Magnetomechanical properties and anisotropy compensation in quaternary rare earth-iron materials of the type Tb/sub x/Dy/sub y/Ho/sub z/Fe/sub 2/

Busbridge S.C.; Piercy A.R.

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Magnetomechanical properties and anisotropy compensation in quaternary rare earth-iron materials of the type Tb/sub x/Dy/sub y/Ho/sub z/Fe/sub 2/

机译：Tb / sub x / Dy / sub y / Ho / sub z / Fe / sub 2 /的四元稀土铁材料的磁机械性能和各向异性补偿

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The static and dynamic magnetomechanical properties, in the temperature range -60/spl deg/C to +100/spl deg/C, of quaternary compositions of the type Tb/sub x/Dy/sub y/Ho/sub z/Fe/sub 2/ (x+y+z=1) which have K/sub 1/ close to zero at +20/spl deg/C are presented. The maximum room temperature values of d/sub 33/ (7.9 nm A/sup -1/) and k/sub 33/(0.62) are achieved for Tb/sub 0.20/Dy/sub 0.22/Ho/sub 0.58/Fe/sub 2/, the composition for which K/sub 2/ is also close to zero at +20/spl deg/C. Calculations performed with an anisotropy model including an eighth-order term show a 20 fold decrease in the anisotropy of Tb/sub 0.20/Dy/sub 0.22/Ho/sub 0.58/Fe/sub 2/ in comparison with Terfenol-D. This decrease is not as effective in improving material performance as the opposing influence of the reduction in saturation magnetostriction.

机译：Tb / sub x / Dy / sub y / sub y / Ho / sub z / Fe /的四元组成在-60 / spl deg / C至+ 100 / spl deg / C的温度范围内的静态和动态磁机械性能给出在+ 20 / spl deg / C下K / sub 1 /接近零的sub 2 /（x + y + z = 1）。对于Tb / sub 0.20 / Dy / sub 0.22 / Ho / sub 0.58 / Fe /，可达到d / sub 33 /（7.9 nm A / sup -1 /）和k / sub 33 /（0.62）的最大室温值。 sub 2 /，K / sub 2 /在+ 20 / spl deg / C时也接近于零的组成。用包括八阶项的各向异性模型进行的计算显示，与Terfenol-D相比，Tb / sub 0.20 / Dy / sub 0.22 / Ho / sub 0.58 / Fe / sub 2 /的各向异性降低了20倍。这种降低在改善材料性能方面不如减少饱和磁致伸缩的相反影响那么有效。

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《IEEE Transactions on Magnetics》 |1995年第6期|P.4044-4046|共3页
作者
Busbridge S.C.; Piercy A.R.;
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中图分类磁性材料、铁氧体;
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机译：晶粒取向稀土 - 铁合金的渗透性，磁机械耦合和磁致伸缩，

Magnetomechanical properties and anisotropy compensation in quaternary rare earth-iron materials of the type Tb/sub x/Dy/sub y/Ho/sub z/Fe/sub 2/

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