The influence of feedstock powders on the CGS deposition efficiency of bond coats for TBCs

•CoNiCrAlY coatings for TBCs bond coat were obtained by CGS using nitrogen as propellant gas.•The obtained coatings up to 99.5% density were performed without oxidation signs.•The influence of particle size of the powder was demonstrated.•A narrow particle size distribution is essential for CGS tech...

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Bibliographic Details
Published in:Journal of alloys and compounds 2015-02, Vol.622, p.394-401
Main Authors: Crespo, V., Cano, I.G., Dosta, S., Guilemany, J.M.
Format: Article
Language:English
Subjects:
Bond coat
Bonding
Ceramic coatings
CGS
Coating
Cold gas
Cold spray
Deposition
Feedstock
MCrAlY
Sprayers
Sprays
TBC
Thermal barrier coatings
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Summary:•CoNiCrAlY coatings for TBCs bond coat were obtained by CGS using nitrogen as propellant gas.•The obtained coatings up to 99.5% density were performed without oxidation signs.•The influence of particle size of the powder was demonstrated.•A narrow particle size distribution is essential for CGS technology deposition efficiency. Thermal barrier coatings (TBCs) are ceramic coatings used to isolate turbine blades from the hot gas coming from the engine. A bond coat (BC) is placed between the ceramic top coat and the vane so as to improve adhesion and extend TBCs’ lifetime. This study is focused on BC production using CGS. It is well-known that the particle size distribution of powders used for cold gas spray (CGS) deposition is one of the most important parameters to take into account in order to achieve a well-deposited and well-bonded coating. Because of this, three CoNiCrAlY powders were analyzed, two of which were experimental (AE10086/AE10087) while the other was commercial (AMDRY 9951). The powders were sprayed under the same spray conditions using CGS technology and the resultant coatings compared. The results reveal that feedstock powders characteristics greatly influence the capacity to obtain a thick, homogeneous, non-porous coating, in an efficient way.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2014.09.216