SU696750A1 - Method for recovering copper from pyrite-bearing sulfide raw material - Google Patents

Abstract

METHOD OF EXTRACTION OF COPPER FROM PIRITS-CONTAINING SULFIDE CONTROL ,. including burning it without air access for 1-2 hours and magnetic separation of the calcine, characterized in that, in order to increase the selectivity of separation of the raw material tones, the candle ends are cooled at a speed of 2 to 4 degrees / min and magnetic separation is first carried out at The magnetic field is 1200-1500 Oe for the separation of iron sulphides, and then with a strength of 4500-6000 Oe to release copper sulphides.

Description

S

PTV SCHZNOYERSH

Claims (3)

METHOD FOR REMOVING COPPER FROM PYRITE-CONTAINING SULPHIDE RAW MATERIALS. including firing it without air for 1-2 hours and magnetic separation of the cinder, characterized in that, in order to increase the selectivity of separation of the components of the raw material, the cinder is cooled at a speed of 24 deg / min, and magnetic separation is carried out first at a magnetic field of 1200- 1500 Oe for separating iron sulfides, and then at a tension of 4500-6000 Oe for separating copper sulfides. The output of the magnetic fraction is 100%. X-ray phase and chemical analyzes established that the composition of the heat treatment product corresponded to tetragonal chalcopyrite with a sulfur deficiency. Similar results were obtained during heat treatment * without access of air of the starting material at 750 ° C for 1 h and cooling at a speed of 2 deg / min. PRI me R 2. A synthetic mixture of pure chalcosine, pyrite and sphalerite monominerals of the same size 0.1-0.063 mm in a weight ratio of 1: 5: 2, respectively (approximate ratio in ore) was subjected to heat treatment without air at 750 ° C for 2 hours and cooled at a speed of 2 deg / min. X-ray phase analysis showed that copper in the heat treatment product is present only in the form of chalcopyrite, resulting from the 'solid-phase interaction of chalcosine in the initial mixture with the decomposition products of pyrite. Separation at a magnetic field strength of 1200 Oe extracts 72.6-73% of iron sulfides that do not interact with chalcosine in the magnetic fraction. By rotational separation of the residue at a magnetic field of 6000 Oe, 94.696.0% of copper in the form of tetragonal chalcopyrite is extracted into the second magnetic fraction. Sphalerite is concentrated in the non-magnetic residue. P r im er 3. Ore with a size of 0.1-0.063 mm was subjected to heat treatment for 1 h at 750 ° С without air access and subsequent cooling at a speed of 2 deg / min. In the initial ore, copper was present in the form of diamagnetic tetragonal chalcopyrite. The product of thermal decomposition after removal of iron sulfides by magnetic separation at a field strength of 1500_E- was re-separated at a magnetic field of 6000 E. Copper recovery was 87.5-88.0%. Lead and zinc are concentrated in the non-magnetic residue. The proposed method for extracting honey from pyrite-containing sulfide, raw materials in comparison with existing methods provides: increased selective separation of the feedstock; reduction in cost and intensification of the process by a factor of 2–3 due to the exclusion of flotation enrichment of a copper-containing product (mainly chalcopyrite); the possibility of processing pyrite-containing raw materials containing copper in any sulfide mineralogical form. 627_Subscription _______ __ g, Uzhgorod, ul.Proektnaya?