Comparison of contribution of sub-rapid cooling and shear deformation to refinement of Fe-rich phase in hypereutectic Al–Fe alloy during rheo-extrusion
1 State Key Laboratory of Advanced Processing and Recycling of Nonferrous Metals, Lanzhou University of Technology, Lanzhou 730050, Gansu, China 2 School of Materials Science and Engineering, Northeastern University, Shenyang 110819, Liaoning, China
Comparison of contribution of sub-rapid cooling and shear deformation to refinement of Fe-rich phase in hypereutectic Al–Fe alloy during rheo-extrusion
1 State Key Laboratory of Advanced Processing and Recycling of Nonferrous Metals, Lanzhou University of Technology, Lanzhou 730050, Gansu, China 2 School of Materials Science and Engineering, Northeastern University, Shenyang 110819, Liaoning, China
摘要 A hypereutectic Al–3Fe (wt.%) alloy was subjected by rheo-extrusion, and the effect of sub-rapid cooling and shear deformation on the refinement of Fe-rich phase was investigated. The results showed that both the primary Fe-rich phase and eutectic Fe-rich phase in the solidified Al–Fe alloy were finer than the platelike Fe-rich phase in the as-cast Al–Fe alloy with the same content of Fe. The solidified Al–Fe alloy was subjected to three stages of shear deformation, and both the primary Fe-rich phase and eutectic Fe-rich phase were fractured and the average length was refined to 400 nm, while Fe-rich phase in the as-cast Al–3Fe (wt.%) alloy was platelike and its average length was 40 μm. The tensile strength and elongation of the hypereutectic Al–3Fe (wt.%) alloy containing nanosized Fe-rich phase were 162 MPa and 25.78% while those of the as-cast Al–3Fe (wt.%) alloy containing coarse platelike Fe-rich phase were 102 MPa and 16.84%, respectively. In the refinement of Fe-rich phase in hypereutectic Al–Fe alloy during rheo-extrusion, the three stages of shear deformation contributed more than sub-rapid cooling.
Abstract:A hypereutectic Al–3Fe (wt.%) alloy was subjected by rheo-extrusion, and the effect of sub-rapid cooling and shear deformation on the refinement of Fe-rich phase was investigated. The results showed that both the primary Fe-rich phase and eutectic Fe-rich phase in the solidified Al–Fe alloy were finer than the platelike Fe-rich phase in the as-cast Al–Fe alloy with the same content of Fe. The solidified Al–Fe alloy was subjected to three stages of shear deformation, and both the primary Fe-rich phase and eutectic Fe-rich phase were fractured and the average length was refined to 400 nm, while Fe-rich phase in the as-cast Al–3Fe (wt.%) alloy was platelike and its average length was 40 μm. The tensile strength and elongation of the hypereutectic Al–3Fe (wt.%) alloy containing nanosized Fe-rich phase were 162 MPa and 25.78% while those of the as-cast Al–3Fe (wt.%) alloy containing coarse platelike Fe-rich phase were 102 MPa and 16.84%, respectively. In the refinement of Fe-rich phase in hypereutectic Al–Fe alloy during rheo-extrusion, the three stages of shear deformation contributed more than sub-rapid cooling.
Xiang Wang,Ren‑guo Guan,Yuan‑dong Li, et al. Comparison of contribution of sub-rapid cooling and shear deformation to refinement of Fe-rich phase in hypereutectic Al–Fe alloy during rheo-extrusion[J]. Journal of Iron and Steel Research International, 2020, 27(11): 1294-1302.
2020, Vol. 27 
