The giant magnetoimpedance (GMI) effect in Fe89Zr7-xHfxB4 (x=0.5 or 1.0) ribbon annealed at different temperatures was investigated. The results show that some addition of hafnium to Fe-Zr-B raises the GMI effect. There is an optimum annealing temperature about 570 ℃ for obtaining large GMI behavior in Fe89Zr7-xHfxB4 (x=0.5 or 1.0) nanocrystalline ribbons. At 900 kHz, the magnetoimpedance for Fe89Zr6Hf1B4 nanocrystalline ribbon monotonically changes with applied DC field, and reaches -33.4 % at 7 162 A/m. Meanwhile, the results show that the transverse anisotropy field of Fe89Zr6Hf1B4 ribbons decreases with increasing annealing temperature from 520 ℃ to 620 ℃.
参考文献
| [1] | Mohri K.;Kohsawa T. .Magneto-inductive effect (MI effect) in amorphous wires[J].IEEE Transactions on Magnetics,1992(5):3150-3152. |
| [2] | Panina L V;Mohri K;Bushida K et al.Giant Magneto-Im-pedance and Magneto-Inductive Effects in Amorphous Alloys[J].Journal of Applied Physics,1994,76(10):6198-6203. |
| [3] | Beach R S;Berkowitz A E .Giant Magnetic Field Dependent Impedance of Amorphous FeCoSiB Wire[J].Applied Physics Letters,1994(64):3652-3654. |
| [4] | HuJ;Zhang L;Qin L et al.Giant Magnetoimpedance and Pemeability in CoFeNiSiB Amorphous Ribbon[J].Journal of Physics D:Applied Physics,2000,33(05):145-147. |
| [5] | Knobel M;Schoenmaker J;Sinnecker J P.Giant Magne-to-Impedance in Nanocrystalline Fe73.5Cu1Nb3Si13.5B9 and Fe86Zr7B6Cu1 Ribbons[J].Materials Science and Engineering,1997:546-549. |
| [6] | Hu Jifan;Chen Wenzhi;Wang Yizhong;Zhou Shaoxiong .Giant magnetoimpedance effect in Fe-Nb-B ribbon[J].Solid State Communications,1999(10):661-664. |
| [7] | Qin H .Magnetoimpedance Effect of Fe84Zr7B9 Ribbon[J].Journal of Functional Materials,2000,31:40-41. |
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