APA 6th Edition Siwiec, G. i Łabaj, J. (2011). Viscosity of Cu-Zn alloys. Metalurgija, 50 (3), 176-178. Preuzeto s https://hrcak.srce.hr/64379
MLA 8th Edition Siwiec, G. i J. Łabaj. "Viscosity of Cu-Zn alloys." Metalurgija, vol. 50, br. 3, 2011, str. 176-178. https://hrcak.srce.hr/64379. Citirano 20.09.2020.
Chicago 17th Edition Siwiec, G. i J. Łabaj. "Viscosity of Cu-Zn alloys." Metalurgija 50, br. 3 (2011): 176-178. https://hrcak.srce.hr/64379
Harvard Siwiec, G., i Łabaj, J. (2011). 'Viscosity of Cu-Zn alloys', Metalurgija, 50(3), str. 176-178. Preuzeto s: https://hrcak.srce.hr/64379 (Datum pristupa: 20.09.2020.)
Vancouver Siwiec G, Łabaj J. Viscosity of Cu-Zn alloys. Metalurgija [Internet]. 2011 [pristupljeno 20.09.2020.];50(3):176-178. Dostupno na: https://hrcak.srce.hr/64379
IEEE G. Siwiec i J. Łabaj, "Viscosity of Cu-Zn alloys", Metalurgija, vol.50, br. 3, str. 176-178, 2011. [Online]. Dostupno na: https://hrcak.srce.hr/64379. [Citirano: 20.09.2020.]
Sažetak One of the basic parameters that characterize a liquid phase is its viscosity. In the paper, the results of viscosity measurements for copper, copper-zinc alloys with 5 %wt. Zn and 10 %wt. Zn as well as Cu-Zn alloys with small additions of antimony, selenium and sulfur are presented. The viscosity measurements were conducted by means of a viscometer using the phenomenon of damping rotational vibrations of the crucible by filling the liquid metal. It was observed that the additions of zinc, antimony and selenium resulted in the viscosity reduction while the addition of sulfur led to its increase.