Perfect thermal contact

Perfect thermal contact of the surface of a solid with the environment (convective heat transfer) or another solid occurs when the temperatures of the mating surfaces are equal.

Perfect thermal contact supposes that on the boundary surface ${\displaystyle A}$ there holds an equality of the temperatures

${\displaystyle T{|}_A=T_e{|}_A}$

and an equality of heat fluxes

${\displaystyle -k\frac{\partial T}{\partial n}{|}_A=-k_e\frac{\partial T_e}{\partial n}{|}_A}$

where ${\displaystyle T,T_e}$ are temperatures of the solid and environment (or mating solid), respectively; ${\displaystyle k,k_e}$ are thermal conductivity coefficients of the solid and mating laminar layer (or solid), respectively; ${\displaystyle n}$ is normal to the surface ${\displaystyle A}$.

If there is a heat source on the boundary surface ${\displaystyle A}$, e.g. caused by sliding friction, the latter equality transforms in the following manner

${\displaystyle -k\frac{\partial T}{\partial n}{|}_A+k_e\frac{\partial T_e}{\partial n}{|}_A=q}$

where ${\displaystyle q}$ is heat-generation rate per unit area.

• H. S. Carslaw, J. C. Jaeger (1959). Conduction of heat in solids. Oxford: Clarendon Press.
• M. Shillor, M. Sofonea, J. J. Telega (2004). Models and analysis of quasistatic contact. Variational methods. Berlin: Springer.