Made to outshine.-The MK34 machine is a modern device that utilizes PVD 2.0 technology, allowing for the simultaneous preparation of surfaces and the application of metal coatings using two techniques: magnetron sputtering and thermal evaporation. This device operates at lower temperatures than traditional PVD systems and other comparable technologies. The lower temperatures enable the processing of a much wider range of materials, including metals, plastics, and ceramics. An undeniable advantage of this system is the use of metals for coating that are not harmful to health or the environment (e.g., replacing hexavalent chromium used in galvanization with zero-valent chromium).
In the technological process, the first step is surface preparation. Plasma generation using high voltage, along with the introduction of technical gases, aims to remove surface contaminants in the form of unwanted substances (e.g., oxides). This treatment improves the surface's ability to accept coatings.
The next stage is magnetron sputtering, in which metal cathodes, such as titanium, zirconium, or chromium, serve as the source of the coating material. In the presence of argon and a magnetic field, gas ions bombard the cathode, ejecting metal atoms that then deposit onto the substrate surface. Additional reactive gases allow for the creation of ceramic coatings, such as TiN or CrN, offering a wide range of colors, from gold to black chrome.
The final stage is thermal evaporation, which involves heating the coating material in a vacuum, causing it to vaporize directly without transitioning into a liquid phase. The resulting metal gases deposit onto the substrate, forming a thin, uniform coating. This process allows for precise coating of even very delicate materials.
The key parameters of the entire process are the pressures of the individual gases, the power supplied to the sputtering sources, and the duration of the process. Maintaining this regime allows us to achieve uniform coatings with high adhesion and excellent performance properties.
Innovative Nature: PVD coating represents the future of surface finishing technology. Its ability to combine aesthetic elegance with excellent protective properties sets it apart as a truly innovative solution. By enabling the creation of thin, hard coatings in a wide range of colors and finishes, PVD allows manufacturers to achieve exceptional design without compromising on durability or performance
Eco-Friendly Process: PVD coating is a sustainable surface coating method that generates minimal waste and avoids harmful chemicals or solvents. The vacuum-based process is energy-efficient and free from volatile organic compounds (VOCs), making it an environmentally responsible choice. With PVD, manufacturers achieve durable, high-quality finishes while also caring for the environment
made to outlast
made to outshine
Applications and Industries
Automotive Industry: PVD coatings protect vehicle components from wear, corrosion, and extreme conditions, while also providing elegant, metallic finishes for both functional and decorative elements.
Consumer Electronics: PVD coatings add protective and aesthetic layers to consumer electronics, increasing resistance to wear and environmental factors while providing an elegant appearance.
Decorative Industry: From luxury goods to fashion accessories, PVD offers a wide range of vibrant, elegant finishes that enhance the visual appeal of decorative items while maintaining their durability.
Aerospace Industry: Aerospace components benefit from increased durability and resistance to high temperatures provided by PVD coatings, ensuring their longevity and performance in demanding conditions.
Właściciel: MAG Sp. z o. o. ul. Warsztatowa 24, 64-920 Piła;
Spółka wpisana do Krajowego Rejestru Sądowego w Sądzie Rejonowym Poznań – Nowe Miasto i Wilda w Poznaniu, IX Wydział Gospodarzy Krajowego Rejestru Sądowego pod nr KRS 0000684777, Kapitał zakładowy 4 864 000 zł w całości opłacony;
NIP 764-10-07-494, REGON 570149930; numer rejestrowy BDO 00002
