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On the limits of coercivity in permanent magnets

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arxiv 1708.01880 v1 pith:M3HNXWZO submitted 2017-08-06 cond-mat.mtrl-sci

On the limits of coercivity in permanent magnets

classification cond-mat.mtrl-sci
keywords fieldmagneticanisotropycoercivecoercivitymagnetspercenttemperature
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The maximum coercivity that can be achieved for a given hard magnetic alloy is estimated by computing the energy barrier for the nucleation of a reversed domain in an idealized microstructure without any structural defects and without any soft magnetic secondary phases. For Sm$_{1-z}$Zr$_z$(Fe$_{1-y}$Co$_y$)$_{12-x}$Ti$_x$ based alloys, which are considered an alternative to Nd$_2$Fe$_{14}$B magnets with lower rare-earth content, the coercive field of a small magnetic cube is reduced to 60 percent of the anisotropy field at room temperature and to 50 percent of the anisotropy field at elevated temperature (473K). This decrease of the coercive field is caused by misorientation, demagnetizing fields and thermal fluctuations.

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