Deformation and fracture behaviors of K403 Ni⁃based superalloy at elevated temperatures

The effects of the deformation temperatures (850 °C–1000 °C), the strain rates (0.01 s−1 to 10 s−1) and the stress states on the deformation and fracture behaviors of K403 Ni⁃based superalloy were investigated by thermal compression and tensile simulating tests using Gleeble⁃1500 thermo⁃simulation m...

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Published inJournal of alloys and compounds Vol. 699; pp. 581 - 590
Main Authors Liu, Jun, Tang, Wenting, Li, Jiehua
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 30.03.2017
Elsevier BV
Subjects
Cleavage
Compression tests
Computer simulation
Deformation
Deformation effects
Deformation mechanisms
Dislocation density
Elongation
Fracture behavior
Fracture mechanics
Fractures
Fracturing
High temperature deformation
K403 Ni based superalloy
Nickel base alloys
Strain
Strain rate
Stress state
Superalloys
TEM
Temperature
Thermal simulation
Yield strength
Yield stress
High temperature deformation
Fracture behavior
TEM
K403 Ni based superalloy
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Abstract The effects of the deformation temperatures (850 °C–1000 °C), the strain rates (0.01 s−1 to 10 s−1) and the stress states on the deformation and fracture behaviors of K403 Ni⁃based superalloy were investigated by thermal compression and tensile simulating tests using Gleeble⁃1500 thermo⁃simulation machine. The microstructure evolution and fracture surface was also investigated using scanning electron microscope and transmission electron microscope, with the aim to elucidate the deformation and fracture mechanism. It was found that increasing the strain rates increases the peak stress and the yield stress, but decreases the elongation and the yield strain. In contrast, increasing the deformation temperatures decreases the peak stress and the yield stress, but increases the elongation and the yield strain. Various dislocation cells were observed after the deformation at 850 °C. Increasing the deformation temperatures decreases the dislocation density. Brittle quasi-cleavage fracture morphology was observed at the temperatures below 900 °C. Increasing the deformation temperatures changes the fracture from quasi-cleavage fracture to inter-granular fracture. The fracture mechanism of K403 alloy at high temperatures was revealed, and the high temperature fracture model of K403 alloy was established. •The strain rates, strain states and temperature affect the deformation behaviors.•The deformation mechanism of K403 alloy was revealed.•Increasing the deformation temperatures changes the fracture mode.•The fracture mechanism and the fracture model of K403 alloy were revealed.
AbstractList The effects of the deformation temperatures (850 °C-1000 °C), the strain rates (0.01 s-1 to 10 s-1) and the stress states on the deformation and fracture behaviors of K403 Ni-based superalloy were investigated by thermal compression and tensile simulating tests using Gleeble-1500 thermo-simulation machine. The microstructure evolution and fracture surface was also investigated using scanning electron microscope and transmission electron microscope, with the aim to elucidate the deformation and fracture mechanism. It was found that increasing the strain rates increases the peak stress and the yield stress, but decreases the elongation and the yield strain. In contrast, increasing the deformation temperatures decreases the peak stress and the yield stress, but increases the elongation and the yield strain. Various dislocation cells were observed after the deformation at 850 7deg;C. Increasing the deformation temperatures decreases the dislocation density. Brittle quasi-cleavage fracture morphology was observed at the temperatures below 900 °C. Increasing the deformation temperatures changes the fracture from quasi-cleavage fracture to inter-granular fracture. The fracture mechanism of K403 alloy at high temperatures was revealed, and the high temperature fracture model of K403 alloy was established.
The effects of the deformation temperatures (850 °C–1000 °C), the strain rates (0.01 s−1 to 10 s−1) and the stress states on the deformation and fracture behaviors of K403 Ni⁃based superalloy were investigated by thermal compression and tensile simulating tests using Gleeble⁃1500 thermo⁃simulation machine. The microstructure evolution and fracture surface was also investigated using scanning electron microscope and transmission electron microscope, with the aim to elucidate the deformation and fracture mechanism. It was found that increasing the strain rates increases the peak stress and the yield stress, but decreases the elongation and the yield strain. In contrast, increasing the deformation temperatures decreases the peak stress and the yield stress, but increases the elongation and the yield strain. Various dislocation cells were observed after the deformation at 850 °C. Increasing the deformation temperatures decreases the dislocation density. Brittle quasi-cleavage fracture morphology was observed at the temperatures below 900 °C. Increasing the deformation temperatures changes the fracture from quasi-cleavage fracture to inter-granular fracture. The fracture mechanism of K403 alloy at high temperatures was revealed, and the high temperature fracture model of K403 alloy was established. •The strain rates, strain states and temperature affect the deformation behaviors.•The deformation mechanism of K403 alloy was revealed.•Increasing the deformation temperatures changes the fracture mode.•The fracture mechanism and the fracture model of K403 alloy were revealed.
Author Li, Jiehua
Liu, Jun
Tang, Wenting
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Keywords High temperature deformation
Fracture behavior
TEM
K403 Ni based superalloy
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Snippet The effects of the deformation temperatures (850 °C–1000 °C), the strain rates (0.01 s−1 to 10 s−1) and the stress states on the deformation and fracture...
The effects of the deformation temperatures (850 °C-1000 °C), the strain rates (0.01 s-1 to 10 s-1) and the stress states on the deformation and fracture...
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SubjectTerms Cleavage
Compression tests
Computer simulation
Deformation
Deformation effects
Deformation mechanisms
Dislocation density
Elongation
Fracture behavior
Fracture mechanics
Fractures
Fracturing
High temperature deformation
K403 Ni based superalloy
Nickel base alloys
Strain
Strain rate
Stress state
Superalloys
TEM
Temperature
Thermal simulation
Yield strength
Yield stress
Title Deformation and fracture behaviors of K403 Ni⁃based superalloy at elevated temperatures
URI https://dx.doi.org/10.1016/j.jallcom.2016.12.325
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