Scott G. Terry scite author profile

The microstructure of Al2O3 formed by oxidation of a model NiCrAlY alloy during electron‐beam physical vapor deposition of ZrO2–7.6 mol% YO1.5 is examined and compared with that formed on the bare substrate. The growth rate, morphology, and chemical composition of the oxide vary among the different constituents of the alloy surface and are further influenced by the O2 partial pressure and the physical presence of the thermal barrier coating (TBC) layer. These differences, however, are largely limited to the outer oxide layer. The interplay between the TBC and the growing oxide leads to the formation of a fine‐grain Al2O3–ZrO2“mixed zone” within the thermally grown oxide. A mechanism is outlined to explain this behavior, based on the dissolution of ZrO2 in a transient Al2O3 structure growing by outward diffusion of Al, and its subsequent reprecipitation when the metastable phase transforms to the stable α‐Al2O3 form.

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A kinetic Monte Carlo simulation of film growth by physical vapor deposition on rotating substrates

Cho

Terry

LeSar

et al. 2005

Materials Science and Engineering: A

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Laser impact welding: Design of apparatus and parametric optimization

Wang

Taber

Liu

et al. 2015

Journal of Manufacturing Processes

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Scott G. Terry

Microstructure and texture of EB-PVD TBCs grown under different rotation modes

Alumina Grown during Deposition of Thermal Barrier Coatings on NiCrAlY

A kinetic Monte Carlo simulation of film growth by physical vapor deposition on rotating substrates

Laser impact welding: Design of apparatus and parametric optimization

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