Abstract:Plane strain compression tests of AA2195 aluminum alloy were conducted on Gleeble-3500 system in the temperature range from 350 ℃ to 500 ℃ and at strain rate range from 0.01？s^-1 to 1？s^-1 with 60% thickness reduction. The flow behavior was studied in present work and the microstructure was revealed by electron backscatter diffractometry(EBSD) and X-ray diffractometry(XRD). The results show that the stress increases with the increase of strain rate whereas decreases with the increase of temperature, the peak strain and the critical strain for attaining steady state decreases with increasing temperature. A constitutive equation based on the hyperbolic sine equation is established with the deformation activation energy is calculated to be 278.208 kJ/mol. Flow localization increases with the increase of the value of Zener-Hollomon parameter, the basic softening mechanism is dynamic recovery(DRV), besides, dynamic recrystallization(DRX) occurs and is mainly discontinuous recrystallization(DDRX), continuous recrystallization(CDRX) and geometric recrystallization(GDRX) occurs more easily in lower Z value and higher Z value, respectively. Significant amounts of the major rolling texture components, namely, S{123} , Brass{011} , Copper{112} and Goss{011} are observed at deformed samples.

Key words: 2195 Al-Li alloy; plane strain compression; flow behavior; microstructure