Chinese Journal of Lasers, Volume. 47, Issue 4, 402002(2020)
Mechanical Properties of A356 Aluminum Alloy after Laser Surface Remelting
Figures & Tables(13)
Fig. 3. Microstructures of A356 aluminum alloy after laser remelting treatment at different power. (a) 1000 W; (b) 1500 W; (c) 2000 W
Fig. 4. Microstructures of remelting layer obtained at different laser power. (a) 1000 W; (b) 1500 W; (c) 2000 W
Fig. 5. EDS spectra of substrate area. (a) EDS test points distribution map; (b) EDS spectrum of Spot 1point; (c) EDS spectrum of Spot 2 point; (d) EDS spectrum of Spot 3 point
Fig. 7. SEM images of each region in remelting layer obtained at laser power of 2000 W. (a) Remelting zone, ×1000; (b) heat affected zone, ×1000; (c) substrate zone, ×1000; (d) remelting zone, ×3000; (e) heat affected zone,×3000; (f) substrate zone, ×3000
Fig. 8. Microhardness diagrams. (a) Microhardness histogram; (b) microhardness of remelting layer obtained at laser power of 2000 W; (c) microhardness of remelting layer obtained at laser power of 1500 W; (d) microhardness of remelting layer obtained at laser power of 1000 W
Fig. 9. Bending test results. (a) Bending test results of substrate sample and remelting samples obtained at different laser power; (b) partial view of Fcr for A356 base metal; (c) partial view of Fcr for remelting sample obtained at laser power of 1000 W; (c) partial view of Fcr for remelting sample obtained at laser power of 1500 W; (d) partial view of Fcr for remelting sample obtained at laser power of 2000 W
Fig. 10. Metallographic images of bending cracks in different samples. (a) A356 aluminum alloy base material; (b) remelting sample obtained at laser power of 1000 W; (c) remelting sample obtained at laser power of 1500 W; (d) remelting sample obtained at laser power of 2000 W
Table 1. Chemical composition of A356 aluminum alloy
View tableTable 1. Chemical composition of A356 aluminum alloy
Element Al Cu Si Mg Zn Fe Mu Ti Mass fraction /% Bal. ≤0.20 6.5--7.5 0.25--0.45 ≤0.1 ≤0.20 ≤0.1 ≤0.20
Table 2. ESD results of substrate area
View tableTable 2. ESD results of substrate area
No. Element Mass fraction /% Atomic fraction /% Net intensity Error /% Mg 1.53 1.70 383.30 3.87 Spot 1 in Fig.5 Al 96.30 96.45 23347.11 1.44 Si 1.58 1.52 131.67 10.40 Ti 0.59 0.33 56.33 14.35 Al 30.00 30.94 8340.58 1.79 Spot 2 in Fig.5 Si 69.40 68.76 13226.19 4.43 Fe 0.61 0.30 40.58 18.22 Spot 3 in Fig.5 Al 84.62 85.14 22045.66 1.20 Si 15.38 14.86 1505.87 7.76
Table 3. Size of each phase in remelting layer obtained at different laser power
View tableTable 3. Size of each phase in remelting layer obtained at different laser power
Power /W Size in remelting zone /μm Size in heat affected zone /μm α-Al Al-Si α-Al Al-Si 2000 14.3 4.5 19 6.2 1500 9.3 3.3 16.3 4.2 1000 6.5 2 14.6 3
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Wang Jiangang, Gao Shiyou, Chen Xusheng, Zhang Mengyu. Mechanical Properties of A356 Aluminum Alloy after Laser Surface Remelting[J]. Chinese Journal of Lasers, 2020, 47(4): 402002
Paper Information
Category: laser manufacturing
Received: Sep. 16, 2019
Accepted: --
Published Online: Apr. 8, 2020
The Author Email: Shiyou Gao (gao58@sina.com)
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