Plasma nitriding of Ti6Al4V alloy for improved water erosion resistance

Water droplet erosion (WDE) is a severe problem encountered in the operation of gas turbines. The damage is caused when small water droplets hit the surface of the compressor blades at very high velocities. In this work, RF plasma nitriding of Ti6Al4V alloy was performed with the aim of improving it...

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Bibliographic Details
Published in:Wear 2017-03, Vol.374-375, p.120-127
Main Authors: Batory, D., Szymanski, W., Panjan, M., Zabeida, O., Klemberg-Sapieha, J.E.
Format: Article
Language:English
Subjects:
Alloys
Compressor blades
Droplets
Erosion resistance
Gas turbine engines
Ion nitriding
Liquid impingement erosion
Nanoindentation
Phase composition
Plasma nitriding
Process parameters
Scanning electron microscopy
Scanning microscopy
Substrates
Ti6Al4V alloy
Titanium base alloys
Turbines
Water
Water droplet erosion
Water drops
Water erosion
Water hardness
Water resistance
Wear
X-ray diffraction
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Summary:Water droplet erosion (WDE) is a severe problem encountered in the operation of gas turbines. The damage is caused when small water droplets hit the surface of the compressor blades at very high velocities. In this work, RF plasma nitriding of Ti6Al4V alloy was performed with the aim of improving its resistance to the WDE. Process parameters, including temperature and gas atmosphere, were varied to evaluate the influence of nitriding conditions on the WDE resistance. Structural and morphological changes of the samples were investigated by scanning electron microscopy (SEM), phase composition by X-ray diffraction, and cross-sectional hardness distribution by nanoindentation. Water droplet erosion tests were performed using a rig that simulates WDE at working conditions of the compressor blades. Each sample was subjected to 6 min of WDE tests. After every minute of the experiment the erosion area of the sample was evaluated by the optical microscope and the specific mass loss was determined. Damage was analyzed using SEM and confocal laser scanning microscopy. The results show significantly higher resistance against WDE of Ti6Al4V nitrided at low temperature, especially in the case of hydrogen-free nitriding atmosphere. The incubation time for these samples was extended four times, as compared to the bare substrates or to the samples nitrided at higher temperatures. [Display omitted] •Water droplet erosion of plasma nitrided Ti6Al4V alloy is presented.•Plasma nitriding increases resistance against water droplet erosion of Ti6Al4V alloy.•Low temperature nitriding extends the incubation time of Ti6Al4V alloy.•Fatigue is the main wear mechanism.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2017.01.041