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The influence of Cu content on the corrosion resistance of Co-Fe-Cu magnetic alloys in aqueous environments

✍ Scribed by M.P. Gigandet; F.X. Perrin; J. Pagetti; G. Poupon

Publisher: John Wiley and Sons
Year: 2000
Tongue: German
Weight: 155 KB
Volume: 51
Category: Article
ISSN: 0947-5117
DOI: 10.1002/1521-4176(200006)51:6<418::aid-maco418>3.0.co;2-k

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✦ Synopsis

To increase magnetic storage density, it is necessary to develop recording heads using materials with optimised magnetic properties. Several works have revealed the high Bs Co 90 Fe 10 alloys (1.8 ± 2.0 T). However, coercivity of these alloys is too high and the addition of a third element such as copper improves its soft magnetic properties and resistivity.

Magnetic properties of these materials are very attractive and the corrosion behaviour is investigated by electrochemical tests. The copper element improves the passivation ability of CoFeCu alloys up to 2.7 % content.

Moreover, susceptibility to pitting corrosion is greatly decreased and even suppressed for higher Cu contents.

Um die magnetische Speicherdichte zu erho Èhen, ist es erforderlich Aufnahmeko Èpfe zu entwickeln, bei denen magnetische Werkstoffe mit optimierten magnetischen Eigenschaften verwendet werden. In verschiedenen Arbeiten sind hierzu die Co 90 Fe 10 -Legierungen (1,8 ± 2,0 T) untersucht worden. Die Feldsta Èrke dieser Legierungen ist jedoch zu hoch und die Zugabe eines dritten Elementes wie Kupfer verbessert die weichmagnetischen Eigenschaften und die Widerstandsfa Èhigkeit.

Die magnetischen Eigenschaften dieser Werkstoffe sind sehr interessant und das Korrosionsverhalten wurde mit elektrochemischen Versuchen untersucht. Das Element Kupfer verbessert die Passivierungsfa Èhigkeit der CoFeCu-Legierungen bis zu einem Cu-Gehalt von 2,7 %. Des weiteren wird die Empfindlichkeit gegenu Èber Lochfraû erheblich vermindert und bei ho Èheren Cu-Gehalten sogar unterdru Èckt.

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