Journal of Advanced Ceramics (Feb 2023)

Heterogeneous layered structure in thermal barrier coatings by plasma spray-physical vapor deposition

  • Yan-Hong Lu,
  • Lu Huang,
  • Mei-Jun Liu,
  • Guan-Jun Yang,
  • Chang-Jiu Li

DOI
https://doi.org/10.26599/JAC.2023.9220692
Journal volume & issue
Vol. 12, no. 2
pp. 386 – 398

Abstract

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The unique columnar structure endows thermal barrier coatings (TBCs) prepared by plasma spray-physical vapor deposition (PS-PVD) with high thermal insulation and long lifetime. However, the coating delamination failure resulting from an intra-column fracture (within a column rather than between columns) is a bottleneck in the solid dust particle impact environment for aero-engine. To clarify the intra-column fracture mechanism, a basic layer deposition model is developed to explore a heterogeneous weak-to-strong layered structure formed by a local transient in-situ deposit temperature. During the PS-PVD, an in-situ deposit surface is continuously updated due to constantly being covered by vapor condensation, showing a transient temperature, which means that the in-situ deposit surface temperature rises sharply in short period of 0.2 s of depositing a thin layer during a single pass. Meanwhile, the increasing temperature of the in-situ deposit surface results in an experimentally observed heterogeneous weak-to-strong structure, showing a continuous transition from a porous weak structure at the bottom region to a dense strong structure at the top region. This structure easily makes the intra-column fracture at the porous weak region. The results shed light on improving TBC lifetime by restraining the intra-column fracture.

Keywords