Chung-Ming Kuo scite author profile

This article presents the high temperature tensile and creep behaviors of a novel high entropy alloy (HEA). The microstructure of this HEA resembles that of advanced superalloys with a high entropy FCC matrix and L12 ordered precipitates, so it is also named as “high entropy superalloy (HESA)”. The tensile yield strengths of HESA surpass those of the reported HEAs from room temperature to elevated temperatures; furthermore, its creep resistance at 982 °C can be compared to those of some Ni-based superalloys. Analysis on experimental results indicate that HESA could be strengthened by the low stacking-fault energy of the matrix, high anti-phase boundary energy of the strengthening precipitate, and thermally stable microstructure. Positive misfit between FCC matrix and precipitate has yielded parallel raft microstructure during creep at 982 °C, and the creep curves of HESA were dominated by tertiary creep behavior. To the best of authors’ knowledge, this article is the first to present the elevated temperature tensile creep study on full scale specimens of a high entropy alloy, and the potential of HESA for high temperature structural application is discussed.

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Aging effects on the microstructure and creep behavior of Inconel 718 superalloy

Kuo

Yang

Bor

et al. 2009

Materials Science and Engineering: A

274

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Recommendations and guidelines for the treatment of pneumonia in Taiwan

Chou

Shen

Chen

et al. 2019

Journal of Microbiology, Immunology and Infection

100

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Chung-Ming Kuo

Fracture mechanics for piezoelectric ceramics

Video object tracking using adaptive Kalman filter

The High Temperature Tensile and Creep Behaviors of High Entropy Superalloy

Aging effects on the microstructure and creep behavior of Inconel 718 superalloy

Recommendations and guidelines for the treatment of pneumonia in Taiwan

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