Functional Properties of Highly Textured Fe–Ni–Co–Al–Ti–B Shape Memory Alloy Wires

Functional Properties of Highly Textured Fe–Ni–Co–Al–Ti–B Shape Memory Alloy Wires

The effect of thermomechanical treatments on grain size and precipitate evolution as well as their impact on the shape memory properties of cold-drawn Fe 41 –Ni 28 –Co 17 –Al 11.5 –Ti 2.5 –B 0.05 (at. %) wires were studied. Cold drawing produces a strong {hkl}  /{hkl}  texture in this alloy. Differe...

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Veröffentlicht in:Shape memory and superelasticity : advances in science and technology 2023-09, Vol.9 (3), p.531-541
Hauptverfasser: Sobrero, C., Remich, V., Cassineiro, J., Giordana, M. F., Abreu Faria, G., Liehr, A., Freudenberger, J., Niendorf, T., Krooß, P.
Format: Artikel
Sprache:eng
Schlagworte:
Characterization and Evaluation of Materials
Chemistry and Materials Science
Cold drawing
Evolution
Grain growth
Grain size
Iron
Martensitic transformations
Materials Science
Precipitates
Recrystallization
Shape memory alloys
Technical Article
Thermomechanical treatment
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Zusammenfassung:The effect of thermomechanical treatments on grain size and precipitate evolution as well as their impact on the shape memory properties of cold-drawn Fe 41 –Ni 28 –Co 17 –Al 11.5 –Ti 2.5 –B 0.05 (at. %) wires were studied. Cold drawing produces a strong {hkl}  /{hkl}  texture in this alloy. Different thermal treatments promote the evolution of specific recrystallisation textures as well as grain growth, while ageing at 600 °C to 650 °C leads to the formation of γ’ precipitates. Variation in size and distribution of the precipitates via ageing significantly affect the functional properties. A maximum transformation strain of 1.3% without fracture was obtained on sample tested on heating–cooling experiments.
ISSN:2199-384X
2199-3858
DOI:10.1007/s40830-023-00449-7