J. Mater. Sci. Technol. ›› 2021, Vol. 81: 88-96.DOI: 10.1016/j.jmst.2020.11.060
• Research Article • Previous Articles Next Articles
Ming Gaoa,b, Ke Yangb, Lili Tanb,*(), Zheng Mab,*()
Received:
2020-08-28
Revised:
2020-11-24
Accepted:
2020-11-29
Published:
2021-01-07
Online:
2021-01-07
Contact:
Lili Tan,Zheng Ma
About author:
zma@imr.ac.cn (Z. Ma).Ming Gao, Ke Yang, Lili Tan, Zheng Ma. Improvement of mechanical property and corrosion resistance of Mg-Zn-Nd alloy by bi-direction drawing[J]. J. Mater. Sci. Technol., 2021, 81: 88-96.
Fig. 2. Optical microstructures of ZN20 alloy after single direction drawing (a) and bi-direction drawing (b) with different accumulative AR (20 %: 1; 40 %: 2; 60 %: 3) and grain size distributions.
Fig. 3. EBSD results:band contrast map (a, c) and distribution of Schmid factor (b, d) for (0001) $<11\bar{2}0>$ basal slip of ZN20 alloy with 20 % accumulative AR after single direction drawing (a, b) and bi-direction drawing (c, d).
Fig. 4. SEM morphology of second phase distribution and magnified images of as-drawn ZN20 alloy with different accumulative AR after single direction drawing (a) and bi-direction drawing (b) with different accumulative AR (20 %: 1; 40 %: 2; 60 %: 3).
Position | At. / % | ||
---|---|---|---|
Mg | Zn | Nd | |
A | 29.8 | 70.2 | 0 |
B | 65.2 | 26.9 | 7.9 |
C | 67.4 | 27.8 | 4.8 |
D | 35.26 | 64.74 | 0 |
Table 1 EDS results of the region marked by red arrow in Fig. 4.
Position | At. / % | ||
---|---|---|---|
Mg | Zn | Nd | |
A | 29.8 | 70.2 | 0 |
B | 65.2 | 26.9 | 7.9 |
C | 67.4 | 27.8 | 4.8 |
D | 35.26 | 64.74 | 0 |
Fig. 5. (0001) PF and IPF of as-drawn ZN20 alloy with different accumulative AR after single direction drawing and bi-direction drawing (ND: normal direction).
Fig. 6. Stress-strain curves (a) and tensile properties (b) of as-drawn ZN20 alloy with different accumulative AR after single direction drawing and bi-direction drawing.
Fig. 7. Fracture morphologies of as-drawn ZN20 alloy with different accumulative AR after single direction drawing (a) and bi-direction drawing (b) with different accumulative AR (20 %: 1; 40 %: 2; 60 %: 3).
Fig. 9. Corrosion morphologies (1) and magnified images (2) of ZN20 alloy with different accumulative AR processed by single direction drawing and bi-direction drawing after 14 days immersion in simulated intestinal fluid (20 %-1: a; 40 %-1: b; 60 %-1:c; 20 %-2: d; 40 %-2: e; 60 %-2: f).
Fig. 10. TEM morphology of dislocations distribution in ZN20 alloy with different accumulative AR (20 %: a; 40 %: b; 60 %: c) after single direction drawing.
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