Y. Chen scite author profile

In this work, structure-magnetic property correlations and the magnetostrictive response of mechanically alloyed powders of composition Fe 81 Ga 19 were investigated using a variety of structural and magnetic probes. X-ray diffraction analysis of the as-milled powders suggests the presence of a chemicallydisordered body-centered cubic phase. Thermal annealing of powder compacts results in formation of a secondary phase that demonstrates the cubic ordered L1 2 crystal structure. Magnetostriction measurements indicate that the magnetoelastic properties of the polycrystalline Fe 81 Ga 19 compacts can be tailored by increasing the milling time duration followed by an anneal of the as-milled powders at 900°C for 2 hours in an Ar gas environment (O 2 <5 ppm). Under those conditions, the room temperature saturation magnetostriction was measured to be as high as 41 ppm at a low magnetic field of H app ~10 Oe. The magnetostrictive behavior of the mechanically alloyed Fe 81 Ga 19 powders was found to be comparable with FeGa samples prepared by other non-equilibrium powder processing techniques. Based upon the results presented here, it is proferred that ball-milling offers a cost-effective pathway towards realizing large volumes of FeGa alloys having moderate values of magnetostriction.

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Magnetocrystalline Anisotropy and FMR Linewidth of Zr and Zn-Doped Ba-Hexaferrite Films Grown on MgO (111)

Chen

et al. 2013

IEEE Trans. Magn.

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Analysis of Grain Shape and Orientation in BaFe$_{12}$O$_{19}$-Ferrites Using Electron Backscatter Diffraction (EBSD)

et al. 2009

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Y. Chen

Radio-frequency magnetron sputter-deposited barium hexaferrite films on Pt-coated Si substrates suitable for microwave applications

Magnetic and structural properties of heat-treated high-moment mechanically alloyed MnAlC powders

Structure, magnetism, and magnetostrictive properties of mechanically alloyed Fe81Ga19

Magnetocrystalline Anisotropy and FMR Linewidth of Zr and Zn-Doped Ba-Hexaferrite Films Grown on MgO (111)

Analysis of Grain Shape and Orientation in BaFe$_{12}$O$_{19}$-Ferrites Using Electron Backscatter Diffraction (EBSD)

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