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Two-way shape memory effect and thermal cycling stability in Co35Ni35Al30 single crystals by low-temperature martensite ageing E. Y. Panchenko, A. S. Eftifeeva, Y. I. Chumlyakov [et al.]

Contributor(s): Eftifeeva, Anna S | Chumlyakov, Yuri I | Gerstein, Gregory | Maier, Hans Jürgen | Panchenko, Elena YuMaterial type: ArticleArticleSubject(s): эффект памяти формы | монокристаллы | мартенситное старение | деформация сжатияGenre/Form: статьи в журналах Online resources: Click here to access online In: Scripta materialia Vol. 150. P. 18-21Abstract: Low-temperature stress-induced martensite ageing at 400 K under a compressive stress of −500 MPa was applied along the [110]B2[100]L10-direction for improving the functional properties of ferromagnetic Co35Ni35Al30 single crystals, which feature a B2-L10 martensitic transformation. Along the [001]B2-direction the stress-induced martensite aged crystals demonstrated a two-way shape memory effect with a giant reversible tensile strain of up to +7.3 (±0.3) % and a high functional stability during stress-free cooling/heating cycles. In addition, a rubber-like behavior with a reversible compressive strain of up to −4.4 (±0.3) % in loading/unloading cycles in the L10-martensite was observed.
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Low-temperature stress-induced martensite ageing at 400 K under a compressive stress of −500 MPa was applied along the [110]B2[100]L10-direction for improving the functional properties of ferromagnetic Co35Ni35Al30 single crystals, which feature a B2-L10 martensitic transformation. Along the [001]B2-direction the stress-induced martensite aged crystals demonstrated a two-way shape memory effect with a giant reversible tensile strain of up to +7.3 (±0.3) % and a high functional stability during stress-free cooling/heating cycles. In addition, a rubber-like behavior with a reversible compressive strain of up to −4.4 (±0.3) % in loading/unloading cycles in the L10-martensite was observed.

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