CU Aerospace (CUA) and team partner Lockheed Martin Space (LMS) propose to develop a low-cost cryocooler cold head designed for 5 W cooling at 77 K, and to certify CU Aerospace as a provider of cold head subassemblies to Lockheed Martin in order to reduce cryocooler costs. Materials and materials processing expertise at CUA will be used investigate lower-cost ways to make heat exchangers and regenerators, two of the most expensive components in the cryocooler. At the same time, the geometry of these configurations will be improved relative to the current state of the art. Regenerators typically use stacks of fine-mesh screens or metal felt materials, whereas it is known that regenerators composed of circular pores are predicted to have significantly higher efficiency because of reduced pressure drop in the regenerator. A promising candidate material has been identified which will improve cryocooler efficiency while reducing cost. Heat exchangers often use diffusion bonded stacks of copper screens or drilled holes, while a finned metal design is more efficient and can be manufactured more compactly. Advanced manufacturing methods will be researched to find a solution that offers superior performance while reducing cost. Certifying CUA to provide flight subassemblies will significantly reduce LMâs procurement, receiving & inspection, and assembly costs and allow for production of 50 units per year compared with LMâs present rate of at most 5 units per year for flight cryocoolers. Approved for Public Release | 20-MDA-10643 (3 Dec
