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 PlaTeG - PlaTeG GmbH
Example of treated parts    Plasma Polimerisation
Process Description

Component surfaces of diverse materials can be given a wide variety of favourable properties by plasma polymer coating.

For instance, the coating may have hydrophilic or hydrophobic characteristics depending on the application purpose. This type of surface finish is used to reduce friction on moving plastic parts, but also serves as a highly effective corrosion protection layer on metals.


Compared to other surface coating methods, plasma polymerization exhibits a number of advantages:
 
        eco-friendliness (no use or formation of environmentally harmful substances during application)
        reproducible results through the use of freely programmable process controllers
        suitability for automation and integration into manufacturing lines
        gentle treatment of plastic parts due to virtual absence of temperature loading and absence of aggressive chemicals.
        extremely high density of the plasma polymerization coating, ensuring effective corrosion protection even with a low coating thickness
        suitability for dry lubrication use in numerous medical applications due to chemicals resistance
activation, construction and building of plants wettability, coating, bipolal pulse, technology ,thin films, degreasing, Gas nitriding, hardening, hard coatings, hydrophil, hydrophob, corrosion, corrosion protection, plastic surfaces, nitriding, nitrocarburizing, surface technology, surface refinement, surface hardening, oxidizing, PA CVD/PE CVD coating, plasma, plasma activation, plasma, power supply, plasma hardening, plasma nitriding, plasma plant, plasma oxidizing, plasma polymerisation, plasma cleaning, plasma sterilising, plasma technology, polymerization, pulsed plasma, cleaning, life standing time, sterilizing, power supply, TiCN coatings, TiC coatings, TiN coatings, vacuum plants, agglutinate, wear, wear protection, heat treatment, tool hardening        uniform three-dimensional coating even of very complex component geometries


The plasma is generated by an electric field in the vacuum treatment chamber. The resulting ionized gas molecules and atoms will re-combine into a variety of defined polymer coatings on the component surface. A broad range of different coatings can be obtained, depending on the composition and type of the process gas and the individual plasma parameters. The plasma is produced by means of a high or medium-frequency alternating voltage. Plasma systems are evolving into a key technology in many areas, and the number of applications is growing continually as many coating tasks can no longer be effectively addressed by conventional methods.

PlaTeG GmbH
A Company of the PVA TePla Group
Postfach 210642
57030 Siegen
Deutschland / Germany

Managing Directors: Dr. Reinar Grün ; Arnd Bohle
Amtsgericht Siegen, HRB 8070  ;  USt.Id. DE 814730669
e-mail: service@plateg.de

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