<p>To meet the aerospace industry’s demand for aircraft featuring high thrust-to-weight ratios and lightweight structures capable of operating in complex service environments, β titanium alloys with high specific strength and good plasticity have become a current research hotspot in the development of domestic fasteners. Based on the calculated Mo equivalent, the alloy composition Ti-4Al-6Cr-5Mo-5Nb is classified as a near-β titanium alloy within the titanium alloy design space. The microstructure is further controlled by adding alloy element Ta with a mass fraction of 0.4wt.%−2.0wt.%. Research results indicate that Ta dissolves completely in the matrix without forming new phases within the investigated range. As the Ta content increases, the proportion of the β phase increases significantly, the β grain diameter decreases markedly from 2.4 mm to 0.4 mm, and the a phase gradually coarsens. When adding 1.6wt.% Ta, the tensile strength and fracture toughness of the alloy reach the peak values of 735 MPa and 55 MPa·m<sup>1/2</sup>, respectively.</p>

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Microstructure and mechanical properties evolution of near-β alloy Ti-4Al-6Cr-5Mo-5Nb-xTa

  • Jia-qi Hao,
  • Hong-ze Fang,
  • Xing-fang Xue,
  • Ji-chang Yu,
  • Bo-bo Li,
  • Bao-hui Zhu,
  • Rui-run Chen

摘要

To meet the aerospace industry’s demand for aircraft featuring high thrust-to-weight ratios and lightweight structures capable of operating in complex service environments, β titanium alloys with high specific strength and good plasticity have become a current research hotspot in the development of domestic fasteners. Based on the calculated Mo equivalent, the alloy composition Ti-4Al-6Cr-5Mo-5Nb is classified as a near-β titanium alloy within the titanium alloy design space. The microstructure is further controlled by adding alloy element Ta with a mass fraction of 0.4wt.%−2.0wt.%. Research results indicate that Ta dissolves completely in the matrix without forming new phases within the investigated range. As the Ta content increases, the proportion of the β phase increases significantly, the β grain diameter decreases markedly from 2.4 mm to 0.4 mm, and the a phase gradually coarsens. When adding 1.6wt.% Ta, the tensile strength and fracture toughness of the alloy reach the peak values of 735 MPa and 55 MPa·m1/2, respectively.