Article ID Journal Published Year Pages File Type
668871 International Journal of Thermal Sciences 2012 4 Pages PDF
Abstract

We present a method to obtain temperature dependence of thermal conductance between aluminum and water. The temperature dependence of thermal boundary conductance (TBC) including phonon–phonon interactions and electron–phonon interactions is predicted. The contribution from phonon–phonon interactions is calculated by molecular dynamics (MD) simulation. With time-domain thermo-reflectance experiments, the thermal conductance of electron–phonon interactions is extracted. The temperature dependence of total thermal conductance is calculated by combining the thermal conductance contributed by phonon–phonon interactions and electron–phonon interactions. Thermal boundary conductance increases as temperature increases from 273 K to 373 K.

► A method to predict the temperature dependence of thermal boundary conductance. ► Phonon–phonon interactions are calculated by MD simulations. ► Electron–phonon interactions are extracted with the help of experiments (TDTR). ► Thermal boundary conductance increases moderately between 273 K and 373 K.

Related Topics
Physical Sciences and Engineering Chemical Engineering Fluid Flow and Transfer Processes
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