Cao Tieshan   

Associate Professor
Supervisor of Master's Candidates

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Language:English

Paper Publications

Title of Paper:Creep-induced microstructural evolution in a nickel-based superalloy designed for advanced ultra-supercritical boilers

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Date of Publication:2018-05-01

Journal:MATERIALS CHARACTERIZATION

Included Journals:SCIE、EI

Volume:139

Page Number:311-318

ISSN No.:1044-5803

Key Words:Ni-based superalloy; Precipitates; Grain boundary; Creep; Advanced ultra-supercritical

Abstract:Long-term microstructural stability is a major concern for candidate materials used in advanced ultra-super-critical (A-USC) power plants. In the present work, precipitation behavior of a nickel based superalloy designed for A-USC boilers, with a base composition of Ni-25Cr-20Co, was investigated during long-term thermal exposure under different stresses at 1043 K. The results showed that the coarsening of gamma' precipitates in the grain interior had occurred during thermal exposure in the presence and absence of stress. The microstructure around grain boundary was altered remarkably under stress. The precipitate-free zones (PFZs) commonly existed near the grain boundary in the gauge sections of specimens after long-term creep. Coarsened and elongated particles in the PFZs were identified as gamma'-Ni-3 (Ti, Al) precipitates by chemical composition analysis and diffraction pattern. Furthermore, the morphology and distribution of MC-type carbides have no significant changes observed due to their good stability, but discontinuous M23C6 appeared under stress, due to formation of PFZs resulting in dissolution of the adjacent M23C6. Besides, the creep-rupture mechanism was discussed to explore a potential approach for improving creep properties.

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