Szczegóły publikacji

Opis bibliograficzny

Effect of B addition on the superelasticity in FeNiCoAlTa single crystals / M. Czerny, G. CIOS, W. Maziarz, Y. I. Chumlyakov, N. Schell, R. Chulist // Materials and Design ; ISSN 0264-1275. — Tytuł poprz.: Materials in Engineering ; ISSN: 0261-3069. — 2021 — vol. 197 art. no. 109225, s. 1–9. — Bibliogr. s. 8–9, Abstr. — Publikacja dostępna online od: 2020-10-16. — R. Chulist – afiliacja: Instytut Metalurgii i Inżynierii Materiałowej PAN, Kraków

Autorzy (6)

Czerny Monika
AGHCios Grzegorz
Maziarz Wojciech
Chumlyakov Yury
Schell Norbert
Chulist Robert

Słowa kluczowe

martensite precipitation shape memory effect single crystal

Dane bibliometryczne

ID BaDAP	130839
Data dodania do BaDAP	2020-11-05
Tekst źródłowy	URL
DOI	10.1016/j.matdes.2020.109225
Rok publikacji	2021
Typ publikacji	artykuł w czasopiśmie
Otwarty dostęp
Creative Commons
Czasopismo/seria	Materials & Design

Abstract

The study focuses on the superelastic effect in single-crystalline boron-doped Fe-based shape memory alloys. The homogenized and quenched single crystals were subjected to a heat treatment at 973 K for variable aging times. As a result, small and coherent nanometer-sized γ′ (Ni3Al-type) precipitates were formed. It was established that Fe-28Ni-17Co-11.5Al-2.5Ta-0.05B single crystals oriented along [001] direction exhibit the fully reversible superelastic behavior up to 14.3% compression strain at 77 K reaching the maximum theoretical value. The boron addition suppressed completely the formation of the brittle β phase and reduced the average precipitate size of the γ′ precipitates. Using high-energy synchrotron radiation and high-resolution transmission electron microscopy analysis the volume fraction and precipitate size of γ′ were determined indicating that both factors are critical in obtaining the largest superelastic reversibility. Boron addition counters the initial effect of mechanical stabilization which was detected in single crystals without boron. Unlike the thermally induced martensitic transformation, applied stresses produce a different austenite/martensite interface composed of interchanging austenite and martensite variants. It is also demonstrated that upon loading/unloading cycles the moving transformation front divides the material into three district regions i.e. single variant of austenite, austenite intermixed with martensite and single variant of martensite.

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