Creep-induced magnetic anisotropy and magnetostriction in a nanocrystalline Co based alloy

N. Murillo; J. González; J. M. Blanco; R. Valenzuela; J. M. González; J. Echeberría

doi:10.1063/1.364635

Creep-induced magnetic anisotropy and magnetostriction in a nanocrystalline Co based alloy

N. Murillo^*
, J. González
, J. M. Blanco
, R. Valenzuela
, J. M. González
, J. Echeberría

^*Autor correspondiente de este trabajo

Esc. Univ. de Ing. Tec. Industrial
Universidad Nacional Autónoma de México
CSIC - Instituto de Ciencia de Materiales de Madrid (ICMM)
Centro de Estudios e Investigaciones Técnicas de Gipuzkoa (CEIT)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

4 Citas (Scopus)

Resumen

Co rich amorphous alloy (Vitrovac® 6025) ribbons have been current-annealed under a tensile stress of 500 MPa, applied along the ribbon axis. This results in a strong, creep-induced magnetic anisotropy with a hard ribbon axis, which increases as current density J increases. For high J, the magnetostriction constant showed a two component behavior as a function of measuring stress; one component for low stress (σ<100 MPa) and another one for high stress (σ>100 MPa). These results are interpreted in terms of structural relaxation (low J) and nanocrystallization (high J). Magnetostriction measurements appear as a very sensitive characterization tool.

Idioma original	Inglés
Páginas (desde-hasta)	5683-5685
Número de páginas	3
Publicación	Journal of Applied Physics
Volumen	81
N.º	8 PART 2B
DOI	https://doi.org/10.1063/1.364635
Estado	Publicada - 15 abr 1997
Publicado de forma externa	Sí

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title = "Creep-induced magnetic anisotropy and magnetostriction in a nanocrystalline Co based alloy",

abstract = "Co rich amorphous alloy (Vitrovac{\textregistered} 6025) ribbons have been current-annealed under a tensile stress of 500 MPa, applied along the ribbon axis. This results in a strong, creep-induced magnetic anisotropy with a hard ribbon axis, which increases as current density J increases. For high J, the magnetostriction constant showed a two component behavior as a function of measuring stress; one component for low stress (σ<100 MPa) and another one for high stress (σ>100 MPa). These results are interpreted in terms of structural relaxation (low J) and nanocrystallization (high J). Magnetostriction measurements appear as a very sensitive characterization tool.",

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AU - Murillo, N.

AU - González, J.

AU - Blanco, J. M.

AU - Valenzuela, R.

AU - González, J. M.

AU - Echeberría, J.

PY - 1997/4/15

Y1 - 1997/4/15

N2 - Co rich amorphous alloy (Vitrovac® 6025) ribbons have been current-annealed under a tensile stress of 500 MPa, applied along the ribbon axis. This results in a strong, creep-induced magnetic anisotropy with a hard ribbon axis, which increases as current density J increases. For high J, the magnetostriction constant showed a two component behavior as a function of measuring stress; one component for low stress (σ<100 MPa) and another one for high stress (σ>100 MPa). These results are interpreted in terms of structural relaxation (low J) and nanocrystallization (high J). Magnetostriction measurements appear as a very sensitive characterization tool.

AB - Co rich amorphous alloy (Vitrovac® 6025) ribbons have been current-annealed under a tensile stress of 500 MPa, applied along the ribbon axis. This results in a strong, creep-induced magnetic anisotropy with a hard ribbon axis, which increases as current density J increases. For high J, the magnetostriction constant showed a two component behavior as a function of measuring stress; one component for low stress (σ<100 MPa) and another one for high stress (σ>100 MPa). These results are interpreted in terms of structural relaxation (low J) and nanocrystallization (high J). Magnetostriction measurements appear as a very sensitive characterization tool.

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JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 8 PART 2B

ER -

Creep-induced magnetic anisotropy and magnetostriction in a nanocrystalline Co based alloy

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