Exchange bias behavior in Ni50.0Mn35.5 In14.5 ribbons annealed at different temperatures
Identifieur interne : 001C29 ( Main/Repository ); précédent : 001C28; suivant : 001C30Exchange bias behavior in Ni50.0Mn35.5 In14.5 ribbons annealed at different temperatures
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Abstract
Heusler alloy Ni50.0Mn35.5In14.5 ribbons were prepared by melt-spinning technique. Several short time annealings were carried out in order to enhance the exchange bias effect in this alloy ribbon. The magnetic transition temperature increases with the annealing, compared to the as-spun sample, however no significant differences in respective Curie temperatures were observed for austenite and martensite phases in such annealed samples. Exchange bias effect is observed at low temperatures for all samples and practically vanishes at 60 K for the as-spun sample, whereas for the annealed ribbons it vanishes at 100 K.
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Mn<sub>35.5</sub>
In<sub>14.5</sub>
ribbons annealed at different temperatures</title>
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<term>Indium alloys</term>
<term>Magnetic hysteresis</term>
<term>Magnetic transitions</term>
<term>Manganese alloys</term>
<term>Martensitic transformations</term>
<term>Melt spinning</term>
<term>Nickel alloys</term>
<term>Rapid solidification</term>
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<term>Hystérésis magnétique</term>
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<term>Alliage Heusler</term>
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<front><div type="abstract" xml:lang="en">Heusler alloy Ni<sub>50.0</sub>
Mn<sub>35.5</sub>
In<sub>14.5</sub>
ribbons were prepared by melt-spinning technique. Several short time annealings were carried out in order to enhance the exchange bias effect in this alloy ribbon. The magnetic transition temperature increases with the annealing, compared to the as-spun sample, however no significant differences in respective Curie temperatures were observed for austenite and martensite phases in such annealed samples. Exchange bias effect is observed at low temperatures for all samples and practically vanishes at 60 K for the as-spun sample, whereas for the annealed ribbons it vanishes at 100 K.</div>
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In<sub>14.5</sub>
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Mn<sub>35.5</sub>
In<sub>14.5</sub>
ribbons were prepared by melt-spinning technique. Several short time annealings were carried out in order to enhance the exchange bias effect in this alloy ribbon. The magnetic transition temperature increases with the annealing, compared to the as-spun sample, however no significant differences in respective Curie temperatures were observed for austenite and martensite phases in such annealed samples. Exchange bias effect is observed at low temperatures for all samples and practically vanishes at 60 K for the as-spun sample, whereas for the annealed ribbons it vanishes at 100 K.</s0>
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