• Dzwonczyk, Joanna
• Rao, K. P.
• Kainer, Ku
• Hort, N.
• Dzwonczyk, J.
• Prasad, Y. V. R. K.
• Kainer, Karl Ulrich
• Prasad, Yellapregada Venkata Rama Krishna
• Hort, Norbert

Abstract

The hot deformation characteristics of AZ31 magnesium alloy rod extruded at temperatures of 300 °C, 350 °C and 450 °C have been studied in compression. The extruded material had a fiber texture with < 1010 > parallel to the extrusion axis. When extruded at 450 °C, the texture was less intense and the< 1010 > direction moved away from the extrusion axis. The processing maps for the material extruded at 300 °C and 350 °C are qualitatively similar to the material with near-random texture (cast-homogenized) and exhibited three dynamic recrystallization (DRX) domains. In domains #1 and #2, prismatic slip is the dominant process and DRX is controlled by lattice self-diffusion and grain boundary self-diffusion, respectively. In domain #3, pyramidal slip occurs extensively and DRX is controlled by cross-slip on pyramidal slip systems. The material extruded at 450 °C exhibited two domains similar to #1 and #2 above, which moved to higher temperatures, but domain #3 is absent. The results are interpreted in terms of the changes in< 1010 > fiber texture with extrusion temperature. Highly intense< 1010 > texture, as in the rod extruded at 350 °C, will enhance the occurrence of prismatic slip in domains #1 and #2 and promotes pyramidal slip at temperatures >450 °C (domain #3).

Topics

• impedance spectroscopy
• grain
• grain boundary
• Magnesium
• magnesium alloy
• Magnesium
• extrusion
• laser emission spectroscopy
• texture
• random
• deformation mechanism
• recrystallization