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Magnetism and high magnetic-field-induced stability of alloy carbides in Fe-based materials.


ABSTRACT: Understanding the nature of the magnetic-field-induced precipitation behaviors represents a major step forward towards unravelling the real nature of interesting phenomena in Fe-based alloys and especially towards solving the key materials problem for the development of fusion energy. Experimental results indicate that the applied high magnetic field effectively promotes the precipitation of M23C6 carbides. We build an integrated method, which breaks through the limitations of zero temperature and zero external field, to concentrate on the dependence of the stability induced by the magnetic effect, excluding the thermal effect. We investigate the intimate relationship between the external field and the origins of various magnetics structural characteristics, which are derived from the interactions among the various Wyckoff sites of iron atoms, antiparallel spin of chromium and Fe-C bond distances. The high-magnetic-field-induced exchange coupling increases with the strength of the external field, which then causes an increase in the parallel magnetic moment. The stability of the alloy carbide M23C6 is more dependent on external field effects than thermal effects, whereas that of M2C, M3C and M7C3 is mainly determined by thermal effects.

SUBMITTER: Hou TP 

PROVIDER: S-EPMC5813241 | biostudies-literature | 2018 Feb

REPOSITORIES: biostudies-literature

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Magnetism and high magnetic-field-induced stability of alloy carbides in Fe-based materials.

Hou T P TP   Wu K M KM   Liu W M WM   Peet M J MJ   Hulme-Smith C N CN   Guo L L   Zhuang L L  

Scientific reports 20180214 1


Understanding the nature of the magnetic-field-induced precipitation behaviors represents a major step forward towards unravelling the real nature of interesting phenomena in Fe-based alloys and especially towards solving the key materials problem for the development of fusion energy. Experimental results indicate that the applied high magnetic field effectively promotes the precipitation of M<sub>23</sub>C<sub>6</sub> carbides. We build an integrated method, which breaks through the limitations  ...[more]

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