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In this study, the corrosion behaviour of 75Ni/25graphite abradable coating and Ni Al bonding coatings with different Al content were investigated with open circuit potential and polarization tests.
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ESD can apply metallurgical bonded coatings in ambient conditions without the need of post-deposition annealing treatments.
Hence, heating cold sprayed substrate is considered as an effective approach to produce thick and highly bonded coatings.
Various coatings have been highly attractive; however, High Velocity Oxy-fuel (HVOF) process, a family of thermal spray techniques uses kinetic energy of the burnt gases to soften and to propel the spray powder producing dense very low porosity, good inter-particle cohesion and well bonded coatings.
NiAl-based bond coatings for thermal barrier coating (TBC) systems containing varying amounts of Ru and Pt have been investigated.
Pt-modified Ni aluminides and MCrAlY coatings (where M = Ni and/or Co) are widely used on turbine blades and vanes for protection against oxidation and corrosion and as bond coatings in thermal barrier coating (TBC) systems.
Several different single-crystal superalloys were coated with different bond coatings to study the effect of composition on the cyclic oxidation lifetime of an yttria-stabilized zirconia (YSZ) top coating deposited by electron beam physical vapor deposition from a commercial source.
We firstly prepared aluminum coatings on steels by arc spraying, and then obtained the metallurgically bonded ceramic coatings on aluminum coatings by PEO.
Mechanical disruption (rumpling) of bond coatings usually leads to significant displacement of the bond coating of the TGO and TGO-ceramic interfaces causing failure of the TBC.
Such TBC systems with SPS Pt rich γ γ′ bond coatings were compared to conventional TBC system composed of a β-(Ni,Pt Al bond coating.
The Ru/Pt-modified aluminide bond coats demonstrate cyclic oxidation lives comparable to those of Pt-modified aluminide bond coatings.
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