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Flow Behavior and the Critical Strain of Dynamic Recrystallization for Mg-10.22Gd-2.31Y-0.1Zr Alloy

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Abstract

The hot compression tests of Mg-10.22Gd-2.31Y-0.1Zr alloy were implemented employing the Gleeble-1500 thermometer simulator at strain rates of 0.002 ~ 1 s−1 and at the temperature of 350 ~ 500 °C. The results show that the flow stress shows a typical dynamic recrystallization (DRX) characteristic and is relatively sensitive to deformation parameters. The constitutive equation of the alloy is established to describe the flow behavior, and the critical strain model of DRX initiation is constructed in accordance with work-hardening theory. The critical strain reduces with rising of deformation temperature or decrease in strain rate except for instability condition. The DRX behavior is promoted as increase in the temperature or decrease in strain rate. Not only DRX, but also dynamic precipitation is observed during the hot deformation process. The dynamic precipitation β phase which is effected by temperature and strain rate could remarkably inhibit the growth of DRXed grain.

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References

  1. Xu T C, Yang Y, Peng X D, Song J F and Pan F S, J Magnes Alloy 7 (2019) 536.

  2. Alsagabi Sultan, Trans India Inst Met 72 (2019) 1783. 73 (2020) 135.

  3. Chen X Y, Li Q A, Zhu L M, Zhang S, Wang S B and Guan H K, Trans India Inst Met 72 (2019) 1783.

  4. Cai Z W, Chen F X, Guo J Q, J Alloys Compd, 648 (2015) 215.

  5. Chen X Y, Li Q A, Chen J, Zhu L M, J RARE EARTHS, 37 (2019) 1351.

  6. Roostaei M, Parsa M H, Mahmudi R,Mirzadeh H, J Alloys Compd 631 (2015) 1.

  7. Lin Y C, Chen M S and Zhong J, Mater Des 30 (2009) 908.

  8. Lin Y C and Chen M S, J Mater Sci 44 (2009) 835.

  9. Mirzadeh H and Najafizadeh A, Mater Des 31 (2010) 1174.

  10. Zhang J L, Lu Z L, Jia L, Xie H, Tao S P, Wei X and Ying M, Results Phys 15 (2019) 102593.

  11. Wang S, Luo J R, Hou L G, Zhang L S and Zhuang L Z, Mater Des 107 (2016) 277.

  12. Zhang J H, Liu S J, Wu R Z, Hou L G and Zhang M L, J Magnes Alloy 6 (2018) 277.

  13. Barezban M H, Mirzadeh H, Roumina R and Mahmudi R, J Alloys Compd 791 (2019) 1200.

  14. Nie J F, Metall Mater Trans A 43 (2012) 3891.

  15. Li H Z, Wang H J, Li Z, Liu C M and Liu H T, Mater Sci Eng A 528 (2010) 154.

  16. Xia X S, Zhang K, Ma M L and Li T, J Magnes Alloy 8 (2020) 917.

  17. Wu Q, Yan H G, Chen J H, Xia W J, Song M and Su B, Mater Charact 160 (2020) 110131.

  18. Yang Z, Guo Y C, Li J P, He F, Xia F and Liang M X, Mater Sci Eng A 485 (2008) 487.

  19. Shalbafi M, Roumina R and Mahmudi R, J Alloys Compd 696 (2017) 1269.

  20. Wu Y Z, Yan H G, Zhu S Q, Chen J H, Liu A M and Liu X L, Trans Nonferrous Met Soc China, 24 (2014) 930.

  21. Stanford N, Callaghan M D, Jong B, Mater Sci Eng A 565 (2013) 459.

  22. CM Sellar WJ Mcteqart 1966 Acta Metall 14 1136

  23. Oleg S and Rustam K, Mater Trans 42 (2001) 1928.

  24. Jung I H, Sanjari M, Kim J, Yue S, Scripta Materialia 102 (2015) 1.

  25. Wu H, Xu W C, Wang S B, Yang Z Z, Chen Y, Teng B G, Shan D B and Guo B, J Alloys Compd 816 (2020) 152562.

  26. Xu Y, Chen C, Zhang X X, Dai H H, Jia J B and Bai Z H, Mater Charact 145 (2018) 39.

  27. CM Sellars JA Whiteman 1979 Met Sci 13 187

  28. Xiao H C, Tang B, Liu C M, Gao Y H, Yu S L and Jiang S N, Mater Sci Eng A 645 (2015) 241.

  29. Chang C I, Lee C J and Huang J C, Scr Mater 51 (2004) 509.

  30. Zhu L M, Li Q A, Zhang Q and Chen X Y, Materials 11 (2018) 2147.

  31. Guo Y C, Li J P, Li J S, Yang Z, Zhao J, Xia F, Liang M X , J Alloys Compd 450 (2008) 446.

  32. Xiao H C, Jiang S N, Tang B, Tang B, Hao W H, Gao Y H, Chen Z Y and Liu C M, Mater Sci Eng A 628 (2015) 311.

  33. Chen Z B, Liu C M, Xiao H C, Wang J K, Chen Z Y, Jiang S N, Su Z J, Mater Sci Eng A 618 (2014) 232.

  34. Li R G, Xin R L, Liu Q, Liu J A, Fu G Y, Zong L, Yu Y M, Guo S G, Mater Charact 109 (2015) 43.

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Acknowledgements

This work is supported by the National Natural Science Foundation of China (No.51571084)

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Authors and Affiliations

  1. School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang, 471023, Henan, China

    Jian Bao, Quanan Li, Xiaoya Chen & Songbo Wang

  2. Provincial and Ministerial Co-Construction of Collaborative Innovation Center for Non-Ferrous Metal New Materials and Advanced Processing Technology, Luoyang, 471023, China

    Quanan Li

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  1. Jian Bao
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  2. Quanan Li
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Correspondence to Quanan Li.

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Bao, J., Li, Q., Chen, X. et al. Flow Behavior and the Critical Strain of Dynamic Recrystallization for Mg-10.22Gd-2.31Y-0.1Zr Alloy. Trans Indian Inst Met 74, 2149–2159 (2021). https://doi.org/10.1007/s12666-021-02304-8

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