Transformation behavior and superelasticity of TiZrHfNiCoCu multi-component high-temperature shape memory alloys
- Rehman, Izaz Ur; Li, Shuanglei; Nam, Tae-Hyun
- Issue Date
- ELSEVIER SCIENCE SA
- Multi-component HTSMA alloys; Microstructures; Transformation temperatures; Superelasticity
- JOURNAL OF ALLOYS AND COMPOUNDS, v.884
- Journal Title
- JOURNAL OF ALLOYS AND COMPOUNDS
- Multi-component (TiZrHf)(1)Ni1.50Co0.60Cu0.90, (TiZrHf)(1)Ni1.48Co0.58Cu0.88, (TiZrHf)(1)Ni1.45Co0.57Cu0.86, and (TiZrHf)(1)Ni1.40Co0.54Cu0.82 high-temperature shape memory alloys (HTSMAs) were prepared by arc-melting and then microstructures, transformation temperatures, phase constituents and superelasticity were investigated by scanning electron microscope observation, differential scanning calorimetery, X-ray diffraction and dynamic mechanical analysis in tensile mode, respectively. The microstructure of solution treated TiZrHfNiCoCu HTSMAs specimens consisted of (TiZrHf)(NiCoCu)-type matrix and (TiZrHf)(2)(NiCoCu)-type second phase. The area fraction of the second phase increased from 1.7% to 17.2% with the increased in (TiZrHf) content from 50 at% to 52 at%. Martensitic transformation start temperature of the solution treated specimens increased from 53.5 degrees C to 188.7 degrees C with the increase in (TiZrHf) content from 50 at% to 52 at%. TiZrHfNiCoCu HTSMAs showed clear superelasticity in the solution treated state. The superelastic recovery strain of solution treated TiZrHfNiCoCu HTSMAs was in the range of 4.2-4.6% depending on the alloy composition. (C) 2021 Elsevier B.V. All rights reserved.
- Files in This Item
- There are no files associated with this item.
- Appears in
- 공학계열 > Dept.of Materials Engineering and Convergence Technology > Journal Articles
Items in ScholarWorks are protected by copyright, with all rights reserved, unless otherwise indicated.