Stability of plasma-sprayed thermal barrier coatings: The role of the waviness of the bond coat and the thickness of the thermally grown oxide layer.

journal article in Web of Science

English

In this paper, the effect of the waviness of the bond coat and the thickness of the thermally grown oxide (TGO) layer on the stability of plasma-sprayed thermal barrier coatings is investigated. Large numbers of threedimensional finite element calculations were performed using a plasma-sprayed MCrAlY+ YSZ thermal barrier coating as a modeled systemand a cosine surface to represent an irregular top-coat/bond-coat interface. Thermal cooling stresses in critical locations (the top coat and the interfaces between the top coat, the TGO, and the bond coat)were evaluated assuming a stress-free initial state and elastic (the substrate, the thermally grown oxide and the top coat) and elastic–ideal plastic (the bond coat) material behavior. The results of this investigation, which have been discussed by taking into account interfacial geometries typical of manufactured coatings, indicate that thewaviness could markedly affect the service lifetime and thus should be considered in both theoretical studies and further experimental endeavors.

Thermal barrier coatings; Plasma spraying; Finite element modeling; Thermally grown oxide; Roughness

SKALKA, P.; SLÁMEČKA, K.; POKLUDA, J.; ČELKO, L.

2015

25. 7. 2015

0257-8972

Surface and Coatings Technology

274

1

Swiss Confederation

26

36

11