Peculiarities of implementation of abnormally high shape memory effects in thermomechanically treated Ti-Ni alloys

被引:17
作者
Ryklina E.P. [1 ]
Prokoshkin S.D. [1 ]
Chernavina A.A. [1 ]
机构
[1] National University of Science and Technology MISiS, Moscow
来源
Inorganic Materials: Applied Research | 2013年 / 4卷 / 4期
关键词
Nitinol; Phase state; Shape memory effects (SME); Thermomechanical induction parameters; Thermomechanical treatment; Two-way SME (TWSME);
D O I
10.1134/S2075113313040096
中图分类号
学科分类号
摘要
The combined action of a number of factors (the initial phase state, structure state, and parameters of the external actions) by their simultaneous variation upon induction of the shape memory effect (SME) and the two-way SME (TWSME) in the Ti-50.7 at % Ni alloy on the functional characteristics during bending is studied. The obtained values of the recoverable strain σr = 14.8% and σTW = 5.4% substantially exceed the earlier reached level of the SME and TWSME parameters in binary alloys. © 2013 Pleiades Publishing, Ltd.
引用
收藏
页码:348 / 355
页数:7
相关论文
共 49 条
[21]   GRAIN-REFINEMENT OF A TI-NI SHAPE MEMORY ALLOY AND ITS INFLUENCE ON PHASE-TRANSFORMATION CHARACTERISTICS [J].
MOTOHASHI, Y ;
OHSAWA, K ;
HOSHIYA, T ;
OKAMOTO, Y ;
OHMORI, M .
JOURNAL OF THE JAPAN INSTITUTE OF METALS, 1991, 55 (02) :132-140
[22]   EVOLUTION OF STRUCTURE AND PROPERTIES OF NICKEL-ENRICHED Ti-Ni SHAPE MEMORY ALLOY SUBJECTED TO COMPRESSIVE DEFORMATION [J].
Komarov, Victor ;
Khmelevskaya, Irina ;
Karelin, Roman ;
Yusupov, Vladimir ;
Postnikov, Ivan ;
Korpala, Grzegorz ;
Kawalla, Rudolf ;
Prahl, Ulrich ;
Prokoshkin, Sergey .
29TH INTERNATIONAL CONFERENCE ON METALLURGY AND MATERIALS (METAL 2020), 2020, :1187-1192
[23]   Site occupation of Nb atoms in ternary Ni-Ti-Nb shape memory alloys [J].
Shi, H. ;
Frenzel, J. ;
Martinez, G. T. ;
Van Rompaey, S. ;
Bakulin, A. ;
Kulkova, S. ;
Van Aert, S. ;
Schryvers, D. .
ACTA MATERIALIA, 2014, 74 :85-95
[24]   Synthesis of Ti-Ni-O Modified Surfaces on Shape Memory Alloys for Biomedical Applications [J].
Strnad, Gabriela ;
Ciurezu, Leonard ;
Berbecaru, Andrei Constantin ;
Gingu, Oana .
13TH INTERNATIONAL CONFERENCE INTERDISCIPLINARITY IN ENGINEERING (INTER-ENG 2019), 2020, 46 :27-33
[25]   Development and characterization of Ni-free Ti-base shape memory and superelastic alloys [J].
Miyazaki, S. ;
Kim, H. Y. ;
Hosoda, H. .
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2006, 438 :18-24
[26]   Deformation Behavior, Structure, and Properties of an Aging Ti-Ni Shape Memory Alloy after Compression Deformation in a Wide Temperature Range [J].
Komarov, Victor ;
Khmelevskaya, Irina ;
Karelin, Roman ;
Kawalla, Rudolf ;
Korpala, Grzegorz ;
Prahl, Ulrich ;
Yusupov, Vladimir ;
Prokoshkin, Sergey .
JOM, 2021, 73 (02) :620-629
[27]   Comparative Study of Shape Memory Effects in Ni-Rich Ti–Ni Alloy After Training in Various Phase States [J].
E. Ryklina ;
K. Polyakova ;
S. Prokoshkin .
Shape Memory and Superelasticity, 2020, 6 :157-169
[28]   In Vitro Microstructure, Shape Memory, Corrosion, and Biocompatibility Characteristics of Porous Ti-51 at.%Ni-xSn Shape Memory Alloys [J].
Ibrahim, Mustafa K. ;
Saud, Safaa N. ;
Hamzah, E. ;
Nazim, E. M. .
METALLOGRAPHY MICROSTRUCTURE AND ANALYSIS, 2022, 11 (01) :150-157
[29]   Technological Features of Wire with a Diameter of 0.5-2.5 mm Production from Ni-Ti-based Shape Memory Alloys [J].
Andreev, Vladimir A. ;
Yusupov, Vladimir S. ;
Perkas, Mikhail M. ;
Bondareva, Sofya A. ;
Karelin, Roman D. .
SHAPE MEMORY ALLOYS, SMA 2018, 2018, 9 :3-8
[30]   Effects of Cold-Rolling/Aging Treatments on the Shape Memory Properties of Ti49.3Ni50.7 Shape Memory Alloy [J].
Chang, Shih-Hang ;
Lin, Keng-Hua ;
Wu, Shyi-Kaan .
MATERIALS, 2017, 10 (07)
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