In-line coating systems

In-line coating systems

Sputtering Cathodes lsoflux Inc. Rush, N.Y In-Line Coating Systems Leybold Technologies Inc. Enfield, Conn. Isoflux cylindrical sputtering cathodes ...

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Sputtering Cathodes lsoflux Inc. Rush, N.Y

In-Line Coating Systems Leybold Technologies Inc. Enfield, Conn.

Isoflux cylindrical sputtering cathodes surround substrates and deposit material on all sides at once. The result is a uniform, high-rate coating on three-dimensional objects. Typical applications include hard coatings on mechanical parts and tooling, decorative and functional coatings on stamped or molded parts, and inorganic coatings of all types on fibers, wires, and ribbons. Material that does not deposit on the substrate is recaptured and used again, significantly reducing waste. Because there is very little buildup on shields and fixtures, much less system maintenance is required.

Leybold’s DynaMet, a fast-cycling, in-line vacuum coating system, is the multiprocess, flexible, full-automation alternative to conventional, labor-intensive batch coaters. DynaMet reduces work-in-process, tooling costs, labor content, floor space, and changeover times and increases quality, uptime, throughput, and flexibility.

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Vacuum Coating Systems Dyna Vat Hingham, Mass.

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DynaVac offers a complete line of vacuum coating systems for a wide range of applications. Included are systems for physical vapor deposition of thin films, batch and inline sputtering, and metallizing. Emphasis is put on industrial-grade designs for production and/or continuous use. All systems are offered with control system architecture ranging from basic logic to advanced supervisory control.

Sputtering Process Engelhard-CLAL Carteret, N.J. ,Engelhard-CLAL has developed an enhanced SCX vacuum sputter coating process for wire, ribbon, and select discrete parts using a wide range of precious and nonprecious metal coatings. The unique coating technology enables codeposition of alloys or compounds that cannot be mechanically worked or alloyed by other techniques. In addition, it is possible to engineer coatings consisting of metallic compounds such as hydrides, nitrides, and oxides. Typical deposition coating thicknesses range from Y2 micron to over 6 microns. Circle 137 on reader information card

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METAL FINISHING

. APRIL 1997