Superelastic behavior of single crystalline Ni48Fe20Co5Ga27 micro-pillars near austenite–martensite critical point

Superelastic behavior of single crystalline Ni48Fe20Co5Ga27 micro-pillars near austenite–martensite critical point

Micro-pillars oriented in austenite along [100], [110], and [111] crystallographic directions were fabricated on the corresponding edges of a single crystalline plate of the Ni48Fe20Co5Ga27 magnetic shape memory alloy exhibiting martensitic transformation (MT) at 150 K. Superelastic behavior of pill...

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Veröffentlicht in:AIP advances 2021-02, Vol.11 (2), p.025213-025213-4, Article 025213
Hauptverfasser: Chang, T.-F. M., Chernenko, V., Tang, H.-C., Chen, C.-Y., Umise, A., Tahara, M., Hosoda, H., Sone, M.
Format: Artikel
Sprache:eng
Schlagworte:
Austenite
Critical point
Crystal structure
Crystallinity
Crystallography
Martensite
Martensitic transformations
Materials Science
Materials Science, Multidisciplinary
Nanoscience & Nanotechnology
Phase diagrams
Physical Sciences
Physics
Physics, Applied
Room temperature
Science & Technology
Science & Technology - Other Topics
Shape memory alloys
Strain
Superelasticity
Technology
Temperature
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Zusammenfassung:Micro-pillars oriented in austenite along [100], [110], and [111] crystallographic directions were fabricated on the corresponding edges of a single crystalline plate of the Ni48Fe20Co5Ga27 magnetic shape memory alloy exhibiting martensitic transformation (MT) at 150 K. Superelastic behavior of pillars, due to micro-compression-induced MT, was investigated at different temperatures from 298 K to 373 K. At room temperature, Young’s moduli of the [100], [110], and [111] pillars in austenite are equal to 5.3 GPa, 7.9 GPa, and 9.9 GPa, respectively, resulting in the linear dependences of the elastic strain reaching up to the record-breaking value of 10%. On increasing temperature, the stress–strain dependencies exhibit changes that are interpreted in terms of the critical behavior on approaching to the end points on the martensite–austenite stress–temperature phase diagrams.
ISSN:2158-3226
2158-3226
DOI:10.1063/5.0036304