Abstract To improve strength and ductility, a series of experiments were designed and carried out to systematically and quantitatively analyze extruded Al-Cu-Mg-Si alloy without cold deformation (E0%) and with 4%… Click to show full abstract
Abstract To improve strength and ductility, a series of experiments were designed and carried out to systematically and quantitatively analyze extruded Al-Cu-Mg-Si alloy without cold deformation (E0%) and with 4% cold stretching/compression (ET4%/EC4%) prior to artificial ageing. The main aim is to investigate the different effects of cold stretching and compression on strength and ductility of extruded alloy. Compared to E0%, the EC4% alloy had finer phase θ, higher dislocation density, larger contact angle of Cu-rich phases so that had higher strength and lower ductility. Compared to EC4% alloy, the ET4% alloy had more proportion of phase θ′, smaller contact angle of Cu-rich phases, which made ET4% alloy higher strength and higher ductility.
               
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