Call for Paper: Special Issue "Semiconducting polymers for electronic applications"
2023-06-05
A new study on the superplasticity of TiAl alloys
Authors
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Run Xu
Yantai University, WenJing College, Yantai, 264005, China
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Boyong Hur
Geongsang National Univeristy, Metallic Material Dept. Geongnam, Jinchu 52828, Korea
DOI:
https://doi.org/10.30564/opmr.v2i1.1869Abstract
The superplasticity of Ti-46.7Al-2.2Cr(at.%) alloy was studied by mathematical induction. It is found that Zener Hollomon relative formula and there are serious deflections. According to the true superplastic stress and true strain curves, the deflection values of n=-7.46 and B=1439MPa are obtained, indicating that the limit of n>0 has been exceeded, which needs to be characterized by a negative sign. This shows that it conforms to the principle that the smaller n is, the better superplasticity is, but the problem that it has become a negative number needs to attract the attention of peers meantime B is a better match.
Keywords:
New study, Superplasticity, Ti-46.7Al-2.2Cr, n and BReferences
[1] Quankun Liu. Fundamentals of materials forming processes[M]. Hebei University of Tech., Machinery Industry Press. 2013: 275-278.
[2] Boyun Huang, Yuehui He, Zhongyong Deng, Jiannong Wang. Siperplasticity behaviors of thermally deformed TiAl based alloys[J]. Acta Metallurica Sinica. 1998, 34(11): 1174-1176.
[3] Run Xu. Model for Superplastic Deformation of Ti3 Al Alloys[J]. International Journal of Plant Engineering and Management, 2019, 24(4): 251-254. DOI: https://doi.org/10.13434/j.cnki.1007-4546.2019.0209
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How to Cite
Xu, R., & Hur, B. (2020). A new study on the superplasticity of TiAl alloys. Organic Polymer Material Research, 2(1), 8–10. https://doi.org/10.30564/opmr.v2i1.1869
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Copyright © 2020 Run Xu, Boyong Hur
This is an open access article under the Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) License.
