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Metal Science and Heat Treatment

Erschienen in:

22.03.2016

Structure and Mechanical Properties of Shape-Memory Alloys of the Ti – Ni – Cu System

verfasst von: V. G. Pushin, N. N. Kuranova, A. V. Pushin

Erschienen in: Metal Science and Heat Treatment | Ausgabe 11-12/2016

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Abstract

The effect of copper additives in an amount of up to 35 at.% on the structure and phase transformations in ternary Ti – Ni – Cu alloys in conventional microcrystalline, submicrocrystalline and nanocrystalline states is studied. Complete diagrams of thermoelastic martensitic transformations B2↔B19′, B2↔B19↔B19′ and B2 ↔ B19 are plotted as a function of the copper content. Special features of variation of the microstructure are determined. Tensile mechanical properties including the parameters of the shape memory effect are measured.

Vorheriger Artikel Special Features of Creep and Long-Term Strength of Single-Crystal Refractory Nickel-Base Alloys

Nächster Artikel Formation of Zones of Plastic Strain in Quenched and Tempered Steel 09G2S During Dynamic Tests

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The authors are grateful to A. V. Korolev, N. I. Kourov, and V. V. Makarov (IFM UrO RAN) for their contribution into the study.

The TEM and SEM studies were performed at the Research Center for Nanotechnology and Advanced Materials of the IFM UrO RAN.

Here and below in the paper the copper content is given in atomic percent.

H. Warlimont and L. Delaey, Martensitic Transformations in Copper-, Silver-, and Gold-Based Alloys [Russian translation], Nauka, Moscow (1980), 206 p.

I. I. Kornilov, O. K. Belousov, and E. V. Kachur, Titanium Nickelide and other Shape Memory Alloys [in Russian], Nauka, Moscow (1977), 179 p.

V. A. Likhachev, S. L. Kuz’min, and Z. P. Kamentseva, Shape Memory Effect [in Russian], LGU, Leningrad (1987), 218 p.

K. Ootsuka, K. Simidzu, Y. Sudzuki, et al., Shape Memory Alloys [Russian translation], Metallurgiya, Moscow (1990), 224 p.

V. N. Khachin, V. G. Pushin, and V. V. Kondrat’ev, Titanium Nickelide. Structure and Properties [in Russian], Nauka, Moscow (1992). 160 p.

A. A. Il’in, Mechanism and Kinetics of Phase and Structural Transformations in Titanium Alloys [in Russian], Nauka, Moscow (1994), 304 p.

S. P. Belyaev, A. E. Volkov, V. A. Ermolaev, et al., Materials with Shape Memory Effect [in Russian], Izd. NIIKh SPbGU, St. Petersburg (1997, 1998).

V. G. Pushin, V. V. Kondrat’ev, V. N. Khachin, Pre-Transformation Phenomena and Martensitic Transformations [in Russian], UrO RAN, Ekaterinburg (1998), 368 p.

V. G. Pushin, S. D. Prokoshkin, R. Z. Valiev, et al., Shape Memory Titanium Nickelide Alloys. Part 1. Structure, Phase Transformations and Properties [in Russian], UrO RAN, Ekaterinburg (2006), 440 p.

10.

V. G. Pushin, “Alloys with a thermomechanical memory: structure, properties and application,” PhMM, 90(1), 568 – 595 (2000).

11.

V. Brailovski, I. Yu. Khmelevskaya, S. D. Prokoshkin, et al., “Foundations of heat and thermomechanical treatments and their effect on the structure and properties of titanium nickelide-based alloys,” PhMM, 97(1), S3 – S55 (2004).

12.

V. G. Pushin, V. V. Stolyarov, R. Z. Valiev, et al., “Development of methods of severe plastic deformation for the production of high-strength alloys based on titanium nickelide with a shape memory effect,” PhMM, 94(1), S54 – S68 (2002).

13.

V. G. Pushin, V. V. Stolyarov, R. Z., Valiev, et al., “Features of structure and phase transformations in shape memory TiNi-based alloys after severe plastic deformation,” Ann. de Chi. Sci. des Mat., 27, 77 – 88 (2002).

14.

S. D. Prokoshkin, I. Yu. Khmelevskaya, S. V. Dobatkin, et al., “Evolution of structure under severe plastic deformation of shape memory alloys based on titanium nickelide,” Fiz. Met. Metalloved., 97(6), 84 – 90 (2004).

15.

S. D. Prokoshkin, I. Yu. Khmelevskaya, S. B. Dobatkin, et al., “Evolution of structure under severe plastic deformation of shape memory alloys based on titanium nickelide,” Fiz. Met. Metalloved., 97(6), 84 – 90 (2004).

16.

S. D. Prokoshkin, I. Yu. Khmelevskaya, S. V. Dobatkin, et al., “Alloy composition, deformation temperature, pressure and post-deformation annealing effects in severely deformed Ti – Ni based shape memory alloys,” Acta Mater., 53, 2703 – 2714(2005).

17.

T. Saburi, Y. Watanabe, and S. Nenno, “Morphological characteristics of the orthorhombic martensite in a shape memory Ti – Ni – Cu alloy,” ISIJ Int., 29(5), 405 – 411 (1989).CrossRef

18.

T. H. Nam, T. Saburi, Y. Nakami, and K. Shimizu, “Shape memory characteristics in lattice deformations in Ti – Ni – Cu alloys,” Mater. Trans. JIM, 31(12), 1050 – 1056 (1990).CrossRef

19.

W. Y. Moberly, J. L. Proft, T. W. Duerig, and R. Sinclair, “Twinless martensite in TiNiCu-shape memory alloys,” Mater. Sci. Forum, 56 – 58, 605 – 610 (1990).CrossRef

20.

W. Tang, R. Sandstrom, Z. G.Wei, and S. Miyzaki, “Experimental investigation and thermodynamic calculation of the Ti – Ni – Cu shape memory alloys,” Metall. Mater. Trans. A, 31, 2423 – 2430 (1990).CrossRef

21.

V. G. Pushin, S. B. Volkova, N. M. Matveeva et al, “Structure and phase transformations in quasi-binary alloys of the TiNi – TiCu system rapidly hardened from melt. IV. Microstructure of crystalline alloys,” Fiz. Met. Metalloved., 83(6), 149 – 156 (1997).

22.

D. V. Gunderov, V. G. Pushin, R. Z. Valiev, and E. Z. Valiev, “Structural and phase transformations in a Ti – Ni – Cu alloy subjected to severe deformation and heat treatment,” Deform. Razrush. Mater., No. 4, 22 – 25 (2006).

23.

V. G. Pushin, N. N. Kuranova, A. V. Pushin, et al., “Special features of formation of nanocrystalline structure in a Ti₅₀Ni₂₅Cu₂₅ shape memory alloy under severe mechanothermal impact,” Fiz. Met. Metalloved., 112(6), 636 – 646 (2011).

24.

V. G. Pushin, N. N. Kuranova, A. V. Pushin, et al., “Formation of nanocrystalline structure in amorphous Ti₅₀Ni₂₅Cu₂₅ Alloy under severe mechanothermal impact and size effect of B2↔B19 thermoelastic martensitic transformation,” Fiz. Met. Metalloved., 113(3), 286 – 298 (2012).

Titel: Structure and Mechanical Properties of Shape-Memory Alloys of the Ti – Ni – Cu System
verfasst von: V. G. Pushin
N. N. Kuranova
A. V. Pushin
Publikationsdatum: 22.03.2016
Verlag: Springer US
Erschienen in: Metal Science and Heat Treatment / Ausgabe 11-12/2016
Print ISSN: 0026-0673
Elektronische ISSN: 1573-8973
DOI: https://doi.org/10.1007/s11041-016-9951-5

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