Ultra-thin multilayered erosion resistant Ti/TiN coatings with stress absorbing layers

In this high speed era, several machine components are operated at high speeds and at high temperatures. Machine components such as gas turbine compressor blades and vanes are exposed to high speed dust particles. Consequently, engine performance deteriorates and in extreme cases catastrophic accide...

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Bibliographic Details
Published in:Applied surface science 2019-06, Vol.478, p.872-881
Main Authors: Bonu, Venkataramana, Jeevitha, M., Praveen Kumar, V., Bysakh, Sandip, Barshilia, Harish C.
Format: Article
Language:English
Subjects:
Erosion
Nanolayered multilayered coating
Stress absorbing layer
Ti/TiN multilayers
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Summary:In this high speed era, several machine components are operated at high speeds and at high temperatures. Machine components such as gas turbine compressor blades and vanes are exposed to high speed dust particles. Consequently, engine performance deteriorates and in extreme cases catastrophic accidents can happen. In order to protect these engine components, ultra-thin multilayered erosion resistant Ti/TiN coatings (thickness ~9–10 μm) with stress absorbing layers were developed using magnetron sputtering. Stress absorbing metallic layers were introduced to control the internal stress and also to maintain balanced ductile and brittle nature of the coating. Ultra-thin (3–4 nm) metal/ceramic bilayers provided high number of interfaces and ultra-small grain sizes. Erosion resistance performance of the developed coatings and also bare Ti6Al4V substrates was tested according to the ASTM-G76-13 standard at 400 °C. Tests were conducted with three different erodent speeds of 30, 60 and 100 m/s at four different impinging angles 90°, 60°, 45° and 30°. The average erosion rate ratios between Ti6Al4V substrate and optimized coating were 74, 13 and 12 for the erodent speeds of 30, 60 and 100 m/s, respectively. Influence of the substrate on the coating performance was also studied. Morphological, elemental and spectral analyses of the erosion scar were also probed. Structural stability, mechanical properties and erosion resistance performance of the optimized film were tested after 100 h annealing in air and vacuum at a temperature of 400 °C. Erosion resistant performance of the optimized film was unaffected after 100 h annealing. [Display omitted] •Ultra-thin multilayered Ti/TiN (3.5/4 nm) erosion resistant coating (~9 μm) with stress absorbing layers was developed.•Erosion resistance of the coating is 74 times better than the Ti6Al4V substrate.•Ultra-thin multilayers and stress absorbing layers helped in improving erosion resistance performance of the coating.•Stress absorbing metallic layers caused reduction in strain and also balanced brittle and ductile nature of the coating.•Coating is thermally stable: Erosion resistance performance of the coating was unaffected after 100 hrs air annealing.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2019.02.012