Thermo-mechanical design and characterization of flexible heat pipes

The paper describes the ongoing design, development, testing and characterization of the thermal and mechanical performance of flexible wicked heat pipes, with typical heat handling capacity of about 60 W, water as the working fluid, length of 270 mm and having internal diameters = 10 mm and 6 mm, respectively. The heat pipes are being designed for passive thermal management, wherein heat transfer is required to be coupled with vibration isolation between the evaporator and condenser sections. This prevents the heat pipe, the thermal load, and the heat sink, from getting damaged under required operating conditions. Moreover, precision positioning of thermal load/device is also maintained. The flexibility is provided in the adiabatic section of the heat pipe using a flexible metallic bellow. Experiments are performed to get the axial and angular stiffness of the used bellows and its mechanical response under static loads. A finite element model for the bellow is developed and it is benchmarked against experiments and available design equations. Successful thermal performance for heat pipes under different operating conditions, including bend configurations, is reported and bellow design procedure is outlined. (C) 2017 Elsevier Ltd. All rights reserved.