The effect of the contact conductance on micro-scale heat transport in a multi-layered metal thin-film subjected to ultra-fast pulse laser heating is investigated in this study. The interfacial contact conductance existing at the interface is included in the analysis. The parabolic two-step (PTS) model is applied to predict the electron and lattice temperature. The equations can be solved by Laplace transform and the Riemann-sum approximation. The results show that the contact conductance plays an important role in the micro-scale heat transport processes for a multi-layered metal thin-film. Hence, in order to eliminate the thermal failure of the surface layer, the thermal resistance existing at the interface should be as small as possible.

Volume Subject Area:
Interfacial Heat Transfer
Topics:
Electrical conductance, Metals, Thin films, Heat, Microscale devices, Approximation, Electrons, Failure, Heating, Laplace transforms, Lasers, Temperature, Thermal resistance, Transport processes
This content is only available via PDF.
Copyright © 2008
 by ASME
You do not currently have access to this content.