Tensile deformation mechanisms at various temperatures in a new directionally solidified Ni-base superalloy

The effect of temperature on the tensile deformation mechanism in a new directionally solidified Ni-base superalloy, M4706, is investigated by transmission electron microscopy after yielding in the temperature range from room temperature to 1000 °C. It is found that below 750 °C, anti-phase boundary...

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Published in:Journal of alloys and compounds 2017-02, Vol.694, p.502-509
Main Authors: Zhang, P., Yuan, Y., Shen, S.C., Li, B., Zhu, R.H., Yang, G.X., Song, X.L.
Format: Article
Language:English
Subjects:
Antiphase boundaries
Crystal defects
Deformation effects
Deformation mechanisms
Directional solidification
Dislocations
Faults
Ni-base superalloy
Nickel base alloys
Plastic deformation
Precipitates
Precipitation
Shearing
Stacking faults
Superalloys
Temperature effect
Temperature effects
Tensile deformation
Tensile strength
Transmission electron microscopy
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cited_by cdi_FETCH-LOGICAL-c337t-8c75c217a230a8d0f57333681143bfb1b305eecdbc5e3019fa80afdb27145a753
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container_end_page 509
container_issue
container_start_page 502
container_title Journal of alloys and compounds
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creator Zhang, P.
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Li, B.
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description The effect of temperature on the tensile deformation mechanism in a new directionally solidified Ni-base superalloy, M4706, is investigated by transmission electron microscopy after yielding in the temperature range from room temperature to 1000 °C. It is found that below 750 °C, anti-phase boundary shearing and stacking fault shearing dominate the initial plastic deformation; above 900 °C, plastic deformation is accomplished predominantly by individual matrix dislocations bypassing γ′ precipitates, although a few isolated superlattice stacking faults are visible in the γ′ precipitates; whereas between these two temperatures, a transitional behavior is observed. Finally, based on the experimental observations, the variation of the formation of stacking faults with temperature and the relationship between the yield strength and the operative deformation mechanisms are discussed. [Display omitted] •A new directionally solidified Ni-base superalloy M4706 is developed.•M4706 possesses excellent creep rupture properties and tensile properties.•Isolated SISFs/SESFs are observed in a wide temperature range.•The deformation mechanisms of M4706 are insensitive to temperature below 800 °C.
doi_str_mv 10.1016/j.jallcom.2016.09.303
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subjects Antiphase boundaries
Crystal defects
Deformation effects
Deformation mechanisms
Directional solidification
Dislocations
Faults
Ni-base superalloy
Nickel base alloys
Plastic deformation
Precipitates
Precipitation
Shearing
Stacking faults
Superalloys
Temperature effect
Temperature effects
Tensile deformation
Tensile strength
Transmission electron microscopy
title Tensile deformation mechanisms at various temperatures in a new directionally solidified Ni-base superalloy
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