RU2100457C1 - Silver affinage method - Google Patents

Abstract

FIELD: precious metal treatment. SUBSTANCE: invention relates to acid affinage of precious metals and can be used for purifying silver from gold impurities. In a method including dissolution of silver-containing products in nitric acid, precipitation of silver from solution in the form of silver nitrate followed by reducing precipitate, silver precipitate, prior to be reduced, is leached with mixture of hydrochloric and nitric acids to remove gold impurities. EFFECT: enhanced efficiency of affinage.

Description

 The invention relates to the field of metallurgy of precious metals, in particular to acid refining methods of precious metals and can be used to clean silver from gold impurities.

 A known method of refining precious metals, in which the gold-silver alloy is dissolved in concentrated sulfuric acid, when heated, converting silver, copper and other base metals into a solution. The resulting sulfate solution is drained, and the insoluble precipitate of gold is remelted into ingots of 996-999 samples. Silver sulfate crystallizes from a sulfate solution by cooling, the crystals of which are dissolved in hot water and then reduced with iron.

Reduced silver is remelted into ingots 980-990 samples [1]
The disadvantages of the method include the low degree of purification of refined silver from regulated metal impurities.

There is also known a method of refining precious metals, including dissolving a gold-silver alloy with nitric acid, to obtain a gold precipitate and converting silver to a solution, precipitating silver from a solution in the form of chloride, reducing it with iron or zinc, and melting gold and silver into an ingot in separate cycles [2]
The known method is the closest to the proposed and selected as a prototype.

 The disadvantages of the prototype also include a low degree of purification of refined silver from impurity metals, in particular gold.

 This is due to the fact that when gold-silver alloys are dissolved in acids (nitric, sulfuric), gold partially passes into a finely dispersed state and is precipitated with AgCl during its deposition.

 The objective of the invention is to increase the purity of refined silver according to the content of gold impurities by additional extraction of gold from a silver precipitate before its recovery.

 The problem is achieved in that in the method of refining silver, including the dissolution of silver-containing products with nitric acid, the deposition of silver from a solution in the form of silver chloride and its subsequent recovery from the precipitate, according to the invention, gold is preliminarily leached from the precipitate with a solution of a mixture of hydrochloric and nitric acid .

 The advantage of the proposed method is that the selective extraction of gold from a precipitate of silver chloride in a solution of a mixture of hydrochloric and nitric acids before the reduction of silver provides the possibility of reducing the gold content in refined silver by more than 2 times, which clearly does not follow from the prior art.

 The implementation of the method is illustrated by the following examples.

 Example 1 (prototype).

 A Dore alloy with a mass fraction of silver of 96% gold 3% is dissolved by heating with nitric acid to obtain a silver-containing nitric acid solution. Silver chloride is precipitated from a nitric solution of silver by the action of a solution of sodium chloride. The precipitate is washed with a solution of hydrochloric acid, hot water, and then dried. The precipitate of silver chloride thus prepared is treated with soda, reducing silver. The resulting silver in a known manner is melted down to an ingot to obtain a silver alloy with a mass fraction of impurities, Au 0.0010, Cu 0.0142, Fe 0.0026, Pb 0.017.

 Example 2 (by the proposed method).

 Alloy Dore with a mass fraction of silver 96% gold 3% analogously to example 1 is dissolved in nitric acid. From the resulting silver nitrate solution, silver chloride is precipitated with sodium chloride. Then gold is leached from the precipitate, treating the precipitate of silver chloride with a solution of a mixture of hydrochloric and nitric acids. The gold-containing solution is filtered off, the precipitate of silver chloride is washed with hot water, dried and restored in a known manner. The resulting silver is remelted to obtain a silver alloy with a mass fraction of impurities, Au 0.00040, Cu 0.0018, Fe 0.0001, Pb less than 0.0002.

 Thus, the proposed method, due to the distinctive features made according to the invention, allows to reduce the metal content of impurities in refined silver, including gold more than 2 times, and provides a mass fraction of gold in refined silver of less than 0,0006% regulated by the requirement of GOST 28595 -90 Silver bullion.

Claims (1)

 The method of silver refining, including the dissolution of silver-containing alloys with nitric acid, the deposition of silver from a solution in the form of silver chloride and its subsequent recovery from the precipitate, characterized in that gold is preliminarily leached from the precipitate with a solution of a mixture of hydrochloric and nitric acids.