Effect of Duty Cycle on Microstructure, Tungsten Content and Wear Resistance of Tungsten-Cobalt Films Prepared by Electrodeposition

Abstract: By studying effect of different duty cycles on tungsten-cobalt film to improve its performances, tungsten-cobalt films were prepared on the surface of PCrNi3MoVA steel by electrodeposition under different duty cycles. The results show that grain size increases with increasing duty cycle but tungsten content, microhardness, film-based bond strength and TC (100) increase first and then decrease with increasing duty cycle. When the duty cycle is 30%, tungsten-cobalt films with highest tungsten content (43.37%), g… Show more

“…[1][2][3] The Na 2 WO 4 -WO 3 molten salt system is predominantly utilized for tungsten coating since WO 3 is stable and relatively easy to prepare. [4][5][6] Electrodeposition of tungsten with molten salts as a medium is an effective approach in the production of tungsten coatings [7][8][9][10][11][12] and has garnered considerable attention. [13][14][15][16][17][18] In terms of electrode selection, studies have suggested that copper electrodes in Na 2 WO 4 -WO 3 molten salt can produce dense tungsten coatings.…”

Effect of electric fields on tungsten distribution in Na₂WO₄–WO₃ molten salt

“…[1][2][3] The Na 2 WO 4 -WO 3 molten salt system is predominantly utilized for tungsten coating since WO 3 is stable and relatively easy to prepare. [4][5][6] Electrodeposition of tungsten with molten salts as a medium is an effective approach in the production of tungsten coatings [7][8][9][10][11][12] and has garnered considerable attention. [13][14][15][16][17][18] In terms of electrode selection, studies have suggested that copper electrodes in Na 2 WO 4 -WO 3 molten salt can produce dense tungsten coatings.…”

Effect of electric fields on tungsten distribution in Na₂WO₄–WO₃ molten salt

Influence of pulse-electroplating parameters on the morphology, structure, chemical composition and corrosion behavior of Co–W alloy coatings