Plasma-sprayed alumina coating on Inconel 600 for fast reactor neutron detector application

Abstract: Alumina coating, with high electrical resistivity, has been proposed over Inconel 600 rings for application in fission chamber neutron detectors, operating at 923 K in fast breeder reactor. For improving the thermal cycling life and adhesion strength of alumina coating, selection of the suitable coating technique and bond coat, with appropriate spray parameters was pursued. In the present study, Ni-50%Cr bond coat was deposited over Inconel 600 by the high velocity oxygen fuel technique, while the top alumina … Show more

“…Cracks are connected with the original micro-cracks in the coating and then expand, resulting in the generation of long cracks in the coating. Moreover, the un-melted particles exist in the ceramic coating after plasma spraying due to the high melting point of ceramic materials [29]. Therefore the bonding strength would be reduced among the coating layers with un-melted particles, which would be very possible for them to peel off during the thermal shock cycling.…”

Thermal shock behaviours of atmospheric plasma sprayed NiCrAlY/Al₂O₃–20%TiO₂ gradient coating on Cu–Be alloy

“…Cracks are connected with the original micro-cracks in the coating and then expand, resulting in the generation of long cracks in the coating. Moreover, the un-melted particles exist in the ceramic coating after plasma spraying due to the high melting point of ceramic materials [29]. Therefore the bonding strength would be reduced among the coating layers with un-melted particles, which would be very possible for them to peel off during the thermal shock cycling.…”

Thermal shock behaviours of atmospheric plasma sprayed NiCrAlY/Al₂O₃–20%TiO₂ gradient coating on Cu–Be alloy

An Overview of Plasma-Sprayed Thermal Barrier Coating Activities in India

Evaluation of Thermal Cycling Performance of Plasma Sprayed Alumina Coating on Inconel 600 with Different Bond Coats