Abstract:  In order to investigate the mechanical behavior of 2024Al alloy deformation at the semi-solid state, the tensile and compressive experiments were employed to measure its curve of true stress vs true strain at various deformation temperatures and strain rates. Based on the experimental results, the relation of true stress σ and true strain rate ε· and the relation of deformation temperature and true stress were determined using the method of simple linear regression. The results showed that the tensile and compressive deformation behaviors of 2024Al alloy in semi-solid state temperature regions display the sensitivity of strain rate and they could be expressed by a simple power law σ＝kε·^m. In addition, the coefficient k of power law, the exponent m of sensitivity of strain rate and the energy Q of plastic deformation were derived based on the experimental results and theoretical analyses. Consequently, the quantitative description of 2024Al alloy deformation in the semi-solid temperature region was obtained.

Key words:   2024 alloy; mechanical behavior; semi-solid state; tension and compression deformation