DE1167541B - Process for the electrolytic pre-separation of silver-gold alloys - Google Patents

Description

Process for the electrolytic pre-deposition of silver-gold alloys The invention relates to a method for the electrolytic pre-deposition of silver-gold alloys high silver content with a very low base metal content in individual baths according to M ö b i u s or B a 1 b a c h -Thum. It is known that silver-gold alloys Resistant to aqua regia and electrolytic influences over a wide range is. There has been no shortage of attempts to resolve these difficulties in divorce to bypass. The chemical, i.e. H. wet divorce by the quart and more recently the electrolytic separation by means of a separating alloy, which has a gold content of a maximum of 8 to 10%. The gold stays with the latter Method as anode sludge. In many cases, this pre-emptive method is very good useful and a useful component of silver electrolysis.

However, should relatively large amounts of gold in relation to the continuously accumulating The amount of silver to be processed using this method requires significant amounts of silver be circulated. The disadvantages of this electrolytic method are known; a high silver stick has to be continuously and uselessly electrolyzed in a circle, and the gold contained in the anodes remains anodically as sludge.

This process requires a lot of energy and prepares high running costs. The risk of loss for precious metal is with the fine Distribution of gold quite large. For the reasons stated, the procedure took place little use in practice.

In contrast, it is proposed according to the invention, for electrolytic Pre-separation of silver-gold alloys with high silver content and very low Base metal content in single baths according to Möbius or Balbach-Thum a separating alloy from 20% oo to o0% oo fine gold content and, apart from the residual silver, a maximum of 2.5% base metal content to use and as an anode 4 to 6 mm thick in a nitric acid electrolyte to work up with the separation of crystalline fine silver, whereby in known Way, the base metal components are kept in solution by the equivalent silver nitrate and the residual gold anode while maintaining its outline shape with full cohesion Remains in a skeletal structure.

The application of the method according to the invention is in electrolysis apparatus with static electrolytes as well as in those with moving electrolytes and in the latter case offers the advantage that as a result of a more uniform ion concentration a denser separation takes place. By restricting the base metal content the separation alloy in this process to a maximum of 2.5% is achieved that It is still possible to work with an equivalent silver stick, since this is relatively low Amounts of silver are required as can be seen from the diagram. For example, if 2% base metal is contained in a silver-gold alloy with 25% oo Au the base metal content in the non-gold portion of the separating alloy 25/000; for this are the diagram shows about 8.5% of the deposited silver in the bath; this procedure thus results in very good economic efficiency.

The residual gold anode is brittle when fully cohesive and can be Can be easily crushed and converted into gold anodes with an average fineness of sao / ooo shed.

A current density of D, 4 = 250 to 400 A / m2 is expediently used, the current yield does not fall below 95 0/0. Towards the end of the preliminary electrolysis the bath voltage increases; the anode becomes practically insoluble. This jump in tension can be used to monitor the pre-separation process.

The great importance of the process according to the invention is due in particular to the fact that the cutting alloys obtained in practice often contain some base metal. By adding as much silver as possible, the base metal content of the separating alloys is reduced to the specified value and one can now make use of the fact that 1 Au .... about 4.0 g Ag but only about 1.1 g Cu is deposited. This results in the substantial gain in time and energy of the preliminary separation according to the invention, which is rich in silver compared with low-silver alloys, and thus the considerably better economic efficiency compared to the previous state of the art. Furthermore, the preliminary separation according to the method according to the invention can be carried out almost maintenance-free, without disruptive acid vapors and practically without loss of precious metal.

The degree of purity of the pre-deposited anode is well suited for the gold electrolysis to be carried out afterwards according to W oh 1 w 111.

Claims (2)

Claims: 1. Method for the electrolytic pre-separation of Silver-gold alloys with a high silver content with a very low proportion of base metals in single baths according to M ö b i u s or B a 1 b a c h-Thum, characterized in that a separating alloy of 200/0oo to 30% oo fine gold content and apart from the remaining silver a maximum of 2.51 / o base metal content is used and the anode is 4 to 6 mm thick in a nitric acid electrolyte with the separation of crystalline fine silver is worked up, the base metal components being replaced by the equivalent in a known manner Silver nitrate are kept in solution and the residual gold anode while preserving their Outline shape remains in full cohesion in a skeletal structure. 2. Procedure according to claim 1, characterized in that apparatus with resting and / or with moving electrolyte can be used.