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ID No : 1025   Edit
Title: Heat Rejection Systems Utilizing Composites and Heat Pipes: Design and Performance Testing
Summary / Review : "Polymer matrix composites offer the promise of reducing the mass and increasing the performance of future heat rejection systems. With lifetimes for heat rejection systems reaching a decade or more in a micrometeoroid environment, use of multiple heat pipes for fault tolerant design is compelling. The combination of polymer matrix composites and heat pipes is of particular interest for heat rejection systems operating on the lunar surface. A technology development effort is under way to study the performance of two radiator demonstration units manufactured with different polymer matrix composite face sheet resin and bonding adhesives, along with different titanium-water heat pipe designs. Common to the two radiator demonstration units is the use of high thermal conductivity fibers in the face sheets and high thermal conductivity graphite saddles within a light weight aluminum honeycomb core. Testing of the radiator demonstration units included thermal vacuum exposure and thermal vacuum exposure with a simulated heat pipe failure. Steady state performance data were obtained at different operating temperatures to identify heat transfer and thermal resistance characteristics. Heat pipe failure was simulated by removing the input power from an individual heat pipe in order to identify the diminished performance characteristics of the entire panel after a micrometeoroid strike. Freeze-thaw performance was also of interest. This paper presents a summary of the two radiator demonstration units manufactured to support this technology development effort along with the thermal performance characteristics obtained to date. Future work will also be discussed." (Author's abstract)
Author(s) : Jaworske, Donald A.; Beach, Duane E.; Sanzi, James L., [Glenn Research Center]
Publication Date: 2007
Category(s) : Bases, industry and manufacturing / Power / Thermal / Radiators
Web URL : http://hdl.handle.net/2060/20090007816
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NTRS : 20090007816
Other Ref # : E-15974
Submitted by : MEP
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