The Dr. Galva® Copper-Nickel Set for Nickel and Copper Plating is the perfect tool for anyone interested in surface finishing. This set combines the proven Nickel Set and Copper Set from Dr. Galva®, allowing you to easily and effectively apply both nickel and copper coatings yourself.
With the included anodes (2 per metal), you can efficiently work with opposing anodes to ensure the workpiece is evenly coated in the middle. The large tank holds 1000-1300ml of electrolyte, allowing the treatment of slightly larger objects.
Versatile Applications:
Whether you want to plate jewelry, contacts, or other decorative items with nickel or copper, this set ensures professional results every time. It is easy to use for both beginners and professionals and offers excellent value for money.
Why the Dr. Galva® Copper + Nickel Set?
• Dual Capabilities: This set allows you to apply both nickel and copper coatings.
• Easy to Use: All necessary components are included to start nickel and copper plating right away.
• Flexibility: The ability to work with both small and larger objects makes this set highly versatile.
• Quality: High-quality materials and careful craftsmanship ensure durable and reliable results.
Discover the benefits of electroplating with the Dr. Galva® Combo Set and give your items a professional look. You can also find more innovative products for surface finishing and coating in our shop.
Scope of delivery:
1x power supply unit as selected (3A / 5A / 10A or None)
2x nickel anode 100 x 60 x 0,6mm
2x copper anode 100 x 60 x 0,6mm
1x cable black 1m
2x cable red 1m
10x alligator clip
1x tub large (200 x 100 x 90mm)
2l nickel plating solution "Free-Nickel"
2l glossy copper plating solution
What power do I Need?
In this table you can see the power required for your Project.
Electrolyte |
Power supply unit output |
3A* |
5A* |
10A* |
Chromium |
0,8 |
1,3 |
2,5 |
Copper acidic |
5 |
8,5 |
17 |
Copper alkaline |
15 |
25 |
50 |
Nickel |
10 |
17 |
34 |
Zinc |
12 |
20 |
40 |
Zinc-nickel |
3,3 |
5,5 |
11 |
* - Details of the maximum area to be coated in dm² at the lowest possible current density