Abstract:The relationship between microstructures and properties of a new Al-Cu-Li alloy under different solid solution and aging treatments were studied by hardness test, tensile test, SEM, EDS and TEM analysis. The results show that the second phase particles of the alloy are fully dissolved by solid solution treatment at 490 ℃ for 1.5 h, and the remaining second phase is AlCuFeMn phase. The fracture mode of the alloy is characterized by intergranular fracture and small dimple mixed fracture. The suitable T6 temper of the alloy is (175 ℃, 48 h), and the corresponding tensile strength, yield strength and elongation rate are 447 MPa, 369 MPa and 8.9%, respectively. The suitable T8 temper of the alloy is 6%+(160 ℃, 36 h), and the corresponding tensile strength, yield strength and elongation rate are 500 MPa, 454 MPa and 10.5%, respectively. The alloy shows excellent combination of strength and ductility when the pre-deformation ratio is controlled at about 6%. The strength phase of the alloy are composite phase δ′/β′, θ′ and T1 in T6 and T8 temper. The pre-deformation greatly improves the strength of the alloy. With the increase of the pre-deformation, the mainly strengthening phase of the alloy gradually change from δ′/β′, θ′ and T1 to the T1 phase. T1 has better strengthening effect compared with δ′/β′ phase and θ′ phase.

Key words: Al-Cu-Li alloy; solid solution treatment; aging treatment; mechanical property