SU1269846A1 - Method of dressing iron ores - Google Patents

Abstract

Invention m. used in the flotation concentration of iron ores to separate silicate minerals, in particular, in the preparation of high frequency magnetite concentrates for powder metallurgy. The purpose of the invention is to improve the technological parameters of the process while reducing the collector consumption by increasing the flotation activity of the latter. After the pulp has been conditioned by a cationic collector, silicate minerals are floated. Trio-quaternary ammonium salts based on pentamethyldipropylene triamine of the formula CH3 Hz) - (CHg | -2H- (CH3) g CHg CH2 CH2 -ccg, i COOR COOR COOR. (L where R is an alkyl group with carbon atoms. The invention improves the quality of the concentrate by reducing silica by 0.050, 08%, and reducing the consumption of the collector by 20-30%. 2 tablets from about 00 05 05

Description

The invention relates to mineral processing and can be used in flotation processing of iron ores for the separation of silicate minerals (quartz, mica, amphiboles, pyroxenes, cummingtonite, etc.), in particular when producing high-frequency magnetite concentrates (superconcentrates) for powder metallurgy.

The aim of the invention is to increase the technological parameters of the process while reducing the flow rate of the collector by enhancing the flotation activity of the latter.

Examples. Magnetite concentrate 1 and concentrate 2 are subjected to flotation concentration.

Concentrate 1. in fineness 95% class 40 microns contains total iron 71.6%; silica 0.35%.

Concentrate 2 in fineness 98% of class 40 microns contains total iron .71.4%; silica 0.66%.

Concentrates float known and proposed methods at variable costs collectors. The flotation scheme includes one operation in which the foam product enriched in silica is a domain concentrate and the chamber product is a superconcentrate. The experiments are carried out in an open cycle on a laboratory flotation machine FM-2M with a camera with a capacity of 150 ml. A portion of 40 g, T: W for conditioning is 1: 1, for flotation 1: 3. The duration of conditioning with collectors 3 minutes, the duration of flotation 2 minutes

The following cationic reagents are tested as collectors: the most famous cationic collector from the class of primary amines of the fatty series ANN (aminonitroparaffins chloride C _m - C _1G ), bis-quaternary ammonium base dichloride based on tetramethylethylenediamines with a length of C _fQ radicals and tris-quaternary ammonium trichlorides:

4- (Y-methyl-C-alkyloxycarbonylmethyl) ammonium heptamethylene bis ((Ν ', N ^y -dimethyl-N ¹ -alkyl sikar bonilmethyltylammonium]], trichlorides, where the alkyl is С ₁₀ ; j Cj — С _go .

Typical flotation results are shown in Tables 1 and 2 (average results from 5 experiments).

Implementation of the proposed method for flotation finishing of magnetite concentrates 1 and 2 allows, in comparison with the known ones, to reduce the silica content in concentrates from 0.18-0.25% to 0.15-0.12%, which allows to transfer concentrates to a higher grade (from 2 to 1) with a higher yield of concentrate 1 (by 5-10%) and maintaining the yield of ion 20 of centrate 2 at the same level.

The consumption of collectors, compared with bis-quaternary salt, is reduced by 20-30%.

Claims (1)

1 The invention relates to the enrichment of minerals and can be used in the four-concentration enrichment of iron ores to separate silicate minerals (quartz, mica, amphiboles, pyroxenes, cummingtonite, etc.) in particular in the preparation of high frequency magnetite concentrates (superconcentrates) for powder metallurgy. The aim of the invention is to increase the technological parameters of the process while reducing the collector's speed by increasing the photoactivity of the latter. Examples The flotation enrichment is subjected to magnetite concentrate 1 and concentrate .2 Concentrate 1. In a particle size of 95% class 40 μm, contains iron in total 71.6%; silica 0.35%. Concentrate 2 in a particle size of 98% class 40 µm contains best overall .71.4%; silica 0.66%. Concentrates mutate known and proposed methods with variable costs collectors. The flotation scheme includes one operation in which the silica-rich pen product is a domain concentrate and the chamber product is a masterbatch. The experiments were conducted in an open cycle on a laboratory fleet using an FM - 2 M machine with a 150 ml chamber. Sample 40 g, T: W at con (dicytation equals 1; 1, during flotation 1: 3, Duration with collectors for 3 minutes, 4m duration for 2 minutes, I experience the following cathiopic reagents as collectors: from the class of primary aNmnoB fatty series ANI (amine nitrile paraffin chloride C, -Gig), bis-quaternary ammonium dichloride based on tetramethylethylenediamine with a length of radicals, i, and tri-chloro tris-846 quaternary ammonium bases; ammonium heptamethylene bis (N, N -dimethyl-N -alkyloxycarbonylmethyl) ammonium-trichlorides, where alkyl is equal to Xiu; C; Cg-Cjo The typical results of flotation are shown in Tables 1 and 2 (average results from 5 experiments). Implementation of the proposed method for flotation finishing, magnetite concentrates 1 and 2 allow, in comparison with the known ones, to reduce the silica content in the concentrates from 0.18-0.25% to 0.15-0.12%, which allows to transfer the concentrates to a higher grade (from 2 in the 1st) with a higher yield of concentrate 1 (5-10%) and maintaining the output of concentrate 2 on former level. Consumption of collectors, compared with bis-quaternary salt, is reduced by 20-30%. Claims The method of enrichment of iron ores, including conditioning, pulp with a cationic collector and subsequent fractionation of silicate minerals, is about 10 hours and so that, in order to increase the technological indicators of the process while reducing the consumption of the collector due to the increased flotation activity of the latter, and as a collector, tri-Quaternary aMMomieBHe salts are introduced onto the main pentamethyldipropylene triamine of formula G. -L (CH3) 2M- (CH2) (CH2) h- (CH3) 2 CH2 COOR where R is an alkyl group with 8-20 carbon atoms. 3 Results of flotation finishing of magnetite concentrate 1 12698464 Table 1 By a known method Bis quaternary salt based on tetramethylethylenediamine (R Xu) Tris-Quaternary t4- (Nmethyl-N-decyloxycarbonylmethyl) ammonium) -heptamethylene bis (N, N -dimethyl-N -decyloxycarbonylmethyl) ammonium trichloride (10) salt The same salt, only technical product 71,8 71.8 Results 4 shots finishing Vis-quaternary sop based on TeTpaMeTifjioTHJieHflHaivim-ia (- g VK - L. | {,. at Tris - ChetBertic salt of 4- (K-metal-N-decyloxycarbonylmethyl) ammonium -hepta | g./style ibis- (.N, N -dimethyl) Continuation of table 1 Table 2 magnetite concentrate 2 Continuation of table 2