SU624654A1 - Collector agent for oxidized non-ferrous metal minerals - Google Patents

Description

(54) REAGENT COLLECTOR OF OXIDIZED MINERALS OF NON-FERROUS METALS

Claims (1)

The invention relates to the enrichment of non-ferrous metal ores and may be used in the flotation of oxidized forks of non-ferrous metal minerals. It is known to use for this purpose carboxylic acids of a fatty series and their derivatives, syrup oil containing a mixture of fatty acids, hydroxycarboxylic acids and other LlJ. These reagents are strong collectors of oxidized minerals, but their selectivity is not sufficient. It is also known as collectors of oxidized minerals of dicarboxylic acids, which are both of them with a carbon atom number of 12–16 and used for flotation, cotaund, cyterite, fluorite and barite G2. Alifs (tatic dicarboxylic acids have strong foaming properties and low selectivity, resulting in the flotation of slime ores into a concentrate a large amount of waste carbonates. In addition, when flotation of polymetallic ores with aliphatic dicarboxylic acids, barite of polymetallic ores with aliphatic dicarboxylic acids, aliphatic dicarboxylic acids, aliphatic dicarboxylic acids, aliphatic dicarboxylic acids, aliphatic dicarboxylic acids, aliphatic dicarboxylic acids, aliphatic dicarboxylic acids, aliphatic uncarbonic acids, aliphatic uncarbonic acids, aliphatic uncarbonic acids, aliphatic uncarbonic acids, aliphatic uncarbonic acids, aliphatic dicarboxylate lead and zinc passes into barite, which is undesirable. The aim of the invention is to increase the extracted 1shit metals to the concentrate without sacrificing its quality. As a collector of oxidized minerals in the flotation of methylene diphthalic acid ores of the formula: Methylenediphthalic acid has been tested under similar conditions, one of the complexed aliphatic acids is undecane-a ;;, a-dicarboxylic acid and aromatic dicarboxylic acid phthalic acid. minerals. color ..--. ... -f "U.Ch1 | G, nycs of metals, and amameltot up to 85% class, minus O, 074 mm, flotation experience is carried out in the next solution mode. Main flotation | in g / t) g Consumption, sodium sulphide 300 Consumption of butyl xsatat 10O Reagent consumption T-66, 120 Consumption of d-carboxylic acid 25 fpotashsh 3 min. Control flotation (in g / t); Consumption of Haipi Serinous “i 150 Consumption of butyl xaitate 50 Consumption of reagent T-bv 6O Divarboxylic acid consumption 25 Flotation time 7 man. The use of methacyl acid 4 of talic acid leads to an increase in copper and copper in concentrate by 9%, while at the same time, by Blacks, its contents in the tails are 0.11%, of lead - by 0.9%, almost without a decrease in the quality of the concentrates, the correction of sy-carboxylic acid causes a strong increase in the yield of concentrate, significantly reducing its quality. v oe -initMit tiu degrading its quality. The use of phthalic acid does not lead to a positive e4x}) ect. Ta4 | In the IMM manner, the main advantage of the proposed invention consists in the continuous extraction of oxidized minerals in the ores of preserving the quality of the concentrate. Formula. Invention. The use of methylene shphthalic acid of the formula: HOOS COOH as a reagent-collector of oxidized minerals from 1 metals at flotah ores. Sources of information taken into account during the examination: 1. Shubov A. Ya. Patented flotation reagents and their application M .., Nedra, 1975, p. 84-87. 2. (u {Horei and die Eif5rtuwj5 vort Dikoit bort oBs grtuwd vott Dikofrbort aBs P olotbori5soiv "wber, leue Bev boiuechrtiU ,, No. 7, P.532-536.