Effect of Cold Drawing and Annealing in Thermomechanical Treatment Route on the Microstructure and Functional Properties of Superelastic Ti-Zr-Nb Alloy.
Anastasia KudryashovaKonstantin LukashevichMikhail DerkachOleg StrakhovSergey DubinskiyVladimir AndreevSergey ProkoshkinVadim SheremetyevPublished in: Materials (Basel, Switzerland) (2023)
In this study, a superelastic Ti-18Zr-15Nb (at. %) alloy was subjected to thermomechanical treatment, including cold rotary forging, intermediate annealing, cold drawing, post-deformation annealing, and additional low-temperature aging. As a result of intermediate annealing, two structures of β -phase were obtained: a fine-grained structure (d ≈ 3 µm) and a coarse-grained structure (d ≈ 11 µm). Cold drawing promotes grain elongation in the drawing direction; in a fine-grained state, grains form with a size of 4 × 2 µm, and in a coarse-grained state, they grow with a size of 16 × 6 µm. Post-deformation annealing (PDA) at 550 °C for 30 min leads to grain sizes of 5 µm and 3 µm, respectively. After PDA at 550 °C (30 min) in the fine-grained state, the wire exhibits high tensile strength ( UTS = 624 MPa), highest elongation to failure ( δ ≥ 8%), and maximum difference between the dislocation and transformation yield stresses, as well as the highest superelastic recovery strain ( ε r SE ≥ 3.3%) and total elastic + superelastic recovery strain ( ε r el+SE ≥ 5.4%). Additional low-temperature aging at 300 °C for 30-180 min leads to ω -phase formation, alloy hardening, embrittlement, and a significant decrease in superelastic recovery strain.