High temperature erosion-corrosion behaviour of magnetron sputtered TiCr/TiCrN ultrathin multilayer thin films for gas turbine engine applications

When the aircraft is operated in deserts or dusty areas, solid particle erosion (SPE) causes major damage to the gas turbine engine compressor blades. Similarly, when operating in a corrosive environment such as near sea, corrosion plays a major role. The corrosion process on pristine and eroded sur...

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Bibliographic Details
Published in:Surface & coatings technology 2025-03, Vol.499, p.131869, Article 131869
Main Authors: M., Jeevitha, Bonu, Venkataramana, Tizzile, J.S. John, Arunchandran, Chenan, Kumar, V. Praveen, Barshilia, Harish C.
Format: Article
Language:English
Subjects:
Corrosion
Solid particle erosion
Ternary nitride
Ti6Al4V
TiCr/TiCrN multilayer coating
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Summary:When the aircraft is operated in deserts or dusty areas, solid particle erosion (SPE) causes major damage to the gas turbine engine compressor blades. Similarly, when operating in a corrosive environment such as near sea, corrosion plays a major role. The corrosion process on pristine and eroded surfaces can be different. So, corrosion studies on eroded surfaces are important to understand compressor blade deterioration by erosion and corrosion. It is important to develop a coating that can protect the compressor blades from SPE and corrosion. Ternary nitrides are known to have a complementary effect of two different metal nitrides. Further, the multilayer coating architecture with altering mechanical properties across the thickness contributes to combat SPE and corrosion. Considering these key factors, nano-multilayered TiCr/TiCrN coating of thickness ~8.5 μm with a bi-layer thickness of 7.5 nm was developed using an in-house designed unbalanced magnetron sputtering system. The optimized coating exhibited good adhesion and mechanical properties. The SPE tests were carried out following ASTM-G76 standards in the temperature range of room temperature (RT) to 500 °C. The pristine and erosion-tested samples at impinging angles 30° and 90° were subjected to the potentiodynamic polarization tests in 3.5 wt% NaCl solution. The erosion test impingement angle and temperature impacted the corrosion behaviour of the substrate and the coating. The coating showed around ~93 times better erosion resistance than the bare Ti6Al4V substrate for 30 m/s erodent speed at 300 °C. The coated Ti6Al4V showed around two orders better corrosion protection than the bare Ti6Al4V. The high number of interfaces helped in restricting the corrosion media and the erosion crack penetration. •Developed TiCr/TiCrN nanomultilayered erosion & corrosion resistant coating.•Sequential corrosion tests were carried out after erosion tests using PDP.•Average erosion rate is 93 times (300 °C, 30 m/s erodent speed) lower than Ti6Al4V.•TiCr/TiCrN showed two order better corrosion resistance than Ti6Al4V substrate.•Coating provided good corrosion protection even after erosion tests.
ISSN:0257-8972
DOI:10.1016/j.surfcoat.2025.131869