All Issue

2019 Vol.56, Issue 6 Preview Page

Research Paper

December 2019. pp. 605-612
Abstract


References
1 

Adamson, A.W. and Gast, A.B., 1997. Physical Chemistry of Surfaces(6th ed.), John Wiley & Sons, New York, p.347-389.

2 

Aghazadeh, S., Mousavinezhad, S.K., and Gharabaghi, M., 2015. Chemical and colloidal aspects of collectorless flotation behavior of sulfide and non-sulfide minerals. Advances in Colloid and Interface Science, 225, 203-217.

10.1016/j.cis.2015.09.00726601925
3 

Chau, T.T., 2009. A review of techniques for measurement of contact angles and their applicability on mineral surfaces. Minerals engineering, 22, 213-219.

10.1016/j.mineng.2008.07.009
4 

Chau, T.T., Bruckard, W.J., Koh, P.T.L., and Nguyen, A.V., 2009. A review of factors that affect contact angle and implications for flotation practice. Advances in colloid and interface science, 150, 106-115.

10.1016/j.cis.2009.07.00319664743
5 

Finch, J.K. and Smith, G.W., 1972. Dynamic surface tension of alkaline dodecylamine acetate solutions in oxide flotation. Trans. IMM, 81, C213.

10.1016/0021-9797(73)90244-0
6 

Finkelstein, N.P., Allison, S.A., Lovell, V.M., and Stewart, B.V., 1975. Natural and induced hydrophobicity in sulfide mineral systems [C]//SOMASUNDARAN P, GRIEVES R. B. Advances in Interfacial Phenomena of Particulate/Solution/ Gas Systems. New York: Am Inst Chem Eng, Symp Ser, 165175.

7 

Fuerstenau, D.W., 2007. A century of developments in the chemistry of flotation processing. In: M.C. Fuerstenau, G.J. Jameson and R.-H. Yoon, Editors. Froth Flotation: A Century of Innovation, SME, Denver, CO, USA, 1-13.

8 

Fuerstenau, M.C. and Sabacky, B.J., 1981. On the natural floatability of sulfides. Inter J Miner Process, 8, 79-84.

10.1016/0301-7516(81)90008-9
9 

Hu, Y., Sun, W., and Wang, D., 2009. Electrochemistry of Flotation of Sulphide Minerals. Springer, 304p.

10.1007/978-3-540-92179-0
10 

Jung, M.Y., Heo, W., and Son, S.K., 2014b. Relationship between Surface Roughness and Contact Angle of Pyrite. J. of the Korean Society for Mineral and Energy Resources Engineers, 51(3), 349-357.

10.12972/ksmer.2014.51.3.349
11 

Jung, M.Y., Lee, K.Y., and Shin, H.Y., 2007. Flotation properties of galena and pyrite with xanthate as a collector. J. of the Korean Society for Geosystem Engineering, 44(1), 46-52.

12 

Jung, M.Y., Oh, S.H., and Moon, J.W., 2014a. Correlation between Natural Floatability and Static Contact angle of Sulfide minerals. J. of the Korean Society for Mineral and Energy Resources Engineers, 51(2), 240-247.

10.12972/ksmer.2014.51.2.240
13 

Kelebek, S. and Yoruk, S., 2002. Bubble contact angle variation of sulfide minerals in relation to their self-induced flotation. Colloids and surfaces, A: Physicochemical and Engineering Aspects, 196, 111-119.

10.1016/S0927-7757(01)00822-6
14 

Matis, K.A., 1995. Flotation science and engineering, Dekker, NY, 558p.

15 

Ozcan, A., 1992. Classification of minerals according to their critical surface tension of wetting values. Int. J. Miner. Process., 34, 191-204.

10.1016/0301-7516(92)90073-6
16 

Ozcan, A., 2004. Determination of the critical surface tension of wetting of minerals treated with surfactants by shear flocculation approach. J. of Colloid and Interface Science, 277, 437-442.

10.1016/j.jcis.2004.04.03815341856
17 

Ozkan, A. and Yekeler, M., 2003. A new microcolumn flotation cell for determining the wettability and floatability of minerals. J of Colloid Interface Science, 261, 476-480.

10.1016/S0021-9797(03)00130-9
18 

Sutherland, K.L. and Wark, I.W., 1955. Principles of flotation, Aust. IMM, Melbourne, 489p.

19 

Yarar, B. and Kaoma, J., 1984. Estimation of the critical surface tension of wetting of hydrophobic solids by flotation. Colloids and Surfaces, 11(3-4), 429-436.

10.1016/0166-6622(84)80296-6
20 

Zhao, C.H., Chen, J.H., Wu, B.Z., and Long, X.H., 2014. Density functional theory study on natural hydrophobicity of sulfide surfaces. Trans. Nonferrous Met. Soc. China, 24, 491-498.

10.1016/S1003-6326(14)63087-9
21 

Zisman, W.A., 1964. Relation of the Equilibrium Contact Angle to Liquid and Solid Constitution. In: Advances in Chemistry, 43, 1-51.

10.1021/ba-1964-0043.ch001
Information
  • Publisher :The Korean Society of Mineral and Energy Resources Engineers
  • Publisher(Ko) :한국자원공학회
  • Journal Title :Journal of the Korean Society of Mineral and Energy Resources Engineers
  • Journal Title(Ko) :한국자원공학회지
  • Volume : 56
  • No :6
  • Pages :605-612
  • Received Date :2019. 10. 30
  • Revised Date :2019. 12. 19
  • Accepted Date : 2019. 12. 20