Combined Plasma Nitriding and PVD Treatments
- 1 January 1992
- journal article
- research article
- Published by Taylor & Francis in Transactions of the IMF
- Vol. 70 (1) , 38-44
- https://doi.org/10.1080/00202967.1992.11870939
Abstract
A duplex surface engineering technique has been developed in an attempt to successfully apply thin hard ceramic coatings on commonly used low alloy steels. The low alloy steel (En40B) was first plasma nitrided so as to produce a relatively thick and strong subsurface layer, and then deposited with such ceramic coatings as TiN, CrN and (TiAl) by plasma assisted PVD. A series experiments have been carried out to investigate the structures and properties of the duplex treated steel. It is shown that such combined plasma nitriding and PVD treatments can produce a variety of coating/substrate interface structures and tribological properties. By proper process control, the resultant ceramic coating/nitrided steel composite possesses superior tribological performance over the individually plasma nitrided or PVD coated steel.Keywords
This publication has 12 references indexed in Scilit:
- Plasma surface engineering of low alloy steelMaterials Science and Engineering: A, 1991
- Load Bearing Capacity of Plasma Nitrided Steelunder Rolling–Sliding ContactSurface Engineering, 1990
- Turning tests of high rate reactively sputter-coated T-15 HSS insertsSurface and Coatings Technology, 1987
- On the improvement of the performance of high speed steel turning tools by tin coatingsWear, 1987
- Formation and Growth of Compound Layer on Nitrocarburizing Iron: Kinetics and Microstructural EvolutionSurface Engineering, 1987
- Use of deutron-induced nuclear reactions for quantitative surface analysisSurface and Coatings Technology, 1986
- Titanium Nitride PVD Coating TechnologySurface Engineering, 1985
- Requirements for wear-resistant coatingsThin Solid Films, 1983
- The fatigue characteristics of Plasma Nitrided three Pct Cr-Mo steelJournal of Heat Treating, 1982
- Improvement in tool life of coated high speed steel drills using the activated reactive evaporation processThin Solid Films, 1981