Affiliation:
1. Institut P’, CNRS, Université de Poitiers, Bd M. & P. Curie-TSA 41123, F-86073 Poitiers, France
Abstract
Metallic alloys are, by essence, ductile and stiff and can support loads without sudden rupture. This ductility becomes a disadvantage when applications require wear resistance. In this case, the hardening of the surface is required while retaining a core performance. Here, nitriding at low temperatures has proven to be beneficial and has potential. In fact, any phase transitions or unwanted compound precipitations that occur at higher temperatures have to be avoided as they would have a deleterious effect on the chemical homogeneity and mechanical properties. The present contribution summarizes the achievements made with such treatments on metallic alloys. We considered the most popular treatments, namely plasma, implantation, and gas nitridings.
Subject
General Materials Science
Reference80 articles.
1. Le Bourhis, E. (2014). Glass Mechanics and Technology, Wiley. [2nd ed.].
2. Borgioli, F. (2022). The “Expanded” Phases in the Low-Temperature Treated Stainless Steels: A Review. Metals, 12.
3. Kamat, A.M., Copley, S.M., Segall, A.E., and Todd, J.A. (2019). Laser-Sustained Plasma (LSP) Nitriding of Titanium: A Review. Coatings, 9.
4. Low-pressure, high-density plasma nitriding: Mechanisms, technology and results;Czerviec;Surf. Coat. Technol.,1998
5. Yan, H., Zhao, L., Chen, Z., Hu, X., and Yan, Z. (2020). Investigation of the Surface Properties and Wear Properties of AISI H11 Steel Treated by Auxiliary Heating Plasma Nitriding. Coatings, 10.
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