Journal of Alloys and Compounds2022,Vol.91917.DOI:10.1016/j.jallcom.2022.165845

Formation and evolution of hierarchical microstructures in a Ni-based superalloy investigated by in situ high-temperature synchrotron X-ray diffraction

Ke C.B. Cao S.S. Zhang X.P. Yu J.M. Zizak I. Manzoni A.M. Vogel F. Li W. Cheng J. Wanderka N. Liang S.B.
Journal of Alloys and Compounds2022,Vol.91917.DOI:10.1016/j.jallcom.2022.165845
  • NSTL
  • Elsevier

Formation and evolution of hierarchical microstructures in a Ni-based superalloy investigated by in situ high-temperature synchrotron X-ray diffraction

Ke C.B. 1Cao S.S. 1Zhang X.P. 1Yu J.M. 2Zizak I. 3Manzoni A.M. 4Vogel F. 5Li W. 5Cheng J. 6Wanderka N. 2Liang S.B.1
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作者信息

  • 1. School of Materials Science and Engineering South China University of Technology
  • 2. Institute for Applied Materials Helmholtz-Zentrum Berlin for Materials and Energy
  • 3. Department Structure and Dynamics of Energy Materials Helmholtz-Zentrum Berlin for Materials and Energy BESSY II
  • 4. Department of Materials Engineering Bundesanstalt für Materialforschung und -prüfung (BAM)
  • 5. Institute of Advanced Wear & Corrosion Resistant and Functional Materials Jinan University
  • 6. Department of Materials Science and Technology Technical University Berlin
  • 折叠

Abstract

? 2022 Elsevier B.V.Hierarchical microstructures are created when additional γ particles form in γ’ precipitates and they are linked to improved strength and creep properties in high-temperature alloys. Here, we follow the formation and evolution of a hierarchical microstructure in Ni86.1Al8.5Ti5.4 by in situ synchrotron X-ray diffraction at 1023 K up to 48 h to derive the lattice parameters of the γ matrix, γ’ precipitates and γ particles and misfits between phases. Finite element method-based computer simulations of hierarchical microstructures allow obtaining each phase's lattice parameter, thereby aiding peak identification in the in situ X-ray diffraction data. The simulations further give insight into the heterogeneous strain distribution between γ’ precipitates and γ particles, which gives rise to an anisotropic diffusion potential that drives the directional growth of γ particles. We rationalize a schematic model for the growth of γ particles, based on the Gibbs-Thomson effect of capillary and strain-induced anisotropic diffusion potentials. Our results highlight the importance of elastic properties, elastic anisotropy, lattice parameters, and diffusion potentials in controlling the behavior and stability of hierarchical microstructures.

Key words

Finite element method/Hierarchical microstructure/In-situ synchrotron X-ray diffraction/Nickel-based superalloy/Transmission electron microscopy

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出版年

2022
Journal of Alloys and Compounds

Journal of Alloys and Compounds

EISCI
ISSN:0925-8388
被引量3
参考文献量56
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