Topologically inverse microstructure in single-crystal superalloys: microstructural stability and properties at ultrahigh temperature

Topologically inverse microstructure in single-crystal superalloys: microstructural stability and properties at ultrahigh temperature

Topological phase inversion, in which γ'-precipitate becomes topological matrix phase, is a typical ‘detrimental’ microstructural degradation in Ni-based single-crystal superalloys. Here, a topologically inverse structure without service-induced damages is proposed. This structure exhibits exce...

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Autores principales: Yi Ru, Bin Hu, Wenyue Zhao, Heng Zhang, Yanling Pei, Shusuo Li, Shengkai Gong, Huibin Xu
Formato: article
Lenguaje:EN
Publicado: Taylor & Francis Group 2021
Materias:
single-crystal superalloy
topological phase inversion
ultrahigh temperature property
microstructural stability
two-phase interface
Materials of engineering and construction. Mechanics of materials
TA401-492
Acceso en línea:https://doaj.org/article/97d75ed99ec74246987cd73dc3d24090
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Sumario:Topological phase inversion, in which γ'-precipitate becomes topological matrix phase, is a typical ‘detrimental’ microstructural degradation in Ni-based single-crystal superalloys. Here, a topologically inverse structure without service-induced damages is proposed. This structure exhibits excellent stress rupture properties at 1200°C and great microstructural stability, characterized by high, steady two-phase interface density. The relationship of the interface density to microscopic dislocation motion and macroscopic plastic deformation has been established, which reveals possible strengthening effect. These results will help understanding the benefit from this ‘degraded’ but quite stable microstructure and guide microstructure tuning against long-termed heat-resisted service.

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