Title :
Thermoelectric tensor and figure of merit for a composite medium: some exact bounds
Author :
Bergman, David J.
Author_Institution :
Sch. of Phys. & Astron., Tel Aviv Univ., Israel
Abstract :
Thermoelectric transport in a macroscopically heterogeneous or composite medium is considered for the most general case of n anisotropic components mixed together with an arbitrary microstructure (i.e., not necessarily disordered or isotropic or cubic, so that the macroscopic behavior can be anisotropic too). A figure-of-merit-tensor (FMT) is defined that generalizes the usual scalar figure of merit. Some general bounds are derived for the bulk effective electrical conductivity and heat conductivity tensors, and also for the FMT. In particular, it is proven that the figure of merit of any composite can never be greater than the largest figure of merit of any of its components
Keywords :
composite materials; electrical conductivity; thermal conductivity; thermoelectricity; anisotropic components; bulk effective electrical conductivity; composite medium; figure of merit; figure-of-merit-tensor; heat conductivity tensors; macroscopically heterogeneous medium; scalar figure of merit; thermoelectric tensor; thermoelectric transport; Anisotropic magnetoresistance; Conductivity; Entropy; Magneto electrical resistivity imaging technique; Microstructure; Resistance heating; Symmetric matrices; Temperature; Tensile stress; Thermoelectricity;
Conference_Titel :
Thermoelectrics, 1997. Proceedings ICT '97. XVI International Conference on
Conference_Location :
Dresden
Print_ISBN :
0-7803-4057-4
DOI :
10.1109/ICT.1997.667164
