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ART�CULO

TITULO

Shape Memory and Huge Superelasticity in Ni?Mn?Ga Glass-Coated Fibers

Lei Shao

Yangyong Zhao

Alejandro Jim�nez

Manuel V�zquez and Yong Zhang

Resumen

Ni?Mn?Ga polycrystalline alloy fibers with diameters of 33 �m are reported to exhibit significantly improved ductility and huge superelastic and shape memory strains in comparison to conventional brittle bulk polycrystalline alloys. Particularly, the recoverable strain of the Ni54.9?Mn23.5?Ga21.6 fiber can be as high as 10% at 40 �C. Such optimized behavior has been achieved by a suitable fabrication process via a glass-coating melt spinning method. The superelastic properties at different temperatures and the shape memory effect of Ni54.9?Mn23.5?Ga21.6 fibers were investigated.

Palabras claves

glass-coated melt spinning - fibers - shape memory - superelasticity - serration behavior

Acceso

P�GINAS

pp. 0 - 0

N�MERO

Volumen: 7 Parte: 1 (2017)

MATERIAS

INGENIER�A Y CONSTRUCCI�N CIVIL

REVISTAS SIMILARES

Aerospace
Applied Sciences
Journal of Marine Science and Engineering

DOI

https://doi.org/10.3390/coatings7010005

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