Electrolytic marking is a process for permanent and precise marking of metal parts. This involves using electricity to create a chemical reaction on the surface of the workpiece, resulting in the desired inscription.
The process is particularly suitable for marking workpieces that are exposed to high loads, such as in the automotive or aviation industries. Electrolytic marking can create a permanent, abrasion-resistant and easily legible label that does not fade or come off, even under adverse conditions such as high temperatures or humidity.
Electrolytic marking is quick and easy to use. The workpiece is immersed in an electrolyte and the area to be marked is covered with a stencil. An electric current is then passed through the workpiece, causing a chemical reaction on the surface. The depth and intensity of the marking can be controlled by the duration and strength of the current flow.
A major advantage of electrolytic marking is the ability to create very fine inscriptions and logos with great precision. In addition, the process can be used on almost any metallic surface, including stainless steel, aluminum and titanium.
Another advantage of electrolytic marking is its environmental friendliness. Unlike other marking methods, no toxic or hazardous chemicals that could pollute the environment are used. The amount of waste is also minimal since only the electrolyte needs to be renewed.
Overall, electrolytic marking offers an effective, accurate, and environmentally friendly method of permanently marking metal parts. The process has proven itself in many industries and is an important technology for marking high-quality workpieces.