We provide super DLC (hydrogen-free ta-C film), Micc film, and various metal films using the FCVA method.
FCVA (Filtered Cathodic Vacuum Arc) provides high-quality coatings that are on a different level compared to existing methods such as PVD and CVD. Additionally, since no heating is required during the film formation process, deformation of the substrate does not occur, allowing for coatings on resin components as well. In particular, DLC films (ta-C) have the following characteristics: 1) Extremely close to diamond (high sp3 bonding) 2) Very high hardness, adhesion, and wear resistance 3) Hydrogen-free 4) Film thickness: from a few nm to 10 nm 5) Can be deposited on inner diameters These features make it suitable for various fields such as hard disks, precision molds, and wear-resistant parts. *For more details, please download the catalog or contact us.*
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**Features of the FCVA Method** ▼ Low Temperature: COOL The FCVA method can be adapted for a wide range of applications, such as coating plastics and rubber, due to its film formation at room temperature and high coating speed. ▼ High Quality: Superior Quality Compared to other technologies, FCVA offers significantly higher quality and allows for various types of coatings. Typically, films produced by FCVA excel in density, uniformity, smoothness, high hardness, corrosion resistance, and wear resistance, and they exhibit very high reproducibility. ▼ Large Area: Large Area Plasma scanning is available, allowing for a deposition area with a maximum diameter of 12 inches (which remains a significant challenge in other similar technologies).
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P4
Applications/Examples of results
■Hard disk slider ■Router for printed circuit board cutting ■Precision mold ■Sewing needle It will be active in various other situations!
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Our development technology has obtained international patents and plays a significant role in society. The super DLC (hydrogen-free ta-C film) produced by the FCVA method is formed through a completely different process compared to DLC films generated by existing PVD and CVD methods. Additionally, there is a composite metal film called "Micc film" that excels in release properties between metals and plastics. Coating films produced by the FCVA method are currently being rapidly adopted in fields such as the hard disk industry, precision machinery industry, and semiconductor industry, and future expansion into the automotive industry, nanoimprint industry, and biomaterials field is anticipated.