Hypersonic flight with hydrocarbon-fueled airbreathing propulsion requires sharp leading edges. This generates high temperatures at the leading edge surface, which cannot be sustained by most materials. By integrating a planar heat pipe into the structure of the leading edge, the heat can be conducted to large flat surfaces from which it can be radiated out to the environment, significantly reducing the temperatures at the leading edge and making metals feasible materials. This paper describes a method by which the leading edge thermal boundary conditions can be ascertained from standard hypersonic correlations, and then uses these boundary conditions along with a set of analytical approximations to predict the behavior of a planar leading edge heat pipe. The analytical predictions of the thermostructural performance are verified by finite element calculations. Given the results of the analysis, possible heat pipe fluid systems are assessed, and their applicability to the relevant conditions determined. The results indicate that the niobium alloy Cb-752, with lithium as the working fluid, is a feasible combination for Mach 6–8 flight with a 3 mm leading edge radius.
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Feasibility of Metallic Structural Heat Pipes as Sharp Leading Edges for Hypersonic Vehicles
Craig A. Steeves,
Craig A. Steeves
Postdoctoral Scholar
Department of Materials,
University of California, Santa Barbara
, Santa Barbara, CA 93106
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Ming Y. He,
Ming Y. He
Project Scientist
Department of Materials,
University of California, Santa Barbara
, Santa Barbara, CA 93106
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Scott D. Kasen,
Scott D. Kasen
Graduate Student
Department of Materials Science and Engineering,
University of Virginia
, Charlottesville, VA 22904
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Lorenzo Valdevit,
Lorenzo Valdevit
Assistant Professor
Department of Mechanical and Aerospace Engineering,
University of California, Irvine
, Irvine, CA 92697
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Haydn N. G. Wadley,
Haydn N. G. Wadley
Professor
Department of Materials Science and Engineering,
University of Virginia
, Charlottesville, VA 22904
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Anthony G. Evans
Anthony G. Evans
Professor
Department of Materials,
University of California, Santa Barbara
, Santa Barbara, CA 93106
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Craig A. Steeves
Postdoctoral Scholar
Department of Materials,
University of California, Santa Barbara
, Santa Barbara, CA 93106
Ming Y. He
Project Scientist
Department of Materials,
University of California, Santa Barbara
, Santa Barbara, CA 93106
Scott D. Kasen
Graduate Student
Department of Materials Science and Engineering,
University of Virginia
, Charlottesville, VA 22904
Lorenzo Valdevit
Assistant Professor
Department of Mechanical and Aerospace Engineering,
University of California, Irvine
, Irvine, CA 92697
Haydn N. G. Wadley
Professor
Department of Materials Science and Engineering,
University of Virginia
, Charlottesville, VA 22904
Anthony G. Evans
Professor
Department of Materials,
University of California, Santa Barbara
, Santa Barbara, CA 93106J. Appl. Mech. May 2009, 76(3): 031014 (9 pages)
Published Online: March 13, 2009
Article history
Received:
January 25, 2008
Revised:
May 7, 2008
Published:
March 13, 2009
Citation
Steeves, C. A., He, M. Y., Kasen, S. D., Valdevit, L., Wadley, H. N. G., and Evans, A. G. (March 13, 2009). "Feasibility of Metallic Structural Heat Pipes as Sharp Leading Edges for Hypersonic Vehicles." ASME. J. Appl. Mech. May 2009; 76(3): 031014. https://doi.org/10.1115/1.3086440
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