Y
Ying Zhang
Researcher at Tennessee Technological University
Publications - 45
Citations - 1398
Ying Zhang is an academic researcher from Tennessee Technological University. The author has contributed to research in topics: Coating & Aluminide. The author has an hindex of 24, co-authored 45 publications receiving 1300 citations.
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Martensitic transformation in CVD NiAl and (Ni,Pt)Al bond coatings
TL;DR: In this paper, the authors investigated the effect of the martensitic phase transformation in single-phase β-NiAl and (Ni,Pt)Al coatings after isothermal exposure to 1150 °C for 100 h, the β phase in both types of coatings was transformed to a martensite phase during cooling to room temperature.
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Effects of Pt incorporation on the isothermal oxidation behavior of chemical vapor deposition aluminide coatings
TL;DR: In this article, the effects of Pt incorporation on the isothermal oxidation and diffusion behavior of low-sulfur aluminide bond coatings were investigated, and it was concluded that the major beneficial effect of the incorporation of Pt was the elimination of void growth at the oxide-metal interface.
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Comparison of the cyclic oxidation behavior of β-NiAl, β-NiPtAl and γ–γ′ NiPtAl coatings on various superalloys
TL;DR: In this article, the cyclic oxidation behavior of simple aluminide and platinum-aluminide coatings on various superalloy substrates was investigated at three different temperatures: 1050, 1100 and 1150°C.
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LaCrO3-based coatings on ferritic stainless steel for solid oxide fuel cell interconnect applications
TL;DR: In this article, the LaCrO3 thin film was successfully synthesized on a ferritic stainless steel substrate by two approaches, i.e., reactive formation and sol-gel processing.
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Effect of cycle length on the oxidation performance of iron aluminide coatings
TL;DR: In this article, the effect of cycle length (1 h vs. 100 h) on the cyclic oxidation behavior of aluminide coatings on representative commercial ferritic (Fe-9Cr-1Mo) and austenitic (type 304L stainless steel) alloys at 700°C in air with 10 vol% H 2 O.