HRTEM analysis of the high-temperature phases of the newly developed high-temperature Ni-base superalloy VDM 780 Premium

VDM 780 Premium is a recently developed Ni-based superalloy designed for working at high service temperatures (above 650 °C) while keeping the good workability of alloy 718. VDM 780 Premium is based on the austenitic matrix (γ phase) strengthened by intermetallic Ni3Al-like precipitates (γ’ phase, f...

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Published in:Journal of alloys and compounds 2020-01, Vol.814, p.152157, Article 152157
Main Authors: Ghica, C., Solís, C., Munke, J., Stark, A., Gehrmann, B., Bergner, M., Rösler, J., Gilles, R.
Format: Article
Language:English
Subjects:
Atomic structure
Chemical precipitation
Creep (materials)
EELS
Forging
Gamma phase
HAADF
Heat treating
Heat treatment
High temperature
HRTEM
Morphology
Ni-base superalloys
Nickel aluminides
Nickel base alloys
Plates (structural members)
Precipitates
Recrystallization
STEM
Superalloys
Workability
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cited_by cdi_FETCH-LOGICAL-c384t-4a5cc06a269ae28187ff1a97812cac317fcd36d34098e560015fdc7865e40cd53
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container_issue
container_start_page 152157
container_title Journal of alloys and compounds
container_volume 814
creator Ghica, C.
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Munke, J.
Stark, A.
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Rösler, J.
Gilles, R.
description VDM 780 Premium is a recently developed Ni-based superalloy designed for working at high service temperatures (above 650 °C) while keeping the good workability of alloy 718. VDM 780 Premium is based on the austenitic matrix (γ phase) strengthened by intermetallic Ni3Al-like precipitates (γ’ phase, fcc L12 structure). Other co-precipitates may be formed in function of the applied heat treatment, such as Ni3Nb-based (δ phase, orthorhombic DOa structure) or Ni3Ti-based (η phase, hexagonal DO24 structure) precipitates. The amount as well as the size and morphology of the different precipitates depend on the heat treatments performed on the alloy, playing an important role in improving the creep properties or the behavior during forging and recrystallization. This work contains a complex study using various techniques of analytical electron microscopy and synchrotron diffraction intended to clarify the structure of the high-temperature phase formed in the newly developed VDM 780 Premium alloy. The atomic structure of the high-temperature plate-like precipitates formed in VDM 780 Premium after two different thermal treatments has been investigated in relation with the surrounding matrix lattice, proving the stacked δ/η structure of the precipitates. [Display omitted] •High temperature phase of VDM 780 Premium Ni superalloy shows a layered structure.•Synchrotron and HRTEM show that the layered structure consists on δ and η phases.•The thickness of the plate-like precipitates depends on temperature history.•The η phase is twice as much inside the precipitates with respect to the δ phase.•The chemical composition of the δ and η shows a deficit of Nb or Ti, respectively.
doi_str_mv 10.1016/j.jallcom.2019.152157
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source ScienceDirect Freedom Collection
subjects Atomic structure
Chemical precipitation
Creep (materials)
EELS
Forging
Gamma phase
HAADF
Heat treating
Heat treatment
High temperature
HRTEM
Morphology
Ni-base superalloys
Nickel aluminides
Nickel base alloys
Plates (structural members)
Precipitates
Recrystallization
STEM
Superalloys
Workability
title HRTEM analysis of the high-temperature phases of the newly developed high-temperature Ni-base superalloy VDM 780 Premium
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