A depressant for marmatite flotation: Synthesis, characterisation and floatation performance

Tichen Wang; Guiju Sun; Jiushuai Deng; Hongxiang Xu; Guoyong Wang; Mingzhen Hu; Qizheng Qin; Xiaohao Sun

doi:10.1007/s12613-022-2586-1

International Journal of Minerals, Metallurgy, and Materials ›› 2023, Vol. 30 ›› Issue (6) : 1048 -1056. DOI: 10.1007/s12613-022-2586-1

Article

A depressant for marmatite flotation: Synthesis, characterisation and floatation performance

Tichen Wang ¹^,²
, Guiju Sun ⁴
, Jiushuai Deng ¹^,²^,³^,^c
, Hongxiang Xu ¹^,²^,^d
, Guoyong Wang ¹^,²
, Mingzhen Hu ³
, Qizheng Qin ¹^,²
, Xiaohao Sun ¹^,²

Author information +

History +

PDF

Abstract

This study synthesised a zincic salt (ZS) as a depressant for marmatite—galena separation. The effect of ZS on the flotation of marmatite and galena was investigated through micro-flotation tests. 88.89% of the galena was recovered and 83.39% of the marmatite was depressed with ZS dosage of 750 mg·L⁻¹ at pH = 4. The depression mechanism of ZS on marmatite was investigated by a variety of techniques, including adsorption measurements, Fourier transform infrared (FTIR), X-ray photoelectron spectroscopic (XPS) analysis, and time of flight secondary ion mass spectrometry (ToF-SIMS). Results of adsorption tests and FTIR reveal that ZS adsorbed on marmatite surface and impeded the subsequent adsorption of butyl xanthate (BX). The results of XPS and ToF-SIMS indicate that the ZnO₂ ²⁻ released by ZS could be chemisorbed on the marmatite surface and depress marmatite flotation.

Keywords

marmatite / zincic salt / flotation separation / depression mechanism / time of flight secondary ion mass spectrometry

Cite this article

Download citation ▾

Tichen Wang, Guiju Sun, Jiushuai Deng, Hongxiang Xu, Guoyong Wang, Mingzhen Hu, Qizheng Qin, Xiaohao Sun. A depressant for marmatite flotation: Synthesis, characterisation and floatation performance. International Journal of Minerals, Metallurgy, and Materials, 2023, 30(6): 1048-1056 DOI:10.1007/s12613-022-2586-1

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	H. Lai, J.S. Deng, G.X. Fan, et al., Mechanism study of xanthate adsorption on sphalerite/marmatite surfaces by ToF-SIMS analysis and flotation, Minerals, 9(2019), No. 4, art. No. 205.

[2]	Chen Y, Chen JH, Guo J. A DFT study on the effect of lattice impurities on the electronic structures and floatability of sphalerite. Miner. Eng., 2010, 23(14): 1120.

[3]	Wen SM, Liu J, Deng JS. Interactions among components of fluid inclusions in sulfide mineral, mineral surfaces, and collectors. Fluid Inclusion Effect in Flotation of Sulfide Minerals, 2021, Amsterdam, Elsevier, 179.

[4]	Cai JZ, Deng JS, Wang L, et al. Reagent types and action mechanisms in ilmenite flotation: A review. Int. J. Miner. Metall. Mater., 2022, 29(9): 1656.

[5]	Feng B, Zhang LZ, Zhang WP, Wang HH, Gao ZY. Mechanism of calcium lignosulfonate in apatite and dolomite flotation system. Int. J. Miner. Metall. Mater., 2022, 29(9): 1697.

[6]	Liu WB, Huang WX, Rao F, Zhu ZL, Zheng YM, Wen SM. Utilization of DTAB as a collector for the reverse flotation separation of quartz from fluorapatite. Int. J. Miner. Metall. Mater., 2022, 29(3): 446.

[7]	B. Feng, C.H. Zhong, L.Z. Zhang, Y.T. Guo, T. Wang, and Z.Q. Huang, Effect of surface oxidation on the depression of sphalerite by locust bean gum, Miner. Eng., 146(2020), art. No. 106142.

[8]	X. Zhang, M.Z. Huangfu, J.S. Deng, et al., Surface characteristics and flotation behaviours of specularite as influenced by lead ion modification, Sep. Purif. Technol., 276(2021), art. No. 119384.

[9]	W.Y. Cui, Y.C. Liu, L.X. Liang, and J.H. Chen, Cyanide-free separation of high pyrrhotite Zn-S bulk concentrate, Miner. Eng., 170(2021), art. No. 107052.

[10]	X.R. Zhang, W. Xiong, L. Lu, et al., A novel synthetic polymer depressant for the flotation separation of chalcopyrite and galena and insights into its interfacial adsorption mechanism, Sep. Purif. Technol., 279(2021), art. No. 119658.

[11]	Wang J, Zhang Q, Qiu YQ, Li LJ, Ye JJ, Cui WY. The first principles of the crystal structure and active sites of calcite. Chin. J. Eng., 2017, 39(4): 487.

[12]	S.D. Zhang, Z.B. Deng, X. Xie, and X. Tong, Study on the depression mechanism of calcium on the flotation of high-iron sphalerite under a high-alkalinity environment, Miner. Eng., 160(2021), art. No. 106700.

[13]	Liu RQ, Sun W, Hu YH, Wang DZ. Surface chemical study of the selective separation of chalcopyrite and marmatite. Min. Sci. Technol. China, 2010, 20(4): 542.

[14]	Bu XZ, Chen FF, Chen W, Ding YH. The effect of whey protein on the surface property of the copper-activated marmatite in xanthate flotation system. Appl. Surf. Sci., 2019, 479, 303.

[15]	Qin WQ, Jiao F, Sun W, et al. Effects of sodium salt of N,N-dimethyldi-thiocarbamate on floatability of chalcopyrite, sphalerite, marmatite and its adsorption properties. Colloids Surf. A, 2013, 421, 181.

[16]	Yin WZ, Tang Y. Interactive effect of minerals on complex ore flotation: A brief review. Int. J. Miner. Metall. Mater., 2020, 27(5): 571.

[17]	Deng JS, Bai ZY, Zhao B, et al. Opportunities and challenges in microwave absorption of nickel-carbon composites. Phys. Chem. Chem. Phys., 2021, 23(37): 20795.

[18]	Wei Q, Jiao F, Dong LY, Liu XD, Qin WQ. Selective depression of copper-activated sphalerite by polyaspartic acid during chalcopyrite flotation. Trans. Nonferrous Met. Soc. China, 2021, 31(6): 1784.

[19]	J. Liu, J.M. Hao, W.C. Dong, and Y. Zeng, Depression mechanism of environment-friendly depressant dithiocarbamate chitosan in flotation separation of Cu-Zn sulfide, Colloids Surf. A, 615(2021), art. No. 126290.

[20]	H. Wang, S.M. Wen, G. Han, and Q.C. Feng, Effect of copper ions on surface properties of ZnSO₄-depressed sphalerite and its response to flotation, Sep. Purif. Technol., 228(2019), art. No. 115756.

[21]	Y. Jia, Y. Zhang, Y.G. Huang, L.L. Chen, M. Wang, and Y.L. Zhang, Synthesis of trimethylacetyl thiobenzamide and its flotation separation performance of galena from sphalerite, Appl. Surf. Sci., 569(2021), art. No. 151055.

[22]	Feng QC, Wen SM, Deng JS, Zhao WJ. Combined DFT and XPS investigation of enhanced adsorption of sulfide species onto cerussite by surface modification with chloride. Appl. Surf. Sci., 2017, 425, 8.

[23]	Li HL, Xu WN, Jia FF, Li JB, Song SX, Nahmad Y. Correlation between surface charge and hydration on mineral surfaces in aqueous solutions: A critical review. Int. J. Miner. Metall. Mater., 2020, 27(7): 857.

[24]	H. Wang, S.M. Wen, G. Han, L. Xu, and Q.C. Feng, Activation mechanism of lead ions in the flotation of sphalerite depressed with zinc sulfate, Miner. Eng., 146(2020), art. No. 106132.

[25]	Deng JS, Lai H, Chen M, et al. Effect of iron concentration on the crystallization and electronic structure of sphalerite/marmatite: A DFT study. Miner. Eng., 2019, 136, 168.