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Abstrakty
This paper describes the measurement of contact angle of copper-bearing shales. The values of advancing and receding contact angles were determined using the sessile drop and captive bubble methods in the presence of aqueous solutions of acetal and pyridine and distilled water. Both methods demonstrated that the tested substances had only minor impact on the surface hydrophobicity of copper-bearing shales expressed by contact angle. The tests carried out proved that neither acetal nor pyridine may be classified to the collecting reagents because none of them improves hydrophobicity of copper-bearing shales. These reagents are only flotation frothers.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
191--199
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
- Department of Geoengineering, Mining and Geology, Wroclaw University of Technology (WUT), Poland
autor
- Wroclaw University of Technology (WUT), Poland
Bibliografia
- 1. BLASCHKE Z., BROŻEK M., MOKRZYCKI E., OCIEPA Z., TUMIDAJSKI T., 1983. Mining. Part V. Introduction To Mineral Processing, 2nd Edition, AGH University of Science and Technology publication no. 931, AGH Publishing House, Kraków.
- 2. DRELICH J., CHIBOWSKI E., MENG D.D., TERPIŁOWSKI K., 2011. Hydrophilic and superhydro-philic surfaces and materials, Soft Matter, 7, 9804–9828.
- 3. DRZYMAŁA J., GRODZKA J., POMIANOWSKI A., 2008. Physical and chemical Characteristics of Dispersed Arrays In Mineralogy And Biology, Publishing House of the Wrocław University of Technology, Wrocław.
- 4. DRZYMAŁA J., 2007, Mineral Processing, foundations of theory and practice of minerallurgy. Publishing House of the Wrocław University of Technology, Wrocław.
- 5. DRZYMAŁA J., 2014. Hydrophobicity of copper-bearing shales in flotation. Monograph „Copperbearing Shales” edited by Drzymała J., Kowalczuk P., Publishing House of Wrocław University of Technology, Wrocław
- 6. BEDNAREK P., KOWALCZUK P., 2014. Contact Angle Of Copper-bearing Shales In The Presence Of Selected Frothers. Monograph „Copper-bearing Shales” edited by Drzymała J., Kowalczuk P., Publishing House of Wrocław University of Technology, Wrocław
- 7. ŁUSZCZKIEWICZ A., LASKOWSKI J., 1989. Mineral processing. Beneficiation of minerals. Publishing House of Wrocław University of Technology, Wrocław.
- 8. MARMUR A., 1992. Contact angle equilibrium, the intrinsic contact angle, Journal of Adhesion Science and Technology, 6, 689–701.
- 9. MARMUR A., 2009. Guide to equilibrium contact angle maze, in: Contact Angle, Wettability and Adhesion, K.L. Mittal Ed, VSP Leiden-Boston, 3–18.
- 10. PHOENIX, 2006. Operating manual of Phoenix-series equipment based on „Administrative Hardware Guide Phoenix 150/300 version 5.0 2011.5”. Haas Thermal and Surface Analysis
- 11. SZYSZKA D., 2012. Study of contact angle of liquid on solid surface and solid on liquid surface. Mining Science (previously Scientific Papers of the Institute Mining of Wrocław University of Technology. Mining and Geology ISSN 0370-0798), Wrocław.
- 12. SZYSZKA D., 2014. Measurement of contact angle of cooper-bearing shales using the captive bubble method. Mining Science. Publishing Faculty of Geoengineering, Mining and Geology of Wrocław University of Technology, Wroclaw.
- 13. SZYSZKA D., SIWIAK M., KOWALCZUK P.B., 2014a. Flotation kinetics of a copper-bearing shale with the use of tri(propylene glycol) butyl ether (C4P3), Monograph „Copper-bearing Shales” edited by Drzymała J., Kowalczuk P., Publishing House of Wrocław University of Technology, Wrocław (in Polish).
- 14. SZYSZKA D., PĄZIK P., ZWIERZCHOWSKA A., 2014b. Flotation of a copper-bearing shale in the presence of ethylene glycol butyl and di(ethylene glycol) butyl ethers, Monograph „Copper-bearing Shales” edited by Drzymała J., Kowalczuk P., Publishing House of Wrocław University of Technology, Wrocław (in Polish).
- 15. TADMOR R., 2004. Line Energy and the Relation between Advancing, Receding, and Young Contact Angles, Langmuir 20, 7659–7664.
- 16. TADMOR R., P.S. YADAV, 2008. As-placed contact angles for sessile drops, Journal of Colloid Interface Science, 317, 241–246.
- 17. TADMOR R., 2008. Line energy, line tension and drop size. Surface Science, 602, L108–L111.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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