Optimizing the vacuum plasma spray deposition of metal,ceramic, and cermet coatings using designed experiments |
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Authors: | R. Kingswell K. T. Scott L. L. Wassell |
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Affiliation: | (1) Sermatech International Inc., High Holborn Road, Codnor, Ripley, Derby, England;(2) Harwell Laboratory, AEA Industrial Technology, 11 ORA Didcot, Oxfordshire OX, England |
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Abstract: | The vacuum plasma spray (VPS) deposition of metal, ceramic, and cermet coatings has been investigated using designed statistical experiments. Processing conditions that were considered likely to have a significant influence on the melting characteristics of the precursor powders and hence deposition efficiency were incorporated into full and fractional factorial experimental designs. The processing of an alumina powder was very sensitive to variations in the deposition conditions, particularly the injection velocity of the powder into the plasma flame, the plasma gas composition, and the power supplied to the gun. Using a combination of full and fractional factorial experimental designs, it was possible to rapidly identify the important spraying variables and adjust these to produce a deposition efficiency approaching 80%. The deposition of a nickel-base alloy metal powder was less sensitive to processing conditions. Generally, however, a high degree of particle melting was achieved for a wide range of spray conditions. Preliminary experiments performed using a tungsten carbide/cobalt cermet powder indicated that spray efficiency was not sensitive to deposition conditions. However, microstructural analysis revealed considerable variations in the degree of tungsten carbide dissolution. The structure and properties of the optimized coatings produced in the factorial experiments are also discussed. |
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Keywords: | design of experiments spray efficiency (deposition efficiency) statistical experiments Taguchi methods vacuum plasma spray |
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