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Effect of HSMF on Electrodeposited Ni-Fe Membrane-- Crystal Morphology and Magnetism Performance

German-Sino Workshop on EPM, October, 16-19, 2005, Dresden, Germany. Effect of HSMF on Electrodeposited Ni-Fe Membrane-- Crystal Morphology and Magnetism Performance. Yunbo Zhong , Yanling Wen, Zhongming Ren, Kang Deng, Kuangdi Xu

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Effect of HSMF on Electrodeposited Ni-Fe Membrane-- Crystal Morphology and Magnetism Performance

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  1. German-Sino Workshop on EPM, October, 16-19, 2005, Dresden, Germany Effect of HSMF on Electrodeposited Ni-Fe Membrane-- Crystal Morphology and Magnetism Performance Yunbo Zhong, Yanling Wen, Zhongming Ren, Kang Deng, Kuangdi Xu Shanghai Key Laboratory of Modern Metallurgy & Material Processing

  2. Electrochemical Crystallization in HSMF Charge Transfer Influence on mass transport MHD effect  E0 Influence on Surface Diffusion、Necleation、Crystal Growth? H2O Me2+ Surface Diffusion Influence on electron transfer kinetics? Nucleation Crystal Growth Metal Membrane Boundary Layer Bulk Solution

  3. Variation of Free Energy in the process of Electro-deposition of NiFe membrane Magnetic susceptibility (χ) of Ni and Fe atoms are higher than that of other non magnetism atoms The χ data is very lacking, and the magnetism of ions in solution are not very clear

  4. Thermocouple - + Nitrogen Quartz Pipe Fix Block Electrode Heater Electrolyte Heat Insulator Supercon-ductive Coil B Water-cooling Pipe B I B//I Sketch Map of Experimental Equipment PID Temperature Controller B Magnetic Field Center I Nickel Plate B⊥I Copper Foil

  5. Distribution of High Static Magnetic Field

  6. B I Effect of magnetic field on electrodeposited Ni-Fe membrane When I⊥B Magnetic Field Center

  7. 0T 4T 6T 8T 10T 12T SurfaceSEM pictures of NiFe membrane electrodeposited in various magnetic fields(J=4A/dm2)

  8. B 4T 6T 0T 8T 10T 12T Across-section SEM pictures of NiFe membrane electrodeposited in various magnetic fields(J=4A/dm2) ( -electrodeposit growth direction )

  9. (111) (111) (200) (200) (220) (220) Strength ratio of three main peaks: I(111):I(200):I(220)= ( 0T)100:54.3:4.3; (04T)100:24.7:6.2; (06T)100:26.9:6.4; (08T)100:28.8:7.1; (10T)100:28.2:8.4; (12T)100:19.1:6.6 XRD patterns of the NiFe membranes electrodeposited in different magnetic flux density

  10. Crystal Orientation Discussion M -Crystal orientation coefficient; I(hkl) -Measured value of the (hkl) plane diffraction peaks; I0(hkl) -Standard value of the (hkl) plane diffraction peaks in PDF card;

  11. Effect of MFD on Crystal Orientation Coefficient

  12. 0T 6T 10T 12T EDS analysis of the samples electrodeposited in different magnetic fields (Fe wt%= 0T-12.71%; 6T-14.99%; 10T-23.32%; 12T-26.10%.)

  13. The relation between saturation magnetization of the samples and preparation magnetic flux density

  14. B I B//I Effect of magnetic field on electrodeposited Ni-Fe membrane When B//I Magnetic Field Center

  15. 0T 4T 6T 8T 10T 12T SEM pictures of the surface of NiFe membrane electrodeposited in parallel magnetic fields(J=4A/dm2)

  16. 4T 0T 6T 8T 10T 12T B J SEM pictures of the across-section of NiFe membrane electrodeposited in parallel magnetic fields (J=4A/dm2)

  17. XRD patterns of the NiFe membranes electrodeposited in different static magnetic fields (Strength ratio of three main peaks: I(111):I(200):I(220)= (0T)100:41.1:4.5; (6T)100:25.8:6.6; (10T)100:27.2:7.6; (12T)100:26.1:7.4)

  18. Analysis of crystal orientation coefficient of the samples

  19. 6T 0T 10T 12T EDS analysis of the samples electrodeposited in different magnetic fields (Fe wt%= 0T-14.13%; 6T-14.12%; 10T-15.17%; 12T-14.47%.)

  20. The relation between saturation magnetization of the samples and preparation magnetic field

  21. 0T 10T

  22. c a b d e SEM pictures of the surface of NiFe membrane electrodeposited without magnetic field (J= a-1A/dm2; b-2A/dm2; c-3A/dm2; d-4A/dm2; e-6A/dm2)

  23. d a b c e FSEM pictures of the across-section of NiFe membrane electrodeposited without magnetic field (J= a-1A/dm2; b-2A/dm2; c-4A/dm2; d-5A/dm2; e-6A/dm2)

  24. a b c d e f Fig.17-a SEM pictures of the surface of NiFe membrane electrodeposited in 10T static magnetic field (J= a-1A/dm2; b-2A/dm2; c-3A/dm2; d-4A/dm2; e-5A/dm2; f-6A/dm2)

  25. a b d c SEM pictures of the across-section of NiFe membrane electrodeposited in 10T static magnetic field (J= a-2A/dm2; b-3A/dm2; c-4A/dm2; d-6A/dm2)

  26. B I FE FL Sketch Map of Nucleation and Crystal Growth when B⊥I In Homogeneous Magnetic Field Trajectory of Ions Sphere Crystal nucleus Metal atom Hydration Ions Metal Crystal Outer Helmholtz area Trajectory of Ions Boundary Layer Bulk solution (a) 0T (b) B1(B1≠0T) B2(B2≥10T)

  27. Sketch Map of Nucleation and and Crystal Growth when B//I In Homogeneous Magnetic Field Direction of magnetic field (B) Magnetic field Anode Bubble Direction of electric field (I) Initial velocity (v0) Cathode Migration of atoms in Horizontal direction

  28. Electro-depostion of NiFe Membrane in Gradient Magnetic Field +400T2/m 0 -400T2/m

  29. B I B//I Sketch Map of Nucleation and and Crystal Growth when B//I and in Gradient Magnetic Field J B

  30. Conclusions • In HSMF, Strengthened MHD effect may influence the crystal morphology of electrodeposited NiFe membrane remarkably, so do the mass transfer process; • Both perpendicular and parallel magnetic field can make the crystal (111) plane texture reinforced; • The iron contents and the saturation magnetization were increased in perpendicular magnetic field but unchanged in parallel one .

  31. Thank you for your attentions!

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