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LIU Long-ping, ZHAO Zhen-jie, RUAN Jian-zhong, WANG Rui-li, YANG Xie-long, . Longitudinally Driven Magneto-impedance Effect on Glass-covered Fe-based Nanocrystalline Microwires[J]. Journal of East China Normal University (Natural Sciences), 2004, (1): 45-48.
Citation:
LIU Long-ping, ZHAO Zhen-jie, RUAN Jian-zhong, WANG Rui-li, YANG Xie-long, . Longitudinally Driven Magneto-impedance Effect on Glass-covered Fe-based Nanocrystalline Microwires[J]. Journal of East China Normal University (Natural Sciences), 2004, (1): 45-48.
LIU Long-ping, ZHAO Zhen-jie, RUAN Jian-zhong, WANG Rui-li, YANG Xie-long, . Longitudinally Driven Magneto-impedance Effect on Glass-covered Fe-based Nanocrystalline Microwires[J]. Journal of East China Normal University (Natural Sciences), 2004, (1): 45-48.
Citation:
LIU Long-ping, ZHAO Zhen-jie, RUAN Jian-zhong, WANG Rui-li, YANG Xie-long, . Longitudinally Driven Magneto-impedance Effect on Glass-covered Fe-based Nanocrystalline Microwires[J]. Journal of East China Normal University (Natural Sciences), 2004, (1): 45-48.
Amorphous Fe73.0Cu1.0Nb1.5V2.0Si13.5B9.0 microwires were prepared by glass-coated melt-spinning technique. Nanocrystalline samples were obtained by annealing the amorphous wires at appropriate temperatures and the longitudinally driven giant magneto-impedance effect has also been investigated for the first time. The result showed that the maximal magneto- impedance value was 1020% obtained in the sample annealed at 5700℃.