H. Hahn scite author profile

Mixture equations relate the effective macroscopic electromagnetic properties (dielectric constant and magnetic permeability) of a composite material to the intrinsic microscopic electromagnetic properties of its constituents. The predictions of mixture equations in popular use generally agree with each other when particles are widely separated (small volume fraction), but begin to diverge when the volume fraction of particles in the composite is greater than 10%. This paper reviews the assumptions and characteristics of different representative mixture equations. The validity of these mixture equations for application to magnetic composites was tested by comparing their predictions of macroscopic electromagnetic properties to VHF and UHF measurements of these properties for a series of well-characterized dielectric-magnetic composite samples comprised of ferrite particles in an epoxy binder. The investigation emphasized the parameter regimes where large disparities between the predictions of the various equations exist, namely, large volume fraction of particles, complex dielectric constant and magnetic permeability (lossy material), and large contrast ratio between particle and binder properties. Correlation and lack of correlation between the mixture equation predictions and experimental data are shown.

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Diffusion in Nanocrystalline Materials

Höfler¹,

Hahn²,

Averback

1991

DDF

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Diffusion and Low Temperature Deformation by Diffusional Creep of Nanocrystalline Materials

Birringer

Hahn²,

Höfler³

et al. 1991

DDF

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The Mechanism of Uranium Extraction by Tributyl Phosphate

Hahn¹

1957

J. Am. Chem. Soc.

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Mechanism of Uranium Extractionby Tributyl Phosphate 4625 plex. On the other hand, the hindrance which one methyl group of the 2-picoline offers does not interfere sterically with the complex formation and since this amine is a stronger base than pyridine, correspondingly stronger complexes are formed with the iodine halides. In a polar solvent, such as acetonitrile, the complexes undergo an ionic dissociation 2B-IX-> B2I+ + IX2" while in non-polar carbon tetrachloride we haveThis difference in the mode of dissociation of the polyhalogen complexes depending on the polarity of the solvent has been observed previously in the case of phosphorus polyhalides PClel and PBrel.16 Acknowledgment.-The authors are indebted to the Research Corporation for the support of this work.

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H. Hahn

Thin-layer electromagnetic absorber design

Validation of mixture equations for dielectric-magnetic composites

Diffusion in Nanocrystalline Materials

Diffusion and Low Temperature Deformation by Diffusional Creep of Nanocrystalline Materials

The Mechanism of Uranium Extraction by Tributyl Phosphate

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