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Volume 41 Issue 7
Jul.  2015
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Journal of Beijing University of Aeronautics and Astronautics  > 2015  >  41(7): 1294-1299.
XIA Xiaojie, WU Guoqing, HUANG Zheng, et al. Effects of solution-aging treatment on microstructure and mechanical properties of a high-strength and high-toughness titanium alloy[J]. Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(7): 1294-1299. doi: 10.13700/j.bh.1001-5965.2014.0517(in Chinese)
Citation: XIA Xiaojie, WU Guoqing, HUANG Zheng, et al. Effects of solution-aging treatment on microstructure and mechanical properties of a high-strength and high-toughness titanium alloy[J]. Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(7): 1294-1299. doi: 10.13700/j.bh.1001-5965.2014.0517(in Chinese)
shu

Effects of solution-aging treatment on microstructure and mechanical properties of a high-strength and high-toughness titanium alloy

doi: 10.13700/j.bh.1001-5965.2014.0517
  • 1.

    Shanghai Aircraft Design and Research Institute, Shanghai 201210, China

  • 2. School of Materials Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China

  • 3. Beijing Institute of Aeronautical Materials, Beijing 100095, China

  • Received Date: 21 Aug 2014
  • Rev Recd Date: 19 Sep 2014
  • Publish Date: 20 Jul 2015
    Abstract
  • Solution-aging treatment was performed to a high-strength and high-toughness titanium alloy. Several microstructural feature including volume fraction of primary α phase, size factor of primary α phase, volume fraction of secondary α phase, αs/β interface density, were quantitatively characterized. By making a statistical analysis of the microstructure characteristics, the relationship between microstructure features and mechanical properties of the high-strength and high-toughness titanium alloy was investigated as solution temperature changed. The results show that with the increase of solution temperature in α+β phase, the volume fraction of primary α phase decreases, the size factor of primary α phase firstly decreases and then increases, volume fraction of secondary α phase increases, and the αs/β interface density increases and then decreases. The elongation, static toughness and crack initiation energy increase with the growth of the volume fraction of primary α phase. And yield strength is positively correlated with the αs/β interface density.

     

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