Installation of high production drums with automatic loading/unloading.
Fine layers of zinc are deposited on the surface of pieces of IRON or ZAMAK by electrolytes using electrical energy.
CYANIDE-FREE ALKALINE ZINC facilitates more homogenous dispersal of the zinc in the park, resulting in a more uniform layer of zinc. Also, as the zinc is deposited in ‘dots’, it improves adherence (ideal for parts that are going to be shaped or transformed later on).
Finishes: white and passivized high-resistance iridescent zinc, free from Chrome VI, with the option of a final sealant (a silicate-based product intended to increase resistance to corrosion) or torque-tension to improve the torque value.
Thin layers of zinc on the surface of pieces of IRON or ZAMAK electrolytically deposited by applying electrical energy.
* New: Interior coating of pipes
Fine layers of zinc are deposited on the surface of pieces of IRON or ZAMAK by electrolytes using electrical energy.
CYANIDE-FREE ALKALINE ZINC facilitates more homogenous dispersal of the zinc in the park, resulting in a more uniform layer of zinc. Also, as the zinc is deposited in ‘dots’, it improves adherence (ideal for parts that are going to be shaped or transformed later on).
Finishes: white and passivized high-resistance iridescent zinc, free from Chrome VI, with the option of a final sealant (a silicate-based product intended to increase resistance to corrosion)
Thin layers of zinc on the surface of IRON parts mechanically deposited by the impact of powdered zinc and glass spheres. Provides a smooth, semi-gloss finish with superior corrosion protection and is free of hydrogen embrittlement.
Using this procedure, high zinc thicknesses between 30 and 50 microns can be achieved.
It is done mechanically, by impacting the metal to be deposited against the surface of the metal to be coated, using glass balls of different sizes in a rotating bell. Unlike the electrolytic process, there are practically no possible sources of hydrogen formation in the process and, when it appears, it always does so in a very small amount concentrated on the surface, a situation that facilitates its spontaneous desorption in a few hours without actually creating problems. of embrittlement.
Mechanical zinc plating is one of the techniques within our reach that allows us to minimize the absorption of hydrogen and, at present, is an alternative to electrolytic zinc plating for the treatment of high-resistance steel parts such as screws, washers, nuts, straps, springs…