This work contains three major components: a thorough review on the research emphasizing engineering applications of the thermal wave theory, special features in thermal wave propagation, and the thermal wave model in relation to the microscopic two-step model. For the sake of convenience, the research works are classified according to their individual emphases. Special features in thermal wave propagation include the sharp wavefront and rate effects, the thermal shock phenomenon, the thermal resonance phenomenon, and reflections and refractions of thermal waves across a material interface. By employing the dual-phase-lag concept, we show that the energy equation may be reduced to that governing the heat transport through the metal lattice in the microscopic two-step model. The dual-phase-lag concept can thus capture the microscopic mechanisms in some limiting cases.

Issue Section:
Invited Review Paper
Keywords:
Conduction, Reviews, Transient and Unsteady Heat Transfer
Topics:
Heat conduction, Wave theory of light, Wave propagation, Waves, Engineering systems and industry applications, Heat, Heat transfer, Metals, Reflection, Resonance, Thermal shock, Transients (Dynamics)
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Copyright © 1994
 by The American Society of Mechanical Engineers
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