论文信息 - Domain-wall curvature and coercivity in pinning type Sm–Co magnets

Domain-wall curvature and coercivity in pinning type Sm–Co magnets

The origin of coercivity in precipitation hardened Sm–Co magnets is investigated. By considering domain-wall pinning at boundary phase and Z phase inhomogenities, it is found that the hexagonal Z phase has no direct influence on the coercivity. The intuitive assumption of plane domain walls made in a recent calculation is unrealistic but has no direct effect on the coercivity. However, due to the comparatively large size of the 12:17 cells, the calculated three dimensional domain-wall curvature is sufficiently large to assure a nearly ideal nestling of the domain walls to the 1:5 cell boundary. This nestling yields a coercivity increase from about 0.1 to about 1 T and is therefore responsible for the high coercivity of 2:17 based Sm–Co magnets.

Ralph Skomski | R. Skomski

[1] B. A. Calhoun,et al. Ferromagnetic materials , 1955 .

[2] Sander,et al. Film Stress and Domain Wall Pinning in Sesquilayer Iron Films on W(110). , 1996, Physical review letters.

[3] R. Mishra,et al. Microstructures of precipitation‐hardened SmCo permanent magnets , 1982 .

[4] J. Livingston,et al. Microstructure of aged (Co,Cu,Fe)7Sm magnets , 1977 .

[5] J. Weber,et al. A new model for the coercivity mechanism of Sm/sub 2/(Co,Fe,Cu,Zr)/sub 17/ magnets , 1996 .

[6] J. Fidler,et al. Coercivity of precipitation hardened cobalt rare earth 17:2 permanent magnets , 1982 .

[7] J. Coey,et al. Giant energy product in nanostructured two-phase magnets. , 1993, Physical review. B, Condensed matter.