminum called "Al-soft", which was obtained in a known manner was by electrolysis of aluminum oxide in a molten cryolite bath, whereby the Aluminum oxide was produced in the usual way from bauxite by means of sodium carbonate manufactured sodium aluminate.

Section B shows the results that were achieved with a AK designated aluminum, which is produced by the method according to the present invention was by electrolysis of aluminum oxide in a molten cryolite bath, whereby the 85% of aluminum oxide was produced from bauxite by means of sodium carbonate Sodium aluminate produced and at 15 ° i, from bauxite by means of potassium carbonate produced potassium aluminate.

The table shows the significantly lower influence of the corrosion treatment on the mechanical properties of the aluminum produced according to the invention, while the significantly stronger attack on the surface of the aluminum produced according to the known method was also clearly visible to the eye. A aluminum with 99.5% Al, made from aluminum oxide (by melt flow electrolysis in a cryolite bath), which was obtained from sodium aluminate, which was made by treating bauxite with sodium carbonate only. Designation: Al-soft. B Aluminum with 99.5% Al, produced from aluminum oxide (by fused-salt electrolysis in a cryolite bath), 85% of which was produced from sodium aluminate, produced by treating bauxite with sodium carbonate and 15% from potassium aluminate, produced by treating Bauxite with potassium carbonate Designation: AK 1, 9, '#, 14 and 15. I. Before the corrosion treatment Designation 1 tensile strength l elongation AI-soft a .... 9.6 36.6 AI-soft b .... 9.6 36.6 II After the corrosion treatment Designation 1 Tensile strength l De °) o hnung AI-soft a .... 8.0 9.5 AI-soft b .... 8.5 1215 i i I. Before the corrosion treatment Designation tensile strength elongation /O AK i ......... 9) 40 36.0 AK 9 ......... 9, i5 37.0 AK 14. :. . . . . . . 8.40 32.0 AK 15 ..... ..... 9.0o 32.0 II After the corrosion treatment Designation 1 tensile strength) elongation AK i ......... 913 26.0 AK 9 ......... 8.8 3520 AK 14. . . . . . . . . 8.5 28.5 AK 15 ......... 9.1 30, o

Claims (7)

PATL-NTAN SPRAY: i. Process for the extraction of aluminum from especially favorable mechanical properties as well as particularly high corrosion resistance, z. B. by electrolysis or by thermal reduction of oxidic intermediates, such as aluminum oxide or aluminates, which are made from raw materials containing alumina, such as clay or bauxite, obtained by treatment with basic alkali compounds, characterized in that in the production of the aluminum a total of such Intermediate products are used, which are made from the starting materials by means of basic Compounds of at least two different alkali metals were obtained. 2. Procedure according to claim i, characterized in that during the production of the aluminum an oxidic intermediate is used, which mediates from the starting material basic compounds of at least two different alkali metals have been obtained is. 3. The method according to claim i, characterized in that during manufacture of the aluminum several oxidic intermediates are used at the same time, one of which from the starting material by means of basic compounds one different alkali metal than the other or the others. q .. procedure according to claim i, characterized in that one made of a raw material is used oxidic intermediate produced from basic compounds of an alkali metal and separately one using basic compounds at least one intermediate product obtained from other alkali metals processed on aluminum and that aluminum thus obtained with that obtained from the first-mentioned intermediate Aluminum is combined. 5. Further development of the method according to the claims i to 3 for the production of aluminum alloys, characterized in that from a mixture of oxidic compounds of the alloy components consisting of: the Starting materials together or separately using basic compounds at least two different alkali metals were obtained, the desired alloy, z. B. by electrolysis or thermal reduction, is deposited. 6. Others Formation of the method according to claims i to 3 for the production of aluminum alloys, characterized in that aluminum, which is made according to the claims mentioned Intermediates was made from the starting materials by reaction with basic compounds at least two different alkali metals were obtained, with one or more Alloy components is brought to the union. 7. The method according to the claims z to 6, characterized in that for the preparation: the intermediate products compounds of lithium in a relatively small amount in addition to those of other alkali metals Find use. B. The application of the method according to claims 5 to 7 for Manufacture of heat-treatable alloys.