Process for digestion of a metallic iridium- and/or iridium oxide-comprising mixture of solid particles

1 . A process for digestion of fine iridium, comprising the steps of: (a) alkaline oxidative digestion of 1 part by weight fine iridium and 3 to 20 parts by weight of a combination comprising 40 to 70 parts by weight sodium hydroxide, 15 to 30 parts by weight sodium nitrate, and 10 to 40 parts by weight sodium peroxide in the melt, whereby the sum of the weight fractions adds up to 100 parts by weight; (b) cooling the digestion material formed in step (a) to 20 to 70 ° C.; (c) dissolving the acid-soluble fractions of the cooled digestion material in water/halogen hydracid until an acidic aqueous solution with a pH value in the range of −1 to +1 is obtained; and (d) boiling the acidic aqueous solution obtained in step (c) until the formation of nitrous gases is completed; whereby a step (e) of separating insoluble ingredients from the acidic aqueous solution can take place before or after step (d), if needed. 2 . The process according to claim 1 , whereby the combination comprises 45 to 60 parts by weight sodium hydroxide, 15 to 25 parts by weight sodium nitrate, and 15 to 25 parts by weight sodium peroxide. 3 . The process according to claim 1 , whereby the combination comprises no further substances aside from sodium hydroxide, sodium nitrate, and sodium peroxide. 4 . The process according to claim 1 , whereby the sodium hydroxide is used first and the sodium peroxide is added after the addition of the fine iridium. 5 . The process according to claim 1 , whereby, after all components have been added completely, the melt thus obtained is made to have a temperature in the range of 600 to 660° C. and is maintained at this level for 2 to 5 hours. 6 . The process according to claim 1 , whereby a weight ratio of digestion material:water: 8N to 12N halogen hydracid in the range of 1:2-5:3-10 is used in process step (c). 7 . The process according to claim 1 , whereby the fine iridium is a mixture of inorganic solid particles that contains metallic iridium and/or iridium oxide at a total iridium content of the mixture of 20 to 99% by weight. 8 . The process according to claim 1 , whereby the fine iridium is a mixture of solid particles that consists of (A) 0 to 99% by weight metallic iridium; (B) 0 to 20% by weight of at least one elemental metal different from iridium, selected from the group of metals of atomic numbers 13, 21-30, 39-50, 72-76, and 78-82; (C) 0 to 99% by weight iridium oxide; (D) 0 to 70% by weight of at least one metal oxide different from iridium oxide; (E) 0 to 30% by weight of at least one inorganic substance different from (A) to (D); and (F) 0 to 1% by weight organic substance, whereby the sum of the weight fractions in % by weight of components (A) to (F) adds up to 100% by weight and the total iridium content of the fine iridium is 20 to 99% by weight. 9 . The process according to claim 8 , whereby the at least one metal oxide of component (D) is selected from the group consisting of the oxides of the metals of component (B), alkali metal oxides and/or alkaline earth metal oxides. 10 . The process according to claim 8 , whereby at least one inorganic substance of component (E) comprises neither (i) substances reacting acidic, nor (ii) substances that can be oxidised by means of sodium peroxide or sodium nitrate while producing fire or even an explosion. 11 . The process according to claim 8 , whereby the at least one inorganic substance of component (E) is selected from the group consisting of (i) solid non-metal oxides, (ii) simple or complex salts, (iii) oxo, sulfur and/or phosphorus compounds of one or more metals of atomic numbers 13, 21-30, 39-50, 72-82 different from oxides, simple salts, and complex salts of component (ii), and (iv) carbon. 12 . The process according to claim 7 , whereby the absolute grain sizes of the solid particles of the fine iridium is in the range of 50 to 200 μm.