Qing-ling Bai, Hong-xiang Li, Qiang Du, Ji-shan Zhang,  and Lin-zhong Zhuang, Mechanical properties and constitutive behaviors of as-cast 7050 aluminum alloy from room temperature to above the solidus temperature, Int. J. Miner. Metall. Mater., 23(2016), No. 8, pp. 949-958. https://doi.org/10.1007/s12613-016-1311-3
Cite this article as:
Qing-ling Bai, Hong-xiang Li, Qiang Du, Ji-shan Zhang,  and Lin-zhong Zhuang, Mechanical properties and constitutive behaviors of as-cast 7050 aluminum alloy from room temperature to above the solidus temperature, Int. J. Miner. Metall. Mater., 23(2016), No. 8, pp. 949-958. https://doi.org/10.1007/s12613-016-1311-3

Mechanical properties and constitutive behaviors of as-cast 7050 aluminum alloy from room temperature to above the solidus temperature

+ Author Affiliations
  • Corresponding authors:

    Hong-xiang Li    E-mail: hxli@skl.ustb.edu.cn

    Lin-zhong Zhuang    E-mail: linzhongzhuang@yahoo.com

  • Received: 20 October 2015Revised: 29 December 2015Accepted: 6 January 2016
  • The mechanical properties and constitutive behaviors of as-cast AA7050 in both the solid and semi-solid states were determined using the on-cooling and in situ solidification approaches, respectively. The results show that the strength in the solid state tends to increase with decreasing temperature. The strain rate plays an important role in the stress–strain behaviors at higher temperatures, whereas the influence becomes less pronounced and irregular when the temperature is less than 250°C. The experimental data were fitted to the extended Ludwik equation, which is suitable to describe the mechanical behavior of the materials in the as-cast state. In the semi-solid state, both the strength and ductility of the alloy are high near the solidus temperature and decrease drastically with decreasing solid fraction. As the solid fraction is less than 0.97, the maximum strength only slightly decreases, whereas the post-peak ductility begins to increase. The experimental data were fitted to the modified creep law, which is used to describe the mechanical behavior of semi-solid materials, to determine the equivalent parameter fGBWL, i.e., the fraction of grain boundaries covered by liquid phase.
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