The positive roles of metallic droplets in deposition of alloy films by cathodic arc plasma deposition

The vacuum arc is a high-current, low-voltage electrical discharge which produces a plasma consisting of vaporized and ionized electrode material. In the most common cathodic arc deposition systems, the arc concentrates at minute cathode spots on the cathode surface and the plasma is emitted as a hypersonic jet, with some degree of contamination by molten droplets [known as macroparticles (MPs)] of the cathode material. In vacuum arc deposition systems, the location and motion of the cathode spots are confined to desired surfaces by an applied magnetic field and shields around undesired surfaces. Substrates are mounted on a holder so that they intercept some portion of the plasma jet. The substrate often provides for negative bias to control the energy of depositing ions and heating or cooling to control the substrate temperature. In some systems, a magnetic field is used to guide the plasma around an obstacle which blocks the MPs. These elements are integrated with a deposition chamber, cooling, vacuum gauges and pumps, and power supplies to produce a vacuum arc deposition system.

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The positive roles of metallic droplets in deposition of alloy films by cathodic arc plasma deposition

Cited by 3 publications

References 14 publications

The Effect of Negative Bias Voltage on the Microstructure and Hot Corrosion Behavior of Heat-treated NiCoCrAlY Coatings Applied Via the Cathodic Arc Evaporation Physical Vapor Deposition Method

The Effect of Negative Bias Voltage on the Microstructure and Hot Corrosion Behavior of Heat-treated NiCoCrAlY Coatings Applied Via the Cathodic Arc Evaporation Physical Vapor Deposition Method

The corrosion behaviour of macroparticle defects in arc bond-sputtered CrN/NbN superlattice coatings

Vacuum arc deposition devices

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