Journal of Materials Research and Technology (May 2024)

Combination of multiple strengthening mechanisms facilitates excellent strength-ductility balance in metastable β titanium alloy

  • Haoran Lu,
  • Zhilin Shi,
  • Heyang Shi,
  • Chang Mi,
  • Shunxing Liang,
  • Junsong Zhang,
  • Shuzhi Zhang,
  • Xinyu Zhang,
  • Riping Liu

Journal volume & issue
Vol. 30
pp. 8248 – 8259

Abstract

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A remarkable balance between the strength (844 MPa) and ductility (35.6%) of the Ti–4V–2Mo–2Fe alloy was achieved by hot rolling. Notably, alloy specimens rolled at 700 °C exhibited a yield strength exceeding 1 GPa. This outstanding yield strength from several factors: fine-grain strengthening, dislocations strengthening in the non-recrystallized region, and precipitation strengthening of α phase and isothermal ω phase. Within the 750–900 °C temperature range, a notable enhancement in yield strength, uniform elongation, total elongation, and work hardening rate was observed as rolling temperature decreased. This enhancement can be attributed to the “dynamic Hall-Petch effect” caused by the stress-induced {332} twins. Additionally, grain refinement and stress-induced ω phase further enhanced ductility and work hardening capacity. These findings show that reasonable adjustment of microstructure and deformation mechanism is an effective strategy to achieve excellent strength-ductility balance of metastable β titanium alloys.

Keywords