Journal
JOURNAL OF ALLOYS AND COMPOUNDS
Volume 898, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2021.162762
Keywords
Ni-based superalloy; Electrically-assisted tension; Local Joule heating effect; Texture evolution; Mechanical property
Categories
Funding
- National Natural Science Foundation of China [52005412, U1737212]
- National Science and Technology Major Project [J2019-VII-0014-0154]
- Natural Science Foundation for Distinguished Young Scholars of Shaanxi Province [2019JC-09]
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This study investigates the effect of pulsed current on texture evolution behavior by comparing the evolution behaviors of a Ni-based superalloy under electrically-assisted and quasi-static tension. The results show that pulsed current promotes the evolution of easy-to-deform texture into hard one while inhibiting the further enhancement of the hard-to-deform texture's intensity.
Electrically-assisted manufacturing (EAM) has been proved to be very efficient in homogenizing the alloy with heterogeneous grain distribution due to the local Joule heating effect, which completely differs from the common heat treatment. However, the interaction between pulsed current and texture evolution during deformation have been rarely investigated even though texture is critical for the plastic behaviour of anisotropic material. Here, the effect of pulsed current on texture evolution behaviour has been studied by comparing the evolution behaviours of a Ni-based superalloy under electrically-assisted and quasi-static tension. The result showed that the evolution of easy-to-deform texture into hard one was promoted by the pulsed current, but the further enhancement of the hard-to-deform texture's intensity was inhibited. This difference could be attributed to the more pronounced local Joule heating effect in the hard-to-deform grain due to larger lattice distance here, and then the softened hard-to-deform grain could rotate itself towards other orientations more easily. This is called target effect of pulsed current on the hard-to-deform texture in present work, which further indicates that EAM is effective in the control of homogeneous behaviour of anisotropic materials not only from the microstructure distribution but also from the mechanical property. (c) 2021 Elsevier B.V. All rights reserved.
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