Acta Metallurgica Sinica (English Letters) ›› 2022, Vol. 35 ›› Issue (12): 1946-1958.DOI: 10.1007/s40195-022-01442-2
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Taiqian Mo1(), Huaqiang Xiao1, Bo Lin1, Wei Li2, Kai Ma3
Received:
2022-04-22
Revised:
2022-05-24
Accepted:
2022-06-03
Online:
2022-12-10
Published:
2022-08-03
Contact:
Taiqian Mo
About author:
Taiqian Mo, tjmo@gzu.edu.cnTaiqian Mo, Huaqiang Xiao, Bo Lin, Wei Li, Kai Ma. Improving Ductility and Anisotropy by Dynamic Recrystallization in Ti/Mg Laminated Metal Composite[J]. Acta Metallurgica Sinica (English Letters), 2022, 35(12): 1946-1958.
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Fig. 1 a Optical microscopy images of the initial materials, b schematic illustration of the fabrication process of the Ti/Mg LMC before annealing, c macroscopic interface structure of Ti/Mg LMC and corresponding EDS results
Fig. 2 EBSD maps of the Mg layer near the interface as obtained from the RD, TD and 45° angle: a, d, g as-rolled, b, e, h 200 °C/1 h, c, f, i 300 °C/1 h
Fig. 4 Recrystallized, substructured and deformed microstructures of the Mg layer in Ti/Mg LMCs after annealing at the positions near the interface and near the center: a, b as-rolled, c, d 200 °C/1 h, e, f 300 °C/1 h
Specimens | Load (N) | Width (mm) | Peeling strength (N/mm) |
---|---|---|---|
As-rolled | 111.2 | 5 | 22.2 |
200 °C/1 h | 136.5 | 5 | 27.3 |
300 °C/1 h | 140.9 | 5 | 28.2 |
Table 1 Maximum peeling strength of Ti/Mg LMCs for the as-rolled and annealed specimens
Specimens | Load (N) | Width (mm) | Peeling strength (N/mm) |
---|---|---|---|
As-rolled | 111.2 | 5 | 22.2 |
200 °C/1 h | 136.5 | 5 | 27.3 |
300 °C/1 h | 140.9 | 5 | 28.2 |
Fig. 8 a Schematic illustration of the hardness test, b hardness distribution along the thickness direction of Ti/Mg LMCs for the as-rolled and annealed specimens
Fig. 9 a Fracture process during the tensile test of Ti/Mg LMCs. Engineering stress-strain curves of b initial materials and Ti/Mg LMCs along the RD, TD and 45° angle under the various conditions: c as-rolled, d 200 °C/1 h, e 300 °C/1 h
Fig. 10 Schematic illustration of microstructural evolution and deformation behavior of Ti/Mg LMCs under various conditions: a as-rolled, b 200 °C/1 h, c 300 °C/1 h
Processing condition | Direction | UTS (MPa) | Elongation to failure (%) | %IPA |
---|---|---|---|---|
As-rolled | RD | 342.9 | 0.361 | 4.8 |
45° | 363.5 | 0.365 | ||
TD | 349.3 | 0.352 | ||
200 °C/1 h | RD | 336.6 | 0.396 | 3.0 |
45° | 349.8 | 0.383 | ||
TD | 341.8 | 0.402 | ||
300 °C/1 h | RD | 343.9 | 0.452 | 0.9 |
45° | 342.1 | 0.422 | ||
TD | 346.2 | 0.438 |
Table 2 Variation in anisotropy parameters under the conditions of as-rolled and annealed Ti/Mg LMCs
Processing condition | Direction | UTS (MPa) | Elongation to failure (%) | %IPA |
---|---|---|---|---|
As-rolled | RD | 342.9 | 0.361 | 4.8 |
45° | 363.5 | 0.365 | ||
TD | 349.3 | 0.352 | ||
200 °C/1 h | RD | 336.6 | 0.396 | 3.0 |
45° | 349.8 | 0.383 | ||
TD | 341.8 | 0.402 | ||
300 °C/1 h | RD | 343.9 | 0.452 | 0.9 |
45° | 342.1 | 0.422 | ||
TD | 346.2 | 0.438 |
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