Effect of hydrogen on the microstructural evolution of a γ-TiAl based alloy
The effect of hydrogen on the microstructural evolution of a Ti–46Al–2V–1Cr–0.3Ni (in at%) alloy deformed in temperature range 1323–1473K and strain rate range 0.001–1s−1 was investigated. The results show that the extent of lamellar decomposition is higher, and the microstructure is more homogeneou...
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| Published in: | Materials letters Vol. 142; pp. 23 - 26 |
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| Abstract | The effect of hydrogen on the microstructural evolution of a Ti–46Al–2V–1Cr–0.3Ni (in at%) alloy deformed in temperature range 1323–1473K and strain rate range 0.001–1s−1 was investigated. The results show that the extent of lamellar decomposition is higher, and the microstructure is more homogeneous in the hydrogenated alloy than those in the unhydrogenated alloy. More recrystallized grains were observed in the hydrogenated alloy. Hydrogen-promoted lamellar decomposition is mainly attributed to hydrogen-induced lamellar bending, hydrogen-coarsened lamellae and hydrogen-promoted diffusion of elements. Lamellar decomposition, hydrogen-induced twinning and hydrogen-decreased stacking fault energy lead to more dynamic recrystallization. Hydrogen promotes α2-phase spheroidization and dynamic recovery, which are mainly attributed to hydrogen-promoted diffusion of elements and dislocation movement, respectively.
•Hydrogen promotes lamellar fragmentation and spheroidization.•Hydrogen induces γ-phase dynamic recrystallization.•Hydrogen promotes α2-phase spheroidization and dynamic recovery. |
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| AbstractList | The effect of hydrogen on the microstructural evolution of a Ti-46Al-2V-1Cr-0.3Ni (in at%) alloy deformed in temperature range 1323-1473K and strain rate range 0.001-1s-1 was investigated. The results show that the extent of lamellar decomposition is higher, and the microstructure is more homogeneous in the hydrogenated alloy than those in the unhydrogenated alloy. More recrystallized grains were observed in the hydrogenated alloy. Hydrogen-promoted lamellar decomposition is mainly attributed to hydrogen-induced lamellar bending, hydrogen-coarsened lamellae and hydrogen-promoted diffusion of elements. Lamellar decomposition, hydrogen-induced twinning and hydrogen-decreased stacking fault energy lead to more dynamic recrystallization. Hydrogen promotes alpha 2-phase spheroidization and dynamic recovery, which are mainly attributed to hydrogen-promoted diffusion of elements and dislocation movement, respectively. The effect of hydrogen on the microstructural evolution of a Ti–46Al–2V–1Cr–0.3Ni (in at%) alloy deformed in temperature range 1323–1473K and strain rate range 0.001–1s−1 was investigated. The results show that the extent of lamellar decomposition is higher, and the microstructure is more homogeneous in the hydrogenated alloy than those in the unhydrogenated alloy. More recrystallized grains were observed in the hydrogenated alloy. Hydrogen-promoted lamellar decomposition is mainly attributed to hydrogen-induced lamellar bending, hydrogen-coarsened lamellae and hydrogen-promoted diffusion of elements. Lamellar decomposition, hydrogen-induced twinning and hydrogen-decreased stacking fault energy lead to more dynamic recrystallization. Hydrogen promotes α2-phase spheroidization and dynamic recovery, which are mainly attributed to hydrogen-promoted diffusion of elements and dislocation movement, respectively. •Hydrogen promotes lamellar fragmentation and spheroidization.•Hydrogen induces γ-phase dynamic recrystallization.•Hydrogen promotes α2-phase spheroidization and dynamic recovery. |
| Author | Shan, D.B. Liu, Z.Y. Wen, D.S. Zong, Y.Y. |
| Author_xml | – sequence: 1 givenname: Y.Y. surname: Zong fullname: Zong, Y.Y. – sequence: 2 givenname: D.S. surname: Wen fullname: Wen, D.S. – sequence: 3 givenname: Z.Y. surname: Liu fullname: Liu, Z.Y. – sequence: 4 givenname: D.B. surname: Shan fullname: Shan, D.B. email: d.b.shan@gmail.com |
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| SubjectTerms | Bending Decomposition Deformation effects Diffusion Dynamic recrystallization Evolution Hydrogen Hydrogen storage Lamellar decomposition Microstructure Recrystallization Spheroidizing Titanium base alloys γ-TiAl |
| Title | Effect of hydrogen on the microstructural evolution of a γ-TiAl based alloy |
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