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Ordering transformations and mechanical properties of Ti3Ai and Ti3Al-Nb alloys

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Abstract

Phase transformations and the kinetics of domain growth were studied in near stoichiometric Ti3Al and in a similar alloy containing about 5 at. pct Nb (Cb). The alloys were quenched from the β and from the α+ β fields and were subsequently annealed in the α2 field to study the ordering transformation. The critical temperature (T c) for ordering was found to be between 1125 and 1150° for both alloys. When quenched from aboveT c the microstructure of the stoichiometric compound contained massive martensite with small antiphase domains of average size 8 × 10 μm. On annealing the quenched structures in the range 700 to 1000°, domain coalescence occurred, the domains growing approximately as the square root of the annealing time. The activation energy for the domain growth process was found to be 64.6 ± 6 Kcal/mole (2.68 ± 0.25 × 105 J/mole). On quenching the alloy containing Nb the β transforms to a fine acicular martensite. On annealing, antiphase domain coalescence within the martensite plates and the simultaneous recrystallization of the martensite resulted in a fine subgrain structure even after annealing at 900° for up to 3 h. The mechanical properties and the fracture modes of the two alloys tested at 700° were correlated with the observed microstructural changes. The effects of Nb in this alloy are to slow the domain growth kinetics, to reduce the planarity of slip, and to increase nonbasal slip activity.

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Authors and Affiliations

  1. McDonnell Douglas ResearchLaboratories, 63166, St. Louis, MO

    S. M. L. Sastry (Research Scientist)

  2. Processing andHigh Temperature Materials Branch, Metals and Ceramics Division, USA

    H. A. Lipsitt (Group Leader)

Authors
  1. S. M. L. Sastry
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  2. H. A. Lipsitt
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Formerly NRC Research Associate in the Air Force Materials Laboratory, Wright-Patterson Air Force Base, OH

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Sastry, S.M.L., Lipsitt, H.A. Ordering transformations and mechanical properties of Ti3Ai and Ti3Al-Nb alloys. Metall Trans A 8, 1543–1552 (1977). https://doi.org/10.1007/BF02644857

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  • DOI: https://doi.org/10.1007/BF02644857

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