Influence of oxygen in plasma nitriding

ISSN： 1749-5156

Source： International Heat Treatment & Surface Engineering, Vol.3, Iss.4, 2009-12, pp. : 153-158

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Abstract

The development of low temperature nitriding treatments to enhance wear resistance over the past 40 years is reviewed. The progress achieved is illustrated with evidence from extensive laboratory investigations and industrial trials on textile machine components and other parts. It is demonstrated that small additions of an oxidising component to gaseous nitrocarburising or plasma nitriding/nitrocarburising atmospheres have a beneficial effect on layer formation and on the wear properties of the treated components. The presence of oxygen increases layer formation rates and stabilises the ε-compound layer. The role of oxygen on surface activation is important for chromium containing steels but also on plain carbon or alloyed steels and to neutralise the passivating effect of finishing procedures. Applying a post-oxidation step after nitrocarburising can significantly increase the corrosion resistance of the surface but close control of gas composition and treatment parameters is necessary.