Change in microstructures and mechanical properties during annealing of AZ31F magnesium alloy multi-directionally forged under decreasing temperature conditions

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  • Ikeda Mitsushi
    Graduate Student, Advanced Engineering Faculty, Wakayama National College of Technology
  • Kashihara Keizo
    Department of Intelligent Mechanical Engineering, Wakayama National College of Technology
  • Aoba Tomoya
    Department of Mechanical Engineering, Toyohashi University of Technology
  • Kobayashi Masakazu
    Department of Mechanical Engineering, Toyohashi University of Technology
  • Miura Hiromi
    Department of Mechanical Engineering, Toyohashi University of Technology

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  • 降温多軸鍛造したAZ31Fマグネシウム合金の焼きなましにおける微視組織および機械的性質の変化
  • コウオン タジク タンゾウ シタ AZ31Fマグネシウム ゴウキン ノ ヤキ ナマシ ニ オケル ビシ ソシキ オヨビ キカイテキ セイシツ ノ ヘンカ

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<p>Hot extruded AZ31F magnesium alloy was multi-directionally forged (MDFed) to 6 passes (a cumulative strain of ΣΔε=4.8) under decreasing temperature conditions, and then the specimens MDFed to 6 passes were annealed at temperatures ranging from 373 to 623 K. The as-MDFed specimen possessed a weak (0001) texture, whereas the MDFed specimen annealed at 623 K almost random orientation. Average grain size and hardness before and after static recrystallization indicated 0.6 µm and 85.1Hv, and 3.2 µm and 58.5Hv, respectively. The relationship between hardness (Hv) and grain size (d) in both as-MDFed and as-annealed specimens followed the Hall–Petch relation, which was expressed by a unified equation of Hv=38.7+36d −1/2。</p>

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