Shape Morphing Adaptive Radiator Technology (SMART) Updates to Techport Entry

The Shape-Morphing Adaptive Radiator Technology (SMART) project builds off the FY16 research effort that developed a flexible composite radiator panel and demonstrated its ability to actuate from SMA’s attached to it. The proposed FY17 Shape-Morphing Adaptive Radiator Technology (SMART) project’s goal is to 1) develop a practical radiator design with shape memory alloys (SMAs) bonded to the radiator’s panel, and 2) build a multi-panel radiator prototype for subsequent system level thermal vacuum tests. The morphing radiator employs SMA materials to passively change its shape to adapt its rate of heat rejection to vehicle requirements. Conceptually, the radiator panel has a naturally closed position (like a cylinder) in a cold environment. Whenever the radiator’s temperature gradually rises, SMA’s affixed to the face sheet will pull the face sheet open a commensurate amount – increasing the radiators view to space and causing it to reject more heat. In a vehicle, the radiator’s variable heat rejection capabilities would reduce the number of additional heat rejection devices in a vehicle’s thermal control system. This technology aims to help achieve the required maximum to minimum heat rejection ratio required for manned space vehicles to adopt a lighter, simpler, single loop thermal control architecture (ATCS). Single loop architectures are viewed as an attractive means to reduce mass and complexity over traditional dual-loop solutions. However, fluids generally considered safe enough to flow within crewed cabins (e.g. propylene glycol-water mixtures) have much higher freezing points and viscosities than those used in the external sides of dual loop ATCSs (e.g. Ammonia and HFE7000).