advanced coating machines that employ cathodic arc, thermal evaporation, and sputtering technologies. These versatile systems are designed for high-performance applications across various industries, with each technology providing distinct benefits
Extra large volume Cathodic arc technologies
With its dual parallel pumping lines, the system streamlines production, achieving a remarkable cycle time of 25 minutes. This innovative design boosts productivity while maintaining high quality, making it an excellent choice for industries aiming to enhance their coating processes
Horizontal Extra large volume
H series design significantly enhancing operational efficiency. The machine utilizes cutting-edge cathodic arc technology, ensuring superior deposition quality and uniformity. The inclusion of a sliding door further facilitates easy access, making the process user-friendly and improving workflow. The vertical placement of the machine not only saves valuable floor space but also increase the speed of machine load and unload.
Super Run thermal evaporation coating machines
The thermal evaporation coating technology is optimized for the deposition of aluminum onto polymer substrates, achieving exceptionally rapid cycle times of 10 to 15 minutes per operation. The dual-door system is designed to enhance efficiency by significantly reducing loading times
high capacity Cathodic arc technology
The 1628 series offers coatings specifically designed for tall fittings and equipment. This customized model features a pumping speed that facilitates a 25-minute cycle time, thereby enhancing user efficiency.
Standard high capacity Cathodic arc technology
The most commonly utilized cathodic arc dimensions appropriate for metal, ceramic and ABS-based products, and are available in a range of sizes.
Standard high capacity Sputtering Coating technology
magnetron sputter coater high deposition rates and compatibility with various materials, enabling the production of coatings for diverse sectors such as electronics, optics, and automotive. Moreover, the process is environmentally friendly as it minimizes waste and utilizes lower operating temperatures, making it suitable for a range of substrates, including temperature-sensitive materials.
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