Thermal behavior and mechanical properties of Y2SiO5 environmental barrier coatings after isothermal heat treatment

Y2SiO5 coatings are deposited by a flame-spray technique as protection layer on SiC substrates to prevent oxidation and steam corrosion. In this research, Y2SiO5 coatings were isothermally heat treated at different temperatures and different exposure times in a laboratory environment. The thermal behaviors such as phase transformation, microstructural change and thermally grown oxide (TGO) formation have been examined by XRD, SEM, and EDS analysis. Different modes of TGO growth behavior were found at different temperatures. In addition, the mechanical properties were evaluated by a Martens hardness tester. The results show that the change of microstructure and composition is not too critical, but higher temperatures and longer heating times do lead to the formation of Y2SiO5 crystalline phases and a β-Y2O3 phase. Thus, the isothermal heat treatment improves the hardness and elastic modulus of Y2SiO5 coatings. •Y2SiO5 coatings are deposited by flame-spray technique as protection layer on SiC.•Thermally grown oxide observed at the interface between the Y2SiO5 coating and Si bond coatings•Hardness and Young's modulus of Y2SiO5 coatings increased with increasing heat treatment time at 1180°C and 1480°C.