Add to ORKGTheoretical and practical studies of tungsten alloys with iron group metals continue to be carried out worldwide, in the light of versatile applications of these alloys because of the unique combination of tribological, magnetic, and electrical properties. The electrodeposition of Co-W alloys was performed in the citrate-borate solution at pH 5-8; t=20 and 60 °C. The electrochemical corrosion was studied in 0.01 M H₂SO₄, and stainless steel is selected as a substrate due to its extremely high corrosion resistance in the mentioned media. For the mapping properties the alloys having various content of W (3-36 at.%) and crystallite size varying from polycrystalline (<60 nm) to “amorphous-like” (2-5 nm) have been prepared. Co-W alloys possessin...
The effects the anode material has on the rate of electrodeposition (current efficiency) and microha...
Co-W alloy coatings were deposited with direct current (DC) and pulse current (PC) electrodeposition...
Electroreduction of various Ni(II) and Co(II) complexes in chloride, sulfate, citrate, pyrophosphate...
Theoretical and practical studies of tungsten alloys with iron group metals continue to be carried o...
The mapping of structural, magnetic, and mechanical properties of Co–W coatings galvanostatically el...
Nanocrystalline Co-W alloys were electrodeposited at 60 °C from citrate-borate electrolyte at pH 6.7...
513-518Bright Co-W alloy on steel is obtained from the optimised bath with the operating condition...
The tribological and corrosive characteristics of binary and ternary alloys electrodeposited from Co...
Traditional hexavalent hard chrome coatings produced from chromium trioxide are providing reasonable...
Principles of three component Iron-Cobalt-Tungsten alloys electrodeposition from complex Fe (III) ba...
The aim of the present study is to explore the electrolyte composition in order to obtain Co-W, Co-N...
Due to the presence of tungsten, Fe-W alloys can be applied as anticorrosive coatings. However, the ...
The electrodeposition f cobalt-tungsten-molybdenum alloys is described. The aque-ous plating bath wa...
Tungsten alloy coatings with iron group metals (Ni, Fe, Co) are considered as advanced materials for...
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
The effects the anode material has on the rate of electrodeposition (current efficiency) and microha...
Co-W alloy coatings were deposited with direct current (DC) and pulse current (PC) electrodeposition...
Electroreduction of various Ni(II) and Co(II) complexes in chloride, sulfate, citrate, pyrophosphate...
Theoretical and practical studies of tungsten alloys with iron group metals continue to be carried o...
The mapping of structural, magnetic, and mechanical properties of Co–W coatings galvanostatically el...
Nanocrystalline Co-W alloys were electrodeposited at 60 °C from citrate-borate electrolyte at pH 6.7...
513-518Bright Co-W alloy on steel is obtained from the optimised bath with the operating condition...
The tribological and corrosive characteristics of binary and ternary alloys electrodeposited from Co...
Traditional hexavalent hard chrome coatings produced from chromium trioxide are providing reasonable...
Principles of three component Iron-Cobalt-Tungsten alloys electrodeposition from complex Fe (III) ba...
The aim of the present study is to explore the electrolyte composition in order to obtain Co-W, Co-N...
Due to the presence of tungsten, Fe-W alloys can be applied as anticorrosive coatings. However, the ...
The electrodeposition f cobalt-tungsten-molybdenum alloys is described. The aque-ous plating bath wa...
Tungsten alloy coatings with iron group metals (Ni, Fe, Co) are considered as advanced materials for...
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
The effects the anode material has on the rate of electrodeposition (current efficiency) and microha...
Co-W alloy coatings were deposited with direct current (DC) and pulse current (PC) electrodeposition...
Electroreduction of various Ni(II) and Co(II) complexes in chloride, sulfate, citrate, pyrophosphate...