The aim of this work was to investigate the effect of temperature on the thickness, surface roughness, visual appearance and morphology of electrochemically deposited gold decorative coatings obtained from conventional cyanide electrolyte (AUROCIN DPB) and electrolyte based on mercaptotriazole (Au-MT). Heating of cyanide electrolyte does not significantly affect the thickness (b) of gold coatings (at 20 degrees C b = 0.08 mu m, at 30 degrees C b = 0.07 mu m and at 40 degrees C b = 0.08 mu m) and, for this reason, the decorative coating processes were carried out at room temperature. Temperature increase has a positive effect on thickness of decorative gold coatings obtained from electrolyte based on mercaptotriazole, but this effect is very small, so the heating of electrolyte is not recommended for this type of electrolyte (at 20 degrees C b = 0.08 mu m, at 40 degrees C b = 0.12 mu m and at 60 degrees C b = 0.13 mu m). The best coating roughness profiles are obtained at a temperature ...of 20 degrees C for both types of electrolyte. The morphology of gold deposits, obtained from both electrolytes, was studied using scanning electron microscopy.
TY - JOUR
AU - Dimitrijević, Silvana
AU - Rajčić-Vujasinović, Mirjana M.
AU - Jančić-Heinemann, Radmila
AU - Bajat, Jelena
AU - Trujić, Vlastimir
AU - Trifunović, Dejan
PY - 2014
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/2778
AB - The aim of this work was to investigate the effect of temperature on the thickness, surface roughness, visual appearance and morphology of electrochemically deposited gold decorative coatings obtained from conventional cyanide electrolyte (AUROCIN DPB) and electrolyte based on mercaptotriazole (Au-MT). Heating of cyanide electrolyte does not significantly affect the thickness (b) of gold coatings (at 20 degrees C b = 0.08 mu m, at 30 degrees C b = 0.07 mu m and at 40 degrees C b = 0.08 mu m) and, for this reason, the decorative coating processes were carried out at room temperature. Temperature increase has a positive effect on thickness of decorative gold coatings obtained from electrolyte based on mercaptotriazole, but this effect is very small, so the heating of electrolyte is not recommended for this type of electrolyte (at 20 degrees C b = 0.08 mu m, at 40 degrees C b = 0.12 mu m and at 60 degrees C b = 0.13 mu m). The best coating roughness profiles are obtained at a temperature of 20 degrees C for both types of electrolyte. The morphology of gold deposits, obtained from both electrolytes, was studied using scanning electron microscopy.
PB - Carl Hanser Verlag, Munich
T2 - International Journal of Materials Research
T1 - Temperature effect on decorative gold coatings obtained from electrolyte based on mercaptotriazole - comparison with cyanide
EP - 281
IS - 3
SP - 272
VL - 105
DO - 10.3139/146.111017
ER -
@article{
author = "Dimitrijević, Silvana and Rajčić-Vujasinović, Mirjana M. and Jančić-Heinemann, Radmila and Bajat, Jelena and Trujić, Vlastimir and Trifunović, Dejan",
year = "2014",
abstract = "The aim of this work was to investigate the effect of temperature on the thickness, surface roughness, visual appearance and morphology of electrochemically deposited gold decorative coatings obtained from conventional cyanide electrolyte (AUROCIN DPB) and electrolyte based on mercaptotriazole (Au-MT). Heating of cyanide electrolyte does not significantly affect the thickness (b) of gold coatings (at 20 degrees C b = 0.08 mu m, at 30 degrees C b = 0.07 mu m and at 40 degrees C b = 0.08 mu m) and, for this reason, the decorative coating processes were carried out at room temperature. Temperature increase has a positive effect on thickness of decorative gold coatings obtained from electrolyte based on mercaptotriazole, but this effect is very small, so the heating of electrolyte is not recommended for this type of electrolyte (at 20 degrees C b = 0.08 mu m, at 40 degrees C b = 0.12 mu m and at 60 degrees C b = 0.13 mu m). The best coating roughness profiles are obtained at a temperature of 20 degrees C for both types of electrolyte. The morphology of gold deposits, obtained from both electrolytes, was studied using scanning electron microscopy.",
publisher = "Carl Hanser Verlag, Munich",
journal = "International Journal of Materials Research",
title = "Temperature effect on decorative gold coatings obtained from electrolyte based on mercaptotriazole - comparison with cyanide",
pages = "281-272",
number = "3",
volume = "105",
doi = "10.3139/146.111017"
}
Dimitrijević, S., Rajčić-Vujasinović, M. M., Jančić-Heinemann, R., Bajat, J., Trujić, V.,& Trifunović, D.. (2014). Temperature effect on decorative gold coatings obtained from electrolyte based on mercaptotriazole - comparison with cyanide. in International Journal of Materials Research
Carl Hanser Verlag, Munich., 105(3), 272-281.
https://doi.org/10.3139/146.111017
Dimitrijević S, Rajčić-Vujasinović MM, Jančić-Heinemann R, Bajat J, Trujić V, Trifunović D. Temperature effect on decorative gold coatings obtained from electrolyte based on mercaptotriazole - comparison with cyanide. in International Journal of Materials Research. 2014;105(3):272-281.
doi:10.3139/146.111017 .
Dimitrijević, Silvana, Rajčić-Vujasinović, Mirjana M., Jančić-Heinemann, Radmila, Bajat, Jelena, Trujić, Vlastimir, Trifunović, Dejan, "Temperature effect on decorative gold coatings obtained from electrolyte based on mercaptotriazole - comparison with cyanide" in International Journal of Materials Research, 105, no. 3 (2014):272-281,
https://doi.org/10.3139/146.111017 . .
