1. The effect of the interface on the dc transport properties of nonlinear composite materials
- Author
-
D. R. S. Talbot and Robert Lipton
- Subjects
Materials science ,Contact resistance ,General Physics and Astronomy ,Field strength ,SPHERES ,Electric potential ,Composite material ,Electric current ,Current density ,Electrical conductor ,Surface energy - Abstract
The effects of the interface separating two strongly nonlinear electric conductors is investigated. The interface may either be highly conducting or exhibit an electric contact resistance. Our analysis and results are based upon new variational principles for nonlinear composites with surface energies. For monodisperse suspensions of spheres separated from the matrix by a highly conducting interface, a critical direct-current (dc) applied field strength is found for which the electric potential inside the sample is the same as for a sample containing no spheres. For this field strength the overall electric current passing through the sample is the same as for a sample containing pure matrix conductor. When there is a contact resistance between the matrix and sphere phase, a critical dc applied current density is found for which the current density inside the sample is the same as for a sample containing no spheres. These results are shown to be independent of the location of the spheres within the sample....
- Published
- 1999
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