С.Д. Прокошкин scite author profile

The thermomechanical processing consisting in cold work (true strain e ¼ 0:3{1:9) followed by a post-deformation annealing (200-700 C temperature range) is applied to the equiatomic Ti-Ni alloy. The evolution of the structure, substructure and functional properties of the material is studied. For all levels of cold work, the maxima of the free recovery strain and constraint recovery stress are obtained after annealing in the 350-400 C temperature range. For a moderately cold-worked material (true strain e ¼ 0:3), this temperature range corresponds to polygonization; for a severely cold-worked material (e ¼ 1:9), it corresponds to the material nanocrystallization, while for a highly cold-worked material (e ¼ 0:88), the structure is mixed. An increase in the cold-work strain leads to an increase in the completely recoverable strain above 8% and in the maximum recovery stress up to 1450 MPa, as well as to the widening of the superelastic temperature range.

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Characterization of amorphous and nanocrystalline Ti–Ni-based shape memory alloys

Inaekyan

Braïlovski

Прокошкин

et al. 2009

Journal of Alloys and Compounds

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Influence of the Post-Deformation Annealing Heat Treatment on the Low-Cycle Fatigue of NiTi Shape Memory Alloys

Braïlovski

Terriault

Прокошкин

2002

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Effect of biaxial cyclic severe deformation on structure and properties of Ti-Ni alloys

Komarov

Khmelevskaya

Karelin

et al. 2019

Journal of Alloys and Compounds

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