Abstract:The effects of stretching and rolling pre-deformation on the microstructures and mechanical properties of 2519A alloy plate aged at 165 ℃ were investigated by hardness test, tensile test, transmission electron microscopy(TEM) and texture measurement. The results show that for both of the pre-deformation methods, proper pre-deformation leads to the quantity increasing and refinement of θ′ phase. But the inordinate deformation leads to an inhomogeneous distribution of θ′ phase, which decreases the elongation. For the 6% pre-stretching elongation and 7% pre-cold cooling deformation, the tensile strength, yield strength and elongation are 472 MPa, 404 MPa, 15.6% and 472 MPa, 417 MPa, 9.4%, respectively. Both of their tensile strengths are equivalent, but the yield strength of the pre-stretched alloy plate is lower, while the elongation is higher. The texture components and orientation density of the pre-stretched and pre-rolled alloy plates are almost the same, therefore, the yield strength of the alloy plate is determined by the quantity, size and θ ′ phase distribution.

Key words: aluminum alloy; 2519A aluminum alloy; pre-stretching; cold rolling pre-deformation; mechanical properties; microstructure; texture