Hello, I don't recommend brush plating on the surface of aluminum, because the bonding force will not be very good. In some cases, it is possible to use compounds containing metal components
1. Electrocleaning (#1 solution) Application: Used to remove oil from metal work piece surface; Working Environment: 6-14V voltage, take work piece as cathode during operation; 2. Activator #2(#2 solution) Application: Used to remove Oxide film from metal work piece surface; Working Environment: 6-12V voltage, take work piece as anode during operation;( change the switcher into “-“) 3. Activator #3(#3 solution) Application: For carbon steel, cast iron or high carbon containing alloy steel, there will have gray-black dirt left after Activator #2 process. Activator #3 is used to remove the residual dirt. Working Environment: 8-15V voltage, take work piece as anode during operation;( change the switcher into “-“) 4. Chrome Activator(#4 solution) Application: Used to remove Oxide film from Chrome work piece, improve the binding strength between coating and Chrome work piece. Working Environment: 3-8V, take work piece as anode during operation; Water cleaning is not needed after Chrome Activator process, just brush plating Chromium Under-layer Nickel directly. 5. Under-layer Nickel(#5 solution) Application: Used as bottom layer, to improve bonding strength between coating and base material; Working Environment: 6-15V voltage, take work piece as cathode during operation; Before plating (without electricity), wipe work piece by anodes and plating pen. 6. Fast Copper (#6 solution) Application: Used for high speed deposition and heavy build (more than 1mm) copper coating, especially suitable for printing roller pressure pits, scratches, hydraulic pillar strain etc serious damaged work piece repairing. Working Environment: 6-17V voltage, take work piece as cathode during operation; before plating (without electricity), wipe work piece by anodes and plating pen 7.Fast Nickel/cobalt(#7 solution) Application: Used for high speed deposition and heavy build working layer, used for large-sized tolerance work piece repairing; Working Environment: 7-15V voltage, take work piece as cathode during operation; Before plating (without electricity), wipe work piece by anodes and plating pen..
what chemical did you use for activator 3 and 4?
That turned out amazing, I had my doubts that it could be done without a lathe, but the copper sands off so flush with the chrome it works great.
If it is a large area of damage, a lathe may be needed, but a small area of damage can be done without a lathe.
With which you are plating, how is the handle made and what is placed in front of it?
In most cases, they are made of graphite, but there are also DSA materials or nickel plates.
@@Brush-Plating thnkx
Hello how are you, do you have any arrangement for aluminum cylinder brush plighting
Hello, I don't recommend brush plating on the surface of aluminum, because the bonding force will not be very good. In some cases, it is possible to use compounds containing metal components
How can ı buy ?
Can u give what type All of chemical you Used?
Especially for Chroom plated,
www.brush-plating.net/?c=index&a=show&id=9
Would you like to explain the all seven chemicals?
1. Electrocleaning (#1 solution)
Application: Used to remove oil from metal work piece surface;
Working Environment: 6-14V voltage, take work piece as cathode during operation;
2. Activator #2(#2 solution)
Application: Used to remove Oxide film from metal work piece surface;
Working Environment: 6-12V voltage, take work piece as anode during operation;( change the switcher into “-“)
3. Activator #3(#3 solution)
Application: For carbon steel, cast iron or high carbon containing alloy steel, there will have gray-black dirt left after Activator #2 process. Activator #3 is used to remove the residual dirt.
Working Environment: 8-15V voltage, take work piece as anode during operation;( change
the switcher into “-“)
4. Chrome Activator(#4 solution)
Application: Used to remove Oxide film from Chrome work piece, improve the binding strength between coating and Chrome work piece.
Working Environment: 3-8V, take work piece as anode during operation; Water cleaning is not needed after Chrome Activator process, just brush plating Chromium Under-layer Nickel directly.
5. Under-layer Nickel(#5 solution)
Application: Used as bottom layer, to improve bonding strength between coating and base material;
Working Environment: 6-15V voltage, take work piece as cathode during operation;
Before plating (without electricity), wipe work piece by anodes and plating pen.
6. Fast Copper (#6 solution)
Application: Used for high speed deposition and heavy build (more than 1mm) copper coating, especially suitable for printing roller pressure pits, scratches, hydraulic pillar strain etc serious damaged work piece repairing.
Working Environment: 6-17V voltage, take work piece as cathode during operation; before plating (without electricity), wipe work piece by anodes and plating pen
7.Fast Nickel/cobalt(#7 solution)
Application: Used for high speed deposition and heavy build working layer, used for large-sized tolerance work piece repairing;
Working Environment: 7-15V voltage, take work piece as cathode during operation;
Before plating (without electricity), wipe work piece by anodes and plating pen..
Sir hame handle chahiye kaise perchage karun
sorry,I did not get your meaning
Kitne handle chaiy aapko
2@@aryaoffsetprintingcylnderepair
Hello!
How to buy components?
And what are the prices?
Please visit: www.brush-plating.net
Please how can i contcet with
Please send email to jerry0376@gmail.com
Should have explained what you were doing that music was really bad
Love you sir I'm interested
My small work shop
Please contact me by email : jerry0376@gmail.com
where I can buy these machine and accessories needed for the entire process?
You can send email to : jerry0376@gmail.com
Nice Jerry
Thanks for your support
good job
Thanks🙂
You will have an aluminum brush flirting
This sick music makes it to hard to look an maby good video 😢.
Phh can not look more than 1 minute