Title :
Modeling of thermal conductivity of nanofiber-based nanocomposite
Author :
Prasher, Ravi S. ; Sinha, Sanjiv
Author_Institution :
Assembly Technol. Dev., Intel Corp., Chandler, AZ
fDate :
May 30 2006-June 2 2006
Abstract :
Two-dimensional composite materials made from aligned nano- and micro-fibers and wires hold great promise for various applications. We develop an analytical model for the thermal conductivity in the longitudinal direction of these composites by solving the phonon Boltzmann transport equation. The analytical model agrees well with a recently reported numerical model. The solution of Boltzmann transport equation shows that the scattering of phonons in the host medium at the fiber interface reduces the thermal conductivity of the host medium. Finally we show that the model predicts the data on the thermal diffusivity of bismuth-telluride nanowire/alumina composites reasonably
Keywords :
Boltzmann equation; aluminium compounds; bismuth compounds; fibre reinforced composites; nanocomposites; nanowires; phonon dispersion relations; tellurium compounds; Boltzmann transport equation; aligned microfibers; aligned nanofiber; analytical model; composite materials; fiber interface; nanofiber-based nanocomposite; phonons scattering; thermal conductivity; thermal diffusivity; Analytical models; Boltzmann equation; Composite materials; Nanocomposites; Numerical models; Phonons; Predictive models; Scattering; Thermal conductivity; Wires;
Conference_Titel :
Thermal and Thermomechanical Phenomena in Electronics Systems, 2006. ITHERM '06. The Tenth Intersociety Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-9524-7
DOI :
10.1109/ITHERM.2006.1645488
