Add to ORKG718-722Studies on the electrodeposition of zinc-iron group alloys are of academic and technological interest. The anomalous codeposition and enhanced corrosion protection of zinc-nickel alloy deposits make the search for newer plating bath formulations. Zinc and nickel were codeposited from sulphamate bath and 82 per cent zinc was obtained in the deposit. The sulphamate bath developed offered 100 per cent current efficiency with 24 per cent throwing power.</span
Zn-Ni alloys were electrodeposited on stainless steel from a sulphate bath in the presence of EDTA (...
Zn-Co alloy codeposition from chloride baths containing different Zn2+/Co2+ ratios was investigated ...
There is a growing need to increase the corrosion protection of stainless steel, and this can be ach...
Studies on the electrodeposition of zinc-iron group alloys are of academic and technological interes...
The electrodeposition of Ni-Zn alloy coatings having high nickel content (74-97 wt%) from a sulfamat...
The codeposition of Zn-Ni alloys from chloride bath has been studied by means of potentiostatic elec...
The interaction between different reacting species involved in the initial stage of electrodepositio...
Zinc alloy offers superior sacrificial protection to steel as the alloy dissolves more slowly than p...
The electrodeposition of Ni–Zn alloy coatings with high nickel content from a Watts type bath was st...
Hundreds of alloy baths of the commonly plated metals have been reported in the literature and conti...
A new Zn-Ni-Cd plating process was developed which offers a unique way of controlling and optimizing...
Zinc offers very effective sacrificial protection as well as brightness to steel. About 40% of the t...
Electrolytic parameters were optimised to get 12% to 21 % iron content in the codeposition of zinc-i...
The electrochemical deposition of zinc and combinations with elements of the 8th group of the Period...
The electrodeposition f a family of NiZnP coatings was studied at a rotating cylinder electrode by v...
Zn-Ni alloys were electrodeposited on stainless steel from a sulphate bath in the presence of EDTA (...
Zn-Co alloy codeposition from chloride baths containing different Zn2+/Co2+ ratios was investigated ...
There is a growing need to increase the corrosion protection of stainless steel, and this can be ach...
Studies on the electrodeposition of zinc-iron group alloys are of academic and technological interes...
The electrodeposition of Ni-Zn alloy coatings having high nickel content (74-97 wt%) from a sulfamat...
The codeposition of Zn-Ni alloys from chloride bath has been studied by means of potentiostatic elec...
The interaction between different reacting species involved in the initial stage of electrodepositio...
Zinc alloy offers superior sacrificial protection to steel as the alloy dissolves more slowly than p...
The electrodeposition of Ni–Zn alloy coatings with high nickel content from a Watts type bath was st...
Hundreds of alloy baths of the commonly plated metals have been reported in the literature and conti...
A new Zn-Ni-Cd plating process was developed which offers a unique way of controlling and optimizing...
Zinc offers very effective sacrificial protection as well as brightness to steel. About 40% of the t...
Electrolytic parameters were optimised to get 12% to 21 % iron content in the codeposition of zinc-i...
The electrochemical deposition of zinc and combinations with elements of the 8th group of the Period...
The electrodeposition f a family of NiZnP coatings was studied at a rotating cylinder electrode by v...
Zn-Ni alloys were electrodeposited on stainless steel from a sulphate bath in the presence of EDTA (...
Zn-Co alloy codeposition from chloride baths containing different Zn2+/Co2+ ratios was investigated ...
There is a growing need to increase the corrosion protection of stainless steel, and this can be ach...