Jiaozhong Cai, Jiushuai Deng, Liang Wang, Mingzhen Hu, Hongxiang Xu, Xiaoan Hou, Bozeng Wu,  and Shimei Li, Reagent types and action mechanisms in ilmenite flotation: A review, Int. J. Miner. Metall. Mater., 29(2022), No. 9, pp. 1656-1669. https://doi.org/10.1007/s12613-021-2380-5
Cite this article as:
Jiaozhong Cai, Jiushuai Deng, Liang Wang, Mingzhen Hu, Hongxiang Xu, Xiaoan Hou, Bozeng Wu,  and Shimei Li, Reagent types and action mechanisms in ilmenite flotation: A review, Int. J. Miner. Metall. Mater., 29(2022), No. 9, pp. 1656-1669. https://doi.org/10.1007/s12613-021-2380-5
Invited Review

Reagent types and action mechanisms in ilmenite flotation: A review

+ Author Affiliations
  • Corresponding authors:

    Jiushuai Deng    E-mail: dengshuai689@163.com

    Bozeng Wu    E-mail: wubz998@163.com

  • Received: 15 April 2021Revised: 12 November 2021Accepted: 12 November 2021Available online: 16 November 2021
  • Ilmenite is an essential mineral for the extraction of titanium. Conventional physical separation methods have difficulty recovering fine ilmenite, and dressing plants have begun applying flotation to recover ilmenite. The interaction of reagent groups with Ti and Fe sites on the ilmenite surface dramatically influences the ilmenite flotation. However, the investigation on Fe sites has received more attention because the activity of Ti is lower than that of Fe. For the activators on ilmenite flotation, most are metal ions but typically lead ions. The metal ions of activators promote ilmenite flotation by increasing the active sites on the ilmenite surface. Combined reagents have a better selective separation of ilmenite than single reagents due to their synergistic effect. Combining the lead ion (Pb2+) and the benzyl hydroxamic acid (BHA) into a Pb–BHA complex has a marked effect on ilmenite flotation, which puts forward a new idea of developing combined reagents for ilmenite flotation. This review considers reagent types and action mechanisms in ilmenite flotation. On the basis of the analysis of previous research, a brief future outlook of reagent types and action mechanisms in ilmenite flotation is also proposed in this study.
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  • [1]
    L.Z. Chen, D.H. Xiong, and H.C. Huang, Pulsating high-gradient magnetic separation of fine hematite from tailings, Min. Metall. Explor., 26(2009), No. 3, p. 163.
    [2]
    T. Hiraki, Y. Maruyama, Y. Suzuki, S. Itoh, and T. Nagasaka, Up-grading of natural ilmenite ore by combining oxidation and acid leaching, Int. J. Miner. Metall. Mater., 25(2018), No. 7, p. 729. doi: 10.1007/s12613-018-1620-9
    [3]
    L. Palliyaguru, U.S. Kulathunga, L.I. Jayarathna, C.D. Jayaweera, and P.M. Jayaweera, A simple and novel synthetic route to prepare anatase TiO2 nanopowders from natural ilmenite via the H3PO4/NH3 process, Int. J. Miner. Metall. Mater., 27(2020), No. 6, p. 846. doi: 10.1007/s12613-020-2030-3
    [4]
    J.H. Zhai, P. Chen, W. Sun, W. Chen, and S. Wan, A review of mineral processing of ilmenite by flotation, Miner. Eng., 157(2020), art. No. 106558. doi: 10.1016/j.mineng.2020.106558
    [5]
    A. Mehdilo, M. Irannajad, and B. Rezai, Chemical and mineralogical composition of ilmenite: Effects on physical and surface properties, Miner. Eng., 70(2015), p. 64. doi: 10.1016/j.mineng.2014.09.002
    [6]
    L.Y. Wei, H.Y. Luo, Z.S. Liu, and Z.B. Cai, Research status and development for ilmenite flotation, Mod. Min., 30(2014), No. 3, p. 20.
    [7]
    L.L. Yin, Study on the Joint Separation Technology of Ilmenite Coastal Placer [Dissertation], Northeastern University, Shenyang, 2014.
    [8]
    A. Mehdilo, M. Irannajad, and B. Rezai, Effect of crystal chemistry and surface properties on ilmenite flotation behavior, Int. J. Miner. Process., 137(2015), p. 71. doi: 10.1016/j.minpro.2015.02.004
    [9]
    N. Kupka and M. Rudolph, Froth flotation of scheelite—A review, Int. J. Min. Sci. Technol., 28(2018), No. 3, p. 373. doi: 10.1016/j.ijmst.2017.12.001
    [10]
    S. Aghazadeh, S.K. Mousavinezhad, and M. Gharabaghi, Chemical and colloidal aspects of collectorless flotation behavior of sulfide and non-sulfide minerals, Adv. Colloid Interface Sci., 225(2015), p. 203. doi: 10.1016/j.cis.2015.09.007
    [11]
    X.Y. Zhang, Q.S. Wang, Z.X. Wu, and D.P. Tao, An experimental study on size distribution and zeta potential of bulk cavitation nanobubbles, Int. J. Miner. Metall. Mater., 27(2020), No. 2, p. 152. doi: 10.1007/s12613-019-1936-0
    [12]
    Y.Y. Zhu, Research on Theory and Technology of Micro-fine Ilmenite Flotation [Dissertation], Central South University, Changsha, 2011.
    [13]
    G.X. Fan and Y.J. Cao, The shear flocculation flotation behaviors of micro fine ilmenite and titanaugite, J. China Univ. Min. Technol., 44(2015), No. 3, p. 532.
    [14]
    Q.Y. Sun, W.Z. Yin, D. Li, Y.F. Fu, J.W. Xue, and J. Yao, Improving the sulfidation−flotation of fine cuprite by hydrophobic flocculation pretreatment, Int. J. Miner. Metall. Mater., 25(2018), No. 11, p. 1256. doi: 10.1007/s12613-018-1678-4
    [15]
    X. Fan and N.A. Rowson, The effect of Pb(NO3)2 on ilmenite flotation, Miner. Eng., 13(2000), No. 2, p. 205. doi: 10.1016/S0892-6875(99)00166-1
    [16]
    Y.S. Du, Q.Y. Meng, Z.T. Yuan, X. Zhao, and Y.K. Xu, Impact of acid surface pretreatment on the flotation of ilmenite and titanaugite and its functional mechanism, Powder Technol., 376(2020), p. 622. doi: 10.1016/j.powtec.2020.08.057
    [17]
    Y.L. Qian, Z. Wang, and J. Cao, New depression mechanism of polymeric depressant on titanaugite in ilmenite flotation, Sep. Purif. Technol., 264(2021), art. No. 118468. doi: 10.1016/j.seppur.2021.118468
    [18]
    X.F. Fan, K.E. Waters, N.A. Rowson, and D.J. Parker, Modification of ilmenite surface chemistry for enhancing surfactants adsorption and bubble attachment, J. Colloid Interface Sci., 329(2009), No. 1, p. 167. doi: 10.1016/j.jcis.2008.09.064
    [19]
    X. Fan, R.M. Kelly, and N.A. Rowson, Effect of microwave radiation on ilmenite flotation, Can. Metall. Q., 39(2000), No. 3, p. 247. doi: 10.1179/cmq.2000.39.3.247
    [20]
    P. Chen, X.L. Lu, X.J. Chai, H. Mulenga, J.D. Gao, H. Liu, Q.B. Meng, W. Sun, and Y.D. Gao, Influence of Fe-BHA complexes on the flotation behavior of ilmenite, Colloids Surf. A Physicochem. Eng. Aspects, 612(2021), art. No. 125964. doi: 10.1016/j.colsurfa.2020.125964
    [21]
    L.P. Luo, H.Q. Wu, L.H. Xu, J.P. Meng, J.H. Lu, H. Zhou, X.M. Huo, and L.Y. Huang, An in situ ATR–FTIR study of mixed collectors BHA/DDA adsorption in ilmenite–titanaugite flotation system, Int. J. Min. Sci. Technol., 31(2021), No. 4, p. 689. doi: 10.1016/j.ijmst.2021.05.001
    [22]
    L.Q. Deng, L.D. Zhu, L.Y. Fei, X. Ma, F. Deng, R. Zuo, Z.Q. Huang, L.Q. Li, Y.X. Xie, Z.H. Xiao, and R.K. Liu, Froth flotation of ilmenite by using the dendritic surfactant 2-decanoylamino-pentanedioic acid, Miner. Eng., 165(2021), art. No. 106861. doi: 10.1016/j.mineng.2021.106861
    [23]
    S. Nasirimoghaddam, A. Mohebbi, M. Karimi, and M. Reza Yarahmadi, Assessment of pH-responsive nanoparticles performance on laboratory column flotation cell applying a real ore feed, Int. J. Min. Sci. Technol., 30(2020), No. 2, p. 197. doi: 10.1016/j.ijmst.2020.01.001
    [24]
    S. Nazari, S.Z. Shafaei, M. Gharabaghi, R. Ahmadi, B. Shahbazi, and M.M. Fan, Effects of nanobubble and hydrodynamic parameters on coarse quartz flotation, Int. J. Min. Sci. Technol., 29(2019), No. 2, p. 289. doi: 10.1016/j.ijmst.2018.08.011
    [25]
    M.Y. Li, J. Liu, Y.M. Hu, X.P. Gao, Q.D. Yuan, and F.G. Zhao, Investigation of the specularite/chlorite separation using chitosan as a novel depressant by direct flotation, Carbohydr. Polym., 240(2020), art. No. 116334. doi: 10.1016/j.carbpol.2020.116334
    [26]
    J.S. Deng, H. Lai, M. Chen, M. Glen, S.M. Wen, B. Zhao, Z.L. Liu, H. Yang, M.S. Liu, L.Y. Huang, S.L. Guan, and P. Wang, Effect of iron concentration on the crystallization and electronic structure of sphalerite/marmatite: A DFT study, Miner. Eng., 136(2019), p. 168. doi: 10.1016/j.mineng.2019.02.012
    [27]
    A. Bahrami, M. Mirmohammadi, Y. Ghorbani, F. Kazemi, M. Abdollahi, and A. Danesh, Process mineralogy as a key factor affecting the flotation kinetics of copper sulfide minerals, Int. J. Miner. Metall. Mater., 26(2019), No. 4, p. 430. doi: 10.1007/s12613-019-1733-9
    [28]
    M.O.J.Y. Hunault, W. Khan, J. Minár, T. Kroll, D. Sokaras, P. Zimmermann, M.U. Delgado-Jaime, and F.M.F. de Groot, Local vs nonlocal states in FeTiO3 probed with 1s2pRIXS: Implications for photochemistry, Inorg. Chem., 56(2017), No. 18, p. 10882. doi: 10.1021/acs.inorgchem.7b00938
    [29]
    P.S. Parapari, M. Irannajad, and A. Mehdilo, Modification of ilmenite surface properties by superficial dissolution method, Miner. Eng., 92(2016), p. 160. doi: 10.1016/j.mineng.2016.03.016
    [30]
    X. Fan and N.A. Rowson, Surface modification and column flotation of a massive ilmenite ore, Can. Metall. Q., 41(2002), No. 2, p. 133. doi: 10.1179/cmq.2002.41.2.133
    [31]
    J.P. van Dyk, N.M. Vegter, and P.C. Pistorius, Kinetics of ilmenite dissolution in hydrochloric acid, Hydrometallurgy, 65(2002), No. 1, p. 31. doi: 10.1016/S0304-386X(02)00063-4
    [32]
    Q.Y. Meng, Z.T. Yuan, L. Yu, Y.K. Xu, and Y.S. Du, Study on the activation mechanism of lead ions in the flotation of ilmenite using benzyl hydroxamic acid as collector, J. Ind. Eng. Chem., 62(2018), p. 209. doi: 10.1016/j.jiec.2017.12.059
    [33]
    M.J. Tian, Z.Y. Gao, W. Sun, H.S. Han, L. Sun, and Y.H. Hu, Activation role of lead ions in benzohydroxamic acid flotation of oxide minerals: New perspective and new practice, J. Colloid Interface Sci., 529(2018), p. 150. doi: 10.1016/j.jcis.2018.05.113
    [34]
    Z.W. Xi, Research on Flotation Collector of Ilmenite [Dissertation], Central South University, Changsha, 2009.
    [35]
    P. Chen, J.H. Zhai, W. Sun, Y.H. Hu, and Z.G. Yin, The activation mechanism of lead ions in the flotation of ilmenite using sodium oleate as a collector, Miner. Eng., 111(2017), p. 100. doi: 10.1016/j.mineng.2017.06.009
    [36]
    F.X. Li, H. Zhong, G. Zhao, S. Wang, and G.Y. Liu, Adsorption of α-hydroxyoctyl phosphonic acid to ilmenite/water interface and its application in flotation, Colloids Surf. A, 490(2016), p. 67. doi: 10.1016/j.colsurfa.2015.11.015
    [37]
    S. Fang, L.H. Xu, H.Q. Wu, J. Tian, Z.Y. Lu, W. Sun, and Y.H. Hu, Adsorption of Pb(II)/benzohydroxamic acid collector complexes for ilmenite flotation, Miner. Eng., 126(2018), p. 16. doi: 10.1016/j.mineng.2018.06.022
    [38]
    W.Z. Yin and Y. Tang, Interactive effect of minerals on complex ore flotation: A brief review, Int. J. Miner. Metall. Mater., 27(2020), No. 5, p. 571. doi: 10.1007/s12613-020-1999-y
    [39]
    D. Li, W.Z. Yin, J.W. Xue, J. Yao, Y.F. Fu, and Q. Liu, Solution chemistry of carbonate minerals and its effects on the flotation of hematite with sodium oleate, Int. J. Miner. Metall. Mater., 24(2017), No. 7, p. 736. doi: 10.1007/s12613-017-1457-7
    [40]
    B. Chen, New Collector on the Flotation of Ilmenite [Dissertation], Central South University, Changsha, 2010.
    [41]
    E.J. Parkins, Effect of Temperature on the Conditioning and Flotation of an Ilmenite Ore [Dissertation], London University, London, 1975.
    [42]
    Y.F. Fu, W.Z. Yin, B. Yang, C. Li, Z.L. Zhu, and D. Li, Effect of sodium alginate on reverse flotation of hematite and its mechanism, Int. J. Miner. Metall. Mater., 25(2018), No. 10, p. 1113. doi: 10.1007/s12613-018-1662-z
    [43]
    R.D. Kulkarni and P. Somasundaran, Flotation chemistry of hematite/oleate system, Colloids Surf., 1(1980), No. 3-4, p. 387. doi: 10.1016/0166-6622(80)80025-4
    [44]
    G.F. Zhang, Y.G. Zhu, Q.M. Feng, Y.P. Lu, and L.M. Ou, Flotation mechanism of fine ilmenite by sodium oleate, Chin. J. Nonferrous Met., 19(2009), No. 2, p. 372. doi: 10.1016/S1003-6326(08)60280-0
    [45]
    P. Semsari Parapari, M. Irannajad, and A. Mehdilo, Effect of acid surface dissolution pretreatment on the selective flotation of ilmenite from olivine and pyroxene, Int. J. Miner. Process., 167(2017), p. 49. doi: 10.1016/j.minpro.2017.07.017
    [46]
    Y.D. Gao, X.Y. Qiu, C.G. Zhong, and Q.M. Feng, Property and surface chemistry of hydroxamic acids using as collectors in tungsten minerals flotation, China Tungsten Ind., 27(2012), No. 2, p. 10.
    [47]
    L.Y. Ren, H. Qiu, W.Q. Qin, and M. Zhang, Flotation mechanism of cassiterite with octanohydroxamic acid, J. China Univ. Min. Technol., 46(2017), No. 6, p. 1364.
    [48]
    Y.C. Liu, Synthesis and Flotation Behavior of Hydroxamic Acid Collectors [Dissertation], Central South University, Changsha, 2013.
    [49]
    B. Zhang and H. Zhong, Determination of hydroxamic acids by direct spectrophotometry of colored complex in acidic solution, Res. Chem. Intermed., 36(2010), No. 5, p. 495. doi: 10.1007/s11164-010-0160-3
    [50]
    Y.L. Wen, Hydroxylamine Synthesis of Hydroxamic Acid Collector and Its Flotation Behavior [Dissertation], Central South University, Changsha, 2012.
    [51]
    H.J. Dong and Z.X. Chen, A study on flotation of fine ilmenite with salicylaldoximic acid, Min. Metall. Eng., 11(1991), No. 1, p. 19.
    [52]
    J.E. Ma, Effect Mechanism of Inorganic Depressants on Flotation Separation of Ilmenite from Titanaugite [Dissertation], Central South University, Changsha, 2011.
    [53]
    D.Z. Wang, Principles and Applications of Flotation Agents, Metallurgical Industry Press, Beijing, 1982.
    [54]
    S.Y. Yang, Y.L. Xu, C. Liu, D.A.D. Soraya, C. Li, and H.Q. Li, Investigations on the synergistic effect of combined NaOl/SPA collector in ilmenite flotation, Colloids Surf. A, 628(2021), art. No. 127267. doi: 10.1016/j.colsurfa.2021.127267
    [55]
    S. Bulatovic and D.M. Wyslouzil, Process development for treatment of complex perovskite, ilmenite and rutile ores, Miner. Eng., 12(1999), No. 12, p. 1407. doi: 10.1016/S0892-6875(99)00130-2
    [56]
    Y.P. Hu and Y.J. Zhang, Research on flotation of fine ilmenite and titanaugite by using mixed collectors, Nonferrous Met., 46(1994), No. 3, p. 31.
    [57]
    D.W. Yu and Z.Y. Zhong, Non-depressing active flotation of primary fine-ilmenite, Express Infor. Min. Ind., 2000, No. 14, p. 16.
    [58]
    L.H. Xu, J. Tian, H.Q. Wu, Z.Y. Lu, Y.H. Yang, W. Sun, and Y.H. Hu, Effect of Pb2+ ions on ilmenite flotation and adsorption of benzohydroxamic acid as a collector, Appl. Surf. Sci., 425(2017), p. 796. doi: 10.1016/j.apsusc.2017.07.123
    [59]
    C.H. Deng, J.E. Ma, G.F. Zhang, Q.M. Feng, and Y.G. Zhu, Effect of water glass on floatation of ilmenite, Chin. J. Nonferrous Met., 20(2010), No. 3, p. 551.
    [60]
    X. Liu, G.Y. Huang, C.X. Li, and R.J. Cheng, Depressive effect of oxalic acid on titanaugite during ilmenite flotation, Miner. Eng., 79(2015), p. 62. doi: 10.1016/j.mineng.2015.05.013
    [61]
    O.S. Nuri, M. Irannajad, and A. Mehdilo, Effect of surface dissolution by oxalic acid on flotation behavior of minerals, J. Mater. Res. Technol., 8(2019), No. 2, p. 2336. doi: 10.1016/j.jmrt.2019.03.013
    [62]
    Z.C. Wei, X. Xu, J.J. Fang, D.W. Liu, X.L. Zhang, Y. Liu, and W.B. Zhang, Study on the adsorption mechanism of carboxymethyl cellulose on ilmenite and titanaugite, Min. Metall., 20(2011), No. 1, p. 8.
    [63]
    D.C. Yan, Influence of Surface Dissolution on the Flotability of Ilmenite and Titanaugite [Dissertation], Central South University, Changsha, 2010.
    [64]
    Y.G. Zhu, G.F. Zhang, Q.M. Feng, D.C. Yan, and W.Q. Wang, Effect of surface dissolution on flotation separation of fine ilmenite from titanaugite, Trans. Nonferrous Met. Soc. China, 21(2011), No. 5, p. 1149. doi: 10.1016/S1003-6326(11)60835-2
    [65]
    M. Irannajad, O.S. Nuri, and A. Mehdilo, Surface dissolution-assisted mineral flotation: A review, J. Environ. Chem. Eng., 7(2019), No. 3, art. No. art.No103050. doi: 10.1016/j.jece.2019.103050
    [66]
    G.F. Zhang, D.C. Yan, Y.G. Zhu, Q.M. Feng, and W.Q. Wang, Influence of pH on adsorption of sodium oleate on surface of ilmenite and titanaugite, J. Cent. South Univ. Sci. Technol., 42(2011), No. 10, p. 2898.
    [67]
    W.J. Liu, J. Zhang, W.Q. Wang, J. Deng, B.Y. Chen, W. Yan, S.Q. Xiong, Y. Huang, and J. Liu, Flotation behaviors of ilmenite, titanaugite, and forsterite using sodium oleate as the collector, Miner. Eng., 72(2015), p. 1. doi: 10.1016/j.mineng.2014.12.021
    [68]
    Y.P. Niu, C.Y. Sun, W.Z. Yin, X.R. Zhang, H.F. Xu, and X. Zhang, Selective flotation separation of andalusite and quartz and its mechanism, Int. J. Miner. Metall. Mater., 26(2019), No. 9, p. 1059. doi: 10.1007/s12613-019-1842-5
    [69]
    K. Jia, Q.M. Feng, G.F. Zhang, Q. Shi, Y.J. Luo, and C.B. Li, Improved hemimorphite flotation using xanthate as a collector with S(II) and Pb(II) activation, Int. J. Miner. Metall. Mater., 25(2018), No. 8, p. 849. doi: 10.1007/s12613-018-1634-3
    [70]
    N.J. Welham and D.J. Llewellyn, Mechanical enhancement of the dissolution of ilmenite, Miner. Eng., 11(1998), No. 9, p. 827. doi: 10.1016/S0892-6875(98)00070-3
    [71]
    N. Cutmore, T. Evans, D. Crnokrak, A. Middleton, and S. Stoddard, Microwave technique for analysis of mineral sands, Miner. Eng., 13(2000), No. 7, p. 729. doi: 10.1016/S0892-6875(00)00057-1
    [72]
    G.Q. Zhang and O. Ostrovski, Effect of preoxidation and sintering on properties of ilmenite concentrates, Int. J. Miner. Process., 64(2002), No. 4, p. 201. doi: 10.1016/S0301-7516(01)00055-2
    [73]
    Y.S. Gao, Z.Y. Gao, and W. Sun, Research progress of influence of metal ions on mineral flotation behavior and underlying mechanism, Chin. J. Nonferrous Met., 27(2017), No. 4, p. 859.
    [74]
    M.J. Tian, R.Q. Liu, Z.Y. Gao, P. Chen, H.S. Han, L. Wang, C.Y. Zhang, W. Sun, and Y.H. Hu, Activation mechanism of Fe(III) ions in cassiterite flotation with benzohydroxamic acid collector, Miner. Eng., 119(2018), p. 31. doi: 10.1016/j.mineng.2018.01.011
    [75]
    Q.C. Feng, S.M. Wen, W.J. Zhao, and H.T. Chen, Interaction mechanism of magnesium ions with cassiterite and quartz surfaces and its response to flotation separation, Sep. Purif. Technol., 206(2018), p. 239. doi: 10.1016/j.seppur.2018.06.005
    [76]
    M.J. Tian, C.Y. Zhang, H.S. Han, R.Q. Liu, Z.Y. Gao, P. Chen, J.Y. He, Y.H. Hu, W. Sun, and D.D. Yuan, Novel insights into adsorption mechanism of benzohydroxamic acid on lead(II)-activated cassiterite surface: An integrated experimental and computational study, Miner. Eng., 122(2018), p. 327. doi: 10.1016/j.mineng.2018.04.012
    [77]
    Q.C. Feng, S.M. Wen, W.J. Zhao, and Y. Chen, Effect of calcium ions on adsorption of sodium oleate onto cassiterite and quartz surfaces and implications for their flotation separation, Sep. Purif. Technol., 200(2018), p. 300. doi: 10.1016/j.seppur.2018.02.048
    [78]
    Y.M. Gao and H.F. Wang, Micro-ilmenite flotation behavior of study, Min. Eng., 10(2012), No. 4, p. p,31.
    [79]
    F.X. Li, H. Zhong, S. Wang, and G.Y. Liu, The activation mechanism of Cu(II) to ilmenite and subsequent flotation response to α-hydroxyoctyl phosphinic acid, J. Ind. Eng. Chem., 37(2016), p. 123. doi: 10.1016/j.jiec.2016.03.011
    [80]
    Y.D. Gao, C.G. Zhong, X.Y. Qiu, Q.M. Feng, and L. Wan, Activation mechanism of Pb2+ in flotation of wolframite with benzohydroxamic acid as collector, Chin. J. Nonferrous Met., 26(2016), No. 9, p. 1999.
    [81]
    J.Z. Wang, W.Z. Yin, Z. Li, and J.Z. Qu, Influence and mechanism of lead and ferric ions on the flotation of scheelite and quartz, Conserv. Util. Miner. Resour., 2017, No. 2, p. 35.
    [82]
    G.C. Gong, J. Liu, and Y.X. Han, Effect of metal ions on floatation behaviors of fine cassiterite, Multipurp. Util. Miner. Resour., 2016, No. 4, p. 43.
    [83]
    Z.W. Zhang, Study on the Mechanism and Application of Metal Ions in Cassiterite Flotation System [Dissertation], Central South University, Changsha, 2013.
    [84]
    P. Chen, J.H. Zhai, W. Sun, Y.H. Hu, Z.G. Yin, and X.S. Lai, Adsorption mechanism of lead ions at ilmenite/water interface and its influence on ilmenite flotability, J. Ind. Eng. Chem., 53(2017), p. 285. doi: 10.1016/j.jiec.2017.04.037
    [85]
    X. Fan and N.A. Rowson, Fundamental investigation of microwave pretreatment on the flotation of massive ilmenite ores, Dev. Chem. Eng. Miner. Process., 8(2000), No. 1-2, p. 167.
    [86]
    A. Mehdilo and M. Irannajad, Comparison of microwave irradiation and oxidation roasting as pretreatment methods for modification of ilmenite physicochemical properties, J. Ind. Eng. Chem., 33(2016), p. 59. doi: 10.1016/j.jiec.2015.09.018
    [87]
    O.S. Nuri, A. Mehdilo, and M. Irannajad, Influence of microwave irradiation on ilmenite surface properties, Appl. Surf. Sci., 311(2014), p. 27. doi: 10.1016/j.apsusc.2014.04.187
    [88]
    M. Irannajad, A. Mehdilo, and O. Salmani Nuri, Influence of microwave irradiation on ilmenite flotation behavior in the presence of different gangue minerals, Sep. Purif. Technol., 132(2014), p. 401. doi: 10.1016/j.seppur.2014.05.046
    [89]
    P. Somasundaran, C.E. Roberts, and R. Ramesh, Effects of oxidizing methods on the flotation of coal, Miner. Eng., 4(1991), No. 1, p. 43. doi: 10.1016/0892-6875(91)90117-E
    [90]
    K.Q. Shu, L.H. Xu, H.Q. Wu, S. Fang, Z.J. Wang, Y.B. Xu, and Z.Y. Zhang, Effects of ultrasonic pre-treatment on the flotation of ilmenite and collector adsorption, Miner. Eng., 137(2019), p. 124. doi: 10.1016/j.mineng.2019.04.001
    [91]
    J.Z. Cai, J.S. Deng, H.Y. Yang, L.L. Tong, D.D. Wu, S.M. Wen, Z.L. Liu, and Y. Zhang, A novel activation for ilmenite using potassium permanganate and its effect on flotation response, Colloids Surf. A, 604(2020), art. No. 125323. doi: 10.1016/j.colsurfa.2020.125323
    [92]
    J.Z. Cai, J.S. Deng, S.M. Wen, Y. Zhang, D.D. Wu, H.Y. Luo, and G. Cheng, Surface modification and flotation improvement of ilmenite by using sodium hypochlorite as oxidant and activator, J. Mater. Res. Technol., 9(2020), No. 3, p. 3368. doi: 10.1016/j.jmrt.2020.01.031
    [93]
    L.X. Li, C. Zhang, Z.T. Yuan, Z.C. Liu, and C.F. Li, Selectivity of benzyl hydroxamic acid in the flotation of ilmenite, Front. Chem., 7(2019), art. No. 886. doi: 10.3389/fchem.2019.00886
    [94]
    C.X. Deng, Research on the Reciprocal Influences Among Low-grade ILmenite Ores in Flotation [Dissertation], Northeastern University, Shenyang, 2015.
    [95]
    L. Wang, Influence of Titanaugite on Flotation of Ilmenite [Dissertation], Central South University, Changsha, 2009.
    [96]
    K.W. Lu, R. Chen, Y. Zhang, H.Y. Luo, H. Yang, and J.Z. Cai, Effect of manganese ions addition orders on the flotation behavior of scheelite, Physicochem. Probl. Miner. Process., 56(2020), No. 5, p. 860. doi: 10.37190/ppmp/126421
    [97]
    D.Z. Wang and Y.H. Hu, Solution Chemistry of Flotation, Hunan Science and Technology Press, Changsha, 1988.
    [98]
    Q.Y. Meng, Z.T. Yuan, L. Yu, Y.K. Xu, Y.S. Du, and C. Zhang, Selective depression of titanaugite in the ilmenite flotation with carboxymethyl starch, Appl. Surf. Sci., 440(2018), p. 955. doi: 10.1016/j.apsusc.2018.01.234
    [99]
    Y.H. Yang, L.H. Xu, J. Tian, Y.C. Liu, and Y.X. Han, Selective flotation of ilmenite from olivine using the acidified water glass as depressant, Int. J. Miner. Process., 157(2016), p. 73. doi: 10.1016/j.minpro.2016.10.001
    [100]
    Q. Chen, R.M. Kasomo, H.Q. Li, et al., Froth flotation of rutile—An overview, Miner. Eng., 163(2021), art. No. 106797. doi: 10.1016/j.mineng.2021.106797
    [101]
    M. Wei, Research on Panzhihua ilmenite flotation by using TAO collector series, J. Guangdong Non-Ferrous Met., 16(2006), No. 2, p. 80.
    [102]
    Z.J. Xie, Commercial test on flotation of ilmenite by new type of XT collecttor, Multipurp. Util. Miner. Resour., 2004, No. 4, p. 22.
    [103]
    J.G. Xie, J.S. Zhang, R.H. Chen, et al., Flotation of micro-fine ilmenite using new type collector-ROB, Min. Metall. Eng., 47(2002), No. 2, p. 47.
    [104]
    Z.Y. Zhong and D.W. Yu, Trial research of flotation for crude titaniferous concentrate, Hebei Metall., 2003, No. 1, p. 18.
    [105]
    Z.C. Ma, The experimental study on H717 collectors floating ilmenite, Nonferrous Min. Metall., 4(2003), p. 18.
    [106]
    H. He and D.W. Yu, Test research of separating coarse ilmenite with ZY collector, Met. Mine, 2002, No. 6, p. 23.
    [107]
    X.Y. Dai, Experimental research of applying F968 collector in concentrating fine Panzhihua ilmenite, Met. Mine, 2000, No. 11, p. 40.
    [108]
    J.G. Zhu, S.M. Chen, X.H. Yao, Q.H. Deng, and S.H. Wang, Flotation of micro-fine ilmenite using new type collector-moh, Nonferrous Met. Miner. Process., 2007, No. 6, p. 42.
    [109]
    J.G. Zhu, Study and application of collector for ilmenite in China, Min. Metall. Eng., 2006, p. 78.
    [110]
    J.G. Zhu, Y.S. Zhu, S.H. Wang and S.M. Chen, Making up new ilmenite collector by the maximum synergisms, Nonferrous Met. Miner. Process., 2002, No. 4, p. 39.
    [111]
    J. Zhou and X. Qian, Flotation of Panzhihua fine ilmentite by the combined use of reagents, Min. Metall. Eng., 16(1996), No. 3, p. 35.
    [112]
    X.M. Luo and X. Tong, A review of researches on flotation reagents of ilmenite, Min. Metall., 18(2009), No. 2, p. 13.
    [113]
    J. Zhu, Flotation of rutile and ilmenite, Nonferrous Min. Metall., 13(1997) p. 28.
    [114]
    M. Wei, J.G. Xie, and R.H. Chen, A study of mechanism and collection behavior of new collector for ilmenite, Min. Metall. Eng., 26(2006), No. 2, p. 38.
    [115]
    J.G. Xie, R.H. Chen, and W.L. Zeng, Fine ilmenite flotation with RST, Nonferrous Met. Eng., 54(2002), No. 1, p. 58.
    [116]
    Y.H. Hu, H.S. Han, M.J. Tian, W. Sun, J.J. Wang, Z. Wei, and R.L. Wang, The application of metal-coordinated complexes in the flotation of oxide minerals and fundamental research of the adsorption mechanism, Conserv. Util. Miner. Resour., 2018, No. 1, p. 42.
    [117]
    Z. Wei, Y.H. Hu, H.S. Han, W. Sun, R.L. Wang, and J.J. Wang, Selective flotation of scheelite from calcite using Al–Na2SiO3 polymer as depressant and Pb–BHA complexes as collector, Miner. Eng., 120(2018), p. 29. doi: 10.1016/j.mineng.2018.01.036
    [118]
    H.S. Han, Y. Xiao, Y.H. Hu, W. Sun, A.V. Nguyen, H.H. Tang, X.H. Gui, Y.W. Xing, Z. Wei, and J.J. Wang, Replacing Petrov’s process with atmospheric flotation using Pb–BHA complexes for separating scheelite from fluorite, Miner. Eng., 145(2020), art. No. 106053. doi: 10.1016/j.mineng.2019.106053
    [119]
    H.S. Han, Y.H. Hu, W. Sun, X.D. Li, C.G. Cao, R.Q. Liu, T. Yue, X.S. Meng, Y.Z. Guo, J.J. Wang, Z.Y. Gao, P. Chen, W.S. Huang, J. Liu, J.W. Xie, and Y.L. Chen, Fatty acid flotation versus BHA flotation of tungsten minerals and their performance in flotation practice, Int. J. Miner. Process., 159(2017), p. 22. doi: 10.1016/j.minpro.2016.12.006
    [120]
    S. Fang, L.H. Xu, H.Q. Wu, K.Q. Shu, Y.B. Xu, Z.Y. Zhang, R. Chi, and W. Sun, Comparative studies of flotation and adsorption of Pb(II)/benzohydroxamic acid collector complexes on ilmenite and titanaugite, Powder Technol., 345(2019), p. 35. doi: 10.1016/j.powtec.2018.12.089
    [121]
    T. Yue, H.S. Han, Y.H. Hu, W. Sun, X.D. Li, R.Q. Liu, Z.Y. Gao, L. Wang, P. Chen, C.Y. Zhang, and M.J. Tian, New insights into the role of Pb–BHA complexes in the flotation of tungsten minerals, JOM, 69(2017), No. 11, p. 2345. doi: 10.1007/s11837-017-2531-3
    [122]
    J.Y. He, H.S. Han, C.Y. Zhang, Z.J. Xu, D.D. Yuan, P. Chen, W. Sun, and Y.H. Hu, Novel insights into the surface microstructures of lead(II) benzohydroxamic on oxide mineral, Appl. Surf. Sci., 458(2018), p. 405. doi: 10.1016/j.apsusc.2018.07.085
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