论文信息 - Effect of Magnetic Coating Layer Thickness on the Magnetic Properties of Electrodeposited NiFe/Cu Composite Wires

Effect of Magnetic Coating Layer Thickness on the Magnetic Properties of Electrodeposited NiFe/Cu Composite Wires

One critical factor affecting the performance of nanocrystalline electrodeposited Ni80Fe20/Cu composite wires as the sensing elements of magnetoimpedance (MI) effect sensors or orthogonal fluxgate sensors is the thickness of the magnetic coating layer. In this study, the effect of the deposited layer thickness on the material composition, grain size, uniformity, coercivity, and the wire's MI effect has been investigated. Electrodeposited Ni80Fe20/Cu wire samples of 20 mum in diameter coated with a layer of Ni80Fe20 of thicknesses ranging from 1-12 mum were developed and characterized. The results showed that: 1) the Fe concentration of deposited Ni-Fe decreased with increasing thickness, 2) the deposited materials uniformity increased with increasing thickness, and 3) the deposited material grain size increased with increasing thickness. As a combined effect of the three, the deposited materials coercivity seemed to remain unchanged as the thickness varied. However, the MI effect of the composite wire varied with the thickness, which could mainly be due to the geometrical effect caused by the coating thickness variation

[1] W. C. Ng,et al. Development of high permeability nanocrystalline permalloy by electrodeposition , 2005 .

[2] V. Kieling,et al. Parameters influencing the electrodeposition of Ni-Fe alloys , 1997 .

[3] M. Vázquez,et al. Giant magneto-impedance in soft magnetic ``Wires'' , 2001 .

[4] G. Herzer,et al. Grain size dependence of coercivity and permeability in nanocrystalline ferromagnets , 1990, International Conference on Magnetics.

[5] A. Zhukov,et al. Circular magnetic bistability induced by tensile stress in glass-covered amorphous microwires , 2003 .

[6] K. S. Lee,et al. Current density effect on magnetic properties of nanocrystalline electroplated Ni80Fe20/Cu composite wires , 2006 .

[7] A. Granovsky,et al. Theory of giant magneto-impedance effect in composite amorphous wire , 1997 .

[8] S. Atalay,et al. Giant magnetoimpedance effect in NiFe/Cu plated wire with various plating thicknesses , 2005 .

[9] Tsuyoshi Uchiyama,et al. Giant magneto-impedance (GMI) in amorphous wire, single layer film and sandwich film , 1996 .

[10] D. Weiss,et al. Electrodeposition of NiFe and Fe nanopillars , 2001 .