Influence of composition and precipitation evolution on damage at grain boundaries in a crept polycrystalline Ni-based superalloy

The microstructural and compositional evolution of intergranular carbides and borides prior to and after creep deformation at 850 °C in a polycrystalline nickel-based superalloy was studied. Primary MC carbides, enveloped within intergranular γ′ layers, decomposed resulting in the formation of layer...

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Published inActa materialia Vol. 166; pp. 158 - 167
Main Authors Kontis, Paraskevas, Kostka, Aleksander, Raabe, Dierk, Gault, Baptiste
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2019
Subjects
Atom probe tomography
Borides
Carbides
Creep
Damage
Decomposition
Eta phase
Superalloys
Eta phase
Borides
Creep
Decomposition
Superalloys
Damage
Carbides
Atom probe tomography
Online AccessGet full text
ISSN1359-6454
1873-2453
DOI10.1016/j.actamat.2018.12.039

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Abstract The microstructural and compositional evolution of intergranular carbides and borides prior to and after creep deformation at 850 °C in a polycrystalline nickel-based superalloy was studied. Primary MC carbides, enveloped within intergranular γ′ layers, decomposed resulting in the formation of layers of the undesirable η phase. These layers have a composition corresponding to Ni3Ta as measured by atom probe tomography and their structure is consistent with the D024 hexagonal structure as revealed by transmission electron microscopy. Electron backscattered diffraction reveals that they assume various misorientations with regard to the adjacent grains. As a consequence, these layers act as brittle recrystallized zones and crack initiation sites. The composition of the MC carbides after creep was altered substantially, with the Ta content decreasing and the Hf and Zr contents increasing, suggesting a beneficial effect of Hf and Zr additions on the stability of MC carbides. By contrast, M5B3 borides were found to be microstructurally stable after creep and without substantial compositional changes. Borides at 850 °C were found to coarsen, resulting in some cases into γ′- depleted zones, where, however, no cracks were observed. The major consequences of secondary phases on the microstructural stability of superalloys during the design of new polycrystalline superalloys are discussed. [Display omitted]
AbstractList The microstructural and compositional evolution of intergranular carbides and borides prior to and after creep deformation at 850 °C in a polycrystalline nickel-based superalloy was studied. Primary MC carbides, enveloped within intergranular γ′ layers, decomposed resulting in the formation of layers of the undesirable η phase. These layers have a composition corresponding to Ni3Ta as measured by atom probe tomography and their structure is consistent with the D024 hexagonal structure as revealed by transmission electron microscopy. Electron backscattered diffraction reveals that they assume various misorientations with regard to the adjacent grains. As a consequence, these layers act as brittle recrystallized zones and crack initiation sites. The composition of the MC carbides after creep was altered substantially, with the Ta content decreasing and the Hf and Zr contents increasing, suggesting a beneficial effect of Hf and Zr additions on the stability of MC carbides. By contrast, M5B3 borides were found to be microstructurally stable after creep and without substantial compositional changes. Borides at 850 °C were found to coarsen, resulting in some cases into γ′- depleted zones, where, however, no cracks were observed. The major consequences of secondary phases on the microstructural stability of superalloys during the design of new polycrystalline superalloys are discussed. [Display omitted]
Author Raabe, Dierk
Kostka, Aleksander
Kontis, Paraskevas
Gault, Baptiste
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  givenname: Baptiste
  orcidid: 0000-0002-4934-0458
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Keywords Eta phase
Borides
Creep
Decomposition
Superalloys
Damage
Carbides
Atom probe tomography
Language English
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Snippet The microstructural and compositional evolution of intergranular carbides and borides prior to and after creep deformation at 850 °C in a polycrystalline...
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SourceType Enrichment Source
Index Database
Publisher
StartPage 158
SubjectTerms Atom probe tomography
Borides
Carbides
Creep
Damage
Decomposition
Eta phase
Superalloys
Title Influence of composition and precipitation evolution on damage at grain boundaries in a crept polycrystalline Ni-based superalloy
URI https://dx.doi.org/10.1016/j.actamat.2018.12.039
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