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Abstract

A thin coating of TiAIN was deposited on a high speed steel substrate by reactive sputtering. The effect of varying the rf substrate bias on microstructure, chemical composition, and mechanical properties of these films was investigated. The deposition rate and critical N₂ jlowrate decreased with increasing bias voltage. A stoichiometric composition of TiAIN was obtained and the chemical composition was found to be independent of bias voltage if the N₂ jlowrate exceeded a critical value. Large grained microstructure was developed with increased bias voltage, probably because of the larger size and smaller number of nuclei formed. A denser, harder film was obtained with increasing bias voltage, but adhesive strength decreased as substrate bias increased owing to the residual stresses developed. Optimum wear resistance occurred at a bias voltage of 80 ∼. this was probably a result of the combined effects of hardness and adhesive strength.

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INFLUENCE OF RF SUBSTRATE BIAS ON PROPERTIES OF REACTIVE SPUlTERED TiAlN FILMS

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