Plastic deformation behavior and dynamic recrystallization of Inconel 625 superalloy fabricated by directed energy deposition

In this study, the hot plastic deformation behavior and dynamic recrystallization (DRX) phenomenon of Inconel 625 superalloy prepared by directed energy deposition (DED) are investigated by carrying out hot compression tests. The true stress–strain curves indicate that with the increment in deformat...

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Published inMaterials & design Vol. 186; p. 108359
Main Authors Hu, Y.L., Lin, X., Li, Y.L., Zhang, S.Y., Gao, X.H., Liu, F.G., Li, X., Huang, W.D.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.01.2020
Elsevier
Subjects
Constitutive equations
Deformation activation energy
Directed energy deposition
Dynamic recrystallization
Inconel 625 superalloy
Inconel 625 superalloy
Dynamic recrystallization
Constitutive equations
Directed energy deposition
Deformation activation energy
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Abstract In this study, the hot plastic deformation behavior and dynamic recrystallization (DRX) phenomenon of Inconel 625 superalloy prepared by directed energy deposition (DED) are investigated by carrying out hot compression tests. The true stress–strain curves indicate that with the increment in deformation temperature and decrease in strain rate, the peak stress and flow stress reduce. Compared with wrought Inconel 625 superalloy, Inconel 625 superalloy fabricated by DED shows a higher flow stress, lower peak stress, and lower deformation activation energy under the same hot compression conditions. The fraction of recrystallized grain and recrystallized grain size increases with increasing temperature and decreasing strain rate. At lower deformation temperatures, continuous dynamic recrystallization is the main mechanism of DRX. However, discontinuous dynamic recrystallization becomes the predominant operating mechanism of DRX at high deformation temperature. In addition, the kinetics of DRX in DED Inconel 625 superalloy is much slower than that in forged Inconel 625. The results also show that DED Inconel 625 superalloy has higher thermal stability than that of forged Inconel 625 superalloy, which makes it possible for DED Inconel 625 superalloy to be employed at high temperatures. [Display omitted] •Plastic deformation behavior of Inconel 625 superalloy fabricated by DED under different hot compression conditions was studied and the constitutive equation was established.•The dynamic recrystallization mechanisms of DED Inconel 625 superalloy during hot deformation process were discontinuous dynamic recrystallization and continuous dynamic recrystallization.•The kinetic process of dynamic recrystallization of DED Inconel 625 was relatively slow and its dynamic process was insufficient under the same deformation conditions.
AbstractList In this study, the hot plastic deformation behavior and dynamic recrystallization (DRX) phenomenon of Inconel 625 superalloy prepared by directed energy deposition (DED) are investigated by carrying out hot compression tests. The true stress–strain curves indicate that with the increment in deformation temperature and decrease in strain rate, the peak stress and flow stress reduce. Compared with wrought Inconel 625 superalloy, Inconel 625 superalloy fabricated by DED shows a higher flow stress, lower peak stress, and lower deformation activation energy under the same hot compression conditions. The fraction of recrystallized grain and recrystallized grain size increases with increasing temperature and decreasing strain rate. At lower deformation temperatures, continuous dynamic recrystallization is the main mechanism of DRX. However, discontinuous dynamic recrystallization becomes the predominant operating mechanism of DRX at high deformation temperature. In addition, the kinetics of DRX in DED Inconel 625 superalloy is much slower than that in forged Inconel 625. The results also show that DED Inconel 625 superalloy has higher thermal stability than that of forged Inconel 625 superalloy, which makes it possible for DED Inconel 625 superalloy to be employed at high temperatures. [Display omitted] •Plastic deformation behavior of Inconel 625 superalloy fabricated by DED under different hot compression conditions was studied and the constitutive equation was established.•The dynamic recrystallization mechanisms of DED Inconel 625 superalloy during hot deformation process were discontinuous dynamic recrystallization and continuous dynamic recrystallization.•The kinetic process of dynamic recrystallization of DED Inconel 625 was relatively slow and its dynamic process was insufficient under the same deformation conditions.
In this study, the hot plastic deformation behavior and dynamic recrystallization (DRX) phenomenon of Inconel 625 superalloy prepared by directed energy deposition (DED) are investigated by carrying out hot compression tests. The true stress–strain curves indicate that with the increment in deformation temperature and decrease in strain rate, the peak stress and flow stress reduce. Compared with wrought Inconel 625 superalloy, Inconel 625 superalloy fabricated by DED shows a higher flow stress, lower peak stress, and lower deformation activation energy under the same hot compression conditions. The fraction of recrystallized grain and recrystallized grain size increases with increasing temperature and decreasing strain rate. At lower deformation temperatures, continuous dynamic recrystallization is the main mechanism of DRX. However, discontinuous dynamic recrystallization becomes the predominant operating mechanism of DRX at high deformation temperature. In addition, the kinetics of DRX in DED Inconel 625 superalloy is much slower than that in forged Inconel 625. The results also show that DED Inconel 625 superalloy has higher thermal stability than that of forged Inconel 625 superalloy, which makes it possible for DED Inconel 625 superalloy to be employed at high temperatures. Keywords: Directed energy deposition, Inconel 625 superalloy, Constitutive equations, Deformation activation energy, Dynamic recrystallization
ArticleNumber 108359
Author Li, Y.L.
Lin, X.
Gao, X.H.
Liu, F.G.
Huang, W.D.
Hu, Y.L.
Li, X.
Zhang, S.Y.
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Keywords Inconel 625 superalloy
Dynamic recrystallization
Constitutive equations
Directed energy deposition
Deformation activation energy
Language English
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Snippet In this study, the hot plastic deformation behavior and dynamic recrystallization (DRX) phenomenon of Inconel 625 superalloy prepared by directed energy...
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StartPage 108359
SubjectTerms Constitutive equations
Deformation activation energy
Directed energy deposition
Dynamic recrystallization
Inconel 625 superalloy
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Title Plastic deformation behavior and dynamic recrystallization of Inconel 625 superalloy fabricated by directed energy deposition
URI https://dx.doi.org/10.1016/j.matdes.2019.108359
https://doaj.org/article/df71c49b158b4879ac34bb839ab8f920
Volume 186
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