Beneficiation of Ultrafine Cassiterite from a Tin Tailings by Flotation

Yong Cheng Zhou; Xiong Tong; Xiao Wang; Zheng Bin Deng; Xian Xie; Feng Xie

doi:10.4028/www.scientific.net/AMR.616-618.643

Paper Titles

Application of New Flotation Machine on Phosphate Flotation
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Cyanide Leaching Experiment Research on Gold - Bearing Tailings
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Oxygen Diffusivity of La_0.6Sr_0.4Co_0.2Fe_0.8O_3-δ Perovskite Oxide
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Research on the Flotation Process of a Complex Lead-Zinc Ore in Lanping
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Beneficiation of Ultrafine Cassiterite from a Tin Tailings by Flotation
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Investigation on Improving the Recovery of Molybdenum in Bulk Flotation of Mo-Copper Sulphide Ore
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Jet Flotation Column System Structure Design and Numerical Simulation of Two-Phase Flow
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Conveying Characteristics of a New-Type Dry Separator
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Numerical Simulation Optimization Study on Adjusting Well Pattern and Productive Series in Xingqi Area
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 616-618Beneficiation of Ultrafine Cassiterite from a Tin...

Beneficiation of Ultrafine Cassiterite from a Tin Tailings by Flotation

Abstract:

With the continuous depletion of primary tin ores, tin tailings has become an important source for the production of tin; however, the large-scale utilization of tin tailings is disappointedly scarce, due to its leanness in valuable minerals and insufficient methods available for processing such low-grade tailings. A flotation process has been used on a laboratory scale to investigate the effects of various reagents such as salicylhydroxamic acid, lead nitrate, sodium hexametaphosphate and pine oil on tin recovery at neutral pulp. Because cassiterite is friable and a large amount of fines and slimes were generated, usually de-sliming is used to prevent slime coating and to increase the recovery of tin. However, analyses have shown that fine particles in the sample mostly contain tin, thus de-sliming was not suggested. By applying the process, ultrafine cassiterite could be efficiently recovered from the slime tailings, and the concentrate assaying 1.82% Sn with a recovery of 76.90% was obtained.