Aerogel is among the best solid thermal insulators. Aerogel is a silica gel formed by supercritical extraction which results in a porous open cell solid insulation with a thermal conductivity as low as . Aerogels have a wide range of uses such as insulation for windows, vehicles, refrigerators∕freezers, etc. Usage for aerogel can be extended for use where flexibility is needed, such as apparel, by embedding it into a polyester batting blanket. These aerogel blankets, although flexible, have little resistance to compression and experience a residual strain effect upon exposure to elevated pressures. It was suggested, by Aspen Aerogels Inc., that a prototype aerogel blanket would have increased resistance to compression and minimized residual strain upon exposure to elevated pressures. Samples of prototype and normal product-line aerogel insulating blankets were acquired. These materials were separately tested for thermal conductivity and compressive strain at incremental pressure stops up to . The compressive strain of the prototype aerogel blanket reached a level of whereas the product-line aerogel blanket compressed to at . Before compression, the thermal conductivity of the prototype aerogel blanket was slightly higher than the product-line aerogel blanket. During compression the thermal conductivity increased 46% for the product-line aerogel blanket whereas it increased only 13% for the prototype aerogel blanket at . The total thermal resistance decreased 64% for the product-line aerogel blanket at and remained at that value upon decompression to atmospheric pressure. The total thermal resistance of the prototype aerogel blanket decreased 33% at and returned to within 1% of its initial value upon decompression to atmospheric pressure. It was found that the prototype aerogel blanket has approximately twice as much resistance to hydrostatic compression to a pressure of and also recovers to its original state upon decompression. The thermal resistance of the prototype aerogel blanket remained 37% higher than the product-line aerogel blanket at . This resistance to compression and the ability to recover to its original state upon decompression from elevated pressures makes the prototype aerogel blanket suitable for applications where high insulation, resistance to compression, and recovery after a compression cycle is needed.
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Thermal Conductivity and Compressive Strain of Aerogel Insulation Blankets Under Applied Hydrostatic Pressure
Erik R. Bardy,
Erik R. Bardy
Department of Mechanical Engineering,
e-mail: erbardy@gcc.edu
Grove City College
, 100 Campus Drive, Grove City, PA 16127-2104
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Joseph C. Mollendorf,
Joseph C. Mollendorf
Department of Mechanical and Aerospace Engineering,
e-mail: molendrf@buffalo.edu
State University of New York at Buffalo
, 318 Jarvis Hall, Buffalo, NY 14260-2000; Department of Physiology and Biophysics Center for Research and Education in Special Environments, State University of New York at Buffalo
, 124 Sherman Hall, Buffalo, NY 14214-3005
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David R. Pendergast
David R. Pendergast
Department of Mechanical and Aerospace Engineering,
e-mail: dpenderg@buffalo.edu
State University of New York at Buffalo
, 318 Jarvis Hall, Buffalo, NY 14260-2000; Department of Physiology and Biophysics Center for Research and Education in Special Environments, State University of New York at Buffalo
, 124 Sherman Hall, Buffalo, NY 14214-3005
Search for other works by this author on:
Erik R. Bardy
Department of Mechanical Engineering,
Grove City College
, 100 Campus Drive, Grove City, PA 16127-2104e-mail: erbardy@gcc.edu
Joseph C. Mollendorf
Department of Mechanical and Aerospace Engineering,
State University of New York at Buffalo
, 318 Jarvis Hall, Buffalo, NY 14260-2000; Department of Physiology and Biophysics Center for Research and Education in Special Environments, State University of New York at Buffalo
, 124 Sherman Hall, Buffalo, NY 14214-3005e-mail: molendrf@buffalo.edu
David R. Pendergast
Department of Mechanical and Aerospace Engineering,
State University of New York at Buffalo
, 318 Jarvis Hall, Buffalo, NY 14260-2000; Department of Physiology and Biophysics Center for Research and Education in Special Environments, State University of New York at Buffalo
, 124 Sherman Hall, Buffalo, NY 14214-3005e-mail: dpenderg@buffalo.edu
J. Heat Transfer. Feb 2007, 129(2): 232-235 (4 pages)
Published Online: April 21, 2006
Article history
Received:
November 1, 2005
Revised:
April 21, 2006
Citation
Bardy, E. R., Mollendorf, J. C., and Pendergast, D. R. (April 21, 2006). "Thermal Conductivity and Compressive Strain of Aerogel Insulation Blankets Under Applied Hydrostatic Pressure." ASME. J. Heat Transfer. February 2007; 129(2): 232–235. https://doi.org/10.1115/1.2424237
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