J. Carrizo scite author profile

J. Carrizo

5Publications

48Citation Statements Received

0Citation Statements Given

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University of Oviedo

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Induced magnetic anisotropy in amorphous ribbons by applying a magnetic field during the quenching process

Tejedor

Garcı́a

Carrizo

et al. 2003

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A method to induce magnetic anisotropy in amorphous magnetic ribbons has been developed. The anisotropy is induced in the high Curie temperature Fe80B20 and Co70Mn5Fe1Mo1Si14B9 amorphous magnetic ribbons by applying a magnetic field at the moment of the solidification of the melt. This method does not affect the excellent mechanical properties of these materials. The induced magnetic anisotropy has been measured by torque magnetometry and its strength and easy axis are compared with the results obtained by other authors using static magnetic annealing in similar samples.

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Experimental evaluation of a roughness model of surface anisotropy in amorphous magnetic ribbons

et al. 1998

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Untitled

Tejedor

Garcı́a

Carrizo

et al. 1997

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Influence of the remnant magnetization, size distribution and content of soft magnetic reinforcement in micro-mechanical behavior of polymer matrix composites

Riesgo¹,

Elbaile

Moriche

et al. 2019

Polymer Testing

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Corrosion resistant metallic glasses for biosensing applications

Sagasti

Lopes

Lasheras

et al. 2017

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We report the fabrication by melt spinning, the magnetic and magnetoelastic characterization and corrosion behaviour study (by potentiodynamic methods) of an Fe-based, Fe-Ni-Cr-Si-B metallic glass to be used as resonant platform for biological and chemical detection purposes. The same study has been performed in Fe-Co-Si-B (with excellent magnetoelastic properties) and Fe-Ni-B (with good corrosion properties due to the substitution of Co by Ni) composition amorphous alloys. The well-known, commercial metallic glass with high corrosion resistance Metglas 2826MB®(Fe40Ni38Mo4B18), widely used for such biological and chemical detection purposes, has been also fully characterized and used as reference. For our Fe-Ni-Cr-Si-B alloy, we have measured values of magnetization (1.22 T), magnetostriction (11.5 ppm) and ΔE effect (6.8 %) values, as well as corrosion potential (-0.25 V), current density (2.54 A/m2), and polarization resistance (56.22 Ω.cm2) that make this composition very promising for the desired biosensing applications. The obtained parameters from our exhaustive characterization are compared with the values obtained for the other different composition metallic glasses and discussed in terms of Ni and Cr content.

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J. Carrizo

Induced magnetic anisotropy in amorphous ribbons by applying a magnetic field during the quenching process

Experimental evaluation of a roughness model of surface anisotropy in amorphous magnetic ribbons

Untitled

Influence of the remnant magnetization, size distribution and content of soft magnetic reinforcement in micro-mechanical behavior of polymer matrix composites

Corrosion resistant metallic glasses for biosensing applications

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