Providing high hardness DLC (TAC) film through low-temperature film formation.
Attention those troubled by scratches and wear on parts. Hydrogen-free DLC (ta-C) film offers high hardness and high density, providing excellent wear resistance! No deformation of the substrate due to heat.
The hydrogen-free DLC film (ta-C) produced by the Filtered Arc Vacuum Deposition (FCVA) method differs from existing PVD and CVD methods by removing impurities through an electromagnetic filter, resulting in fewer particles, excellent adhesion, and high wear resistance. Additionally, since it is deposited at room temperature, it can be applied to low-melting-point materials such as plastics and rubber, as well as various materials like ceramics. Furthermore, thick films of over 10 micrometers can be created, enhancing the quality and longevity of automotive parts, thereby increasing added value. Not only DLC films, but metal films can also be produced. We also accept contract film deposition and equipment sales. 【Features】 ■ High hardness (~50 GPa) ■ High density ■ High adhesion ■ Wear resistance ■ Low-temperature deposition (<100°C) ■ DLC (ta-C) + decorative films available *For more details, please download the PDF or contact us.
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【Applicable Fields】 ■ Resin materials, ceramic materials (improvement of wear resistance) ■ Optical components (scratch prevention) ■ Automotive parts (capable of creating thick films over 10um. Enhancing quality, extending lifespan, and increasing added value through improved fuel efficiency.) ■ Printer industry (improvement of wear resistance and corrosion resistance) ■ Release films for precision molds used in glass lenses, plastics, etc. ■ Hard disk industry
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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.