F
Fuxiao Yu
Researcher at Northeastern University (China)
Publications - 22
Citations - 284
Fuxiao Yu is an academic researcher from Northeastern University (China). The author has contributed to research in topics: Alloy & Microstructure. The author has an hindex of 7, co-authored 14 publications receiving 223 citations.
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Twin-controlled growth of eutectic Si in unmodified and Sr-modified Al-12.7%Si alloys investigated by SEM/EBSD
Xiaorui Liu,Xiaorui Liu,Yudong Zhang,Benoît Beausir,Fang Liu,Claude Esling,Fuxiao Yu,Xiang Zhao,Liang Zuo +8 more
TL;DR: In this paper, the growth characteristics of eutectic Si in unmodified and Sr-modified Al-12.7%Si alloys were investigated by microstructure-correlated crystallographic analyses.
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Microstructure and mechanical properties of an Al–12.7Si–0.7Mg alloy processed by extrusion and heat treatment
TL;DR: In this paper, the microstructure and tensile properties of the extruded profile were investigated aiming at understanding the strengthening mechanisms of the Al-12.7Si-0.7Mg alloy.
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Hot deformation and processing maps of DC cast Al-15%Si alloy
TL;DR: In this paper, the hot deformation behavior of Al-15%Si alloy has been studied by employing both processing maps and microstructural observations, and the material of investigation was deformed by compression in the temperature range of 300-500°C and strain rate range of 0.001-5 s −1.
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Heat-treatment induced defect formation in α-Al matrix in Sr-modified eutectic Al–Si alloy
Xiaorui Liu,Xiaorui Liu,Benoît Beausir,Yudong Zhang,Weimin Gan,Hui Yuan,Fuxiao Yu,Claude Esling,Xiang Zhao,Liang Zuo,Liang Zuo +10 more
TL;DR: In this article, an intensive formation of crystal defects in the α-Al matrix of an as-cast Sr-modified eutectic Al-Si alloy, induced by heat treatment with rapid heating, has been studied.
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Superplasticity, flow and fracture mechanism in an Al–12.7Si–0.7Mg alloy
TL;DR: In this paper, the superplastic behavior of an Al-12.7mass%Si−0.7 mass%Mg alloy was investigated under different conditions and a maximum elongation to failure of 379% was demonstrated with a strain rate sensitivity, m, of 0.52 and an activation energy for flow, Q, of 156.7 KJ/mol at 793 K at an initial strain rate of 1.67×10 −4 ǫs −1, which is close to the lattice diffusion activation energy of aluminum.