Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.

This study analyzes the use of a carbon fiber epoxy heat sink for evaporator surface enhancement in a FC- 72 thermosyphon. The pin-fin heat sink features 945 small-cross-section (1.27 mm by 0.965 mm) fins fabricated with an integral base plate. These fins have a high thermal conductivity (500 W/m K)...

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Main Authors: Gandikota, Venugopal., Jones, Gerard F., Fleischer, Amy S.
Format: Villanova Faculty Authorship
Language:English
Published: 2000
Online Access:http://ezproxy.villanova.edu/login?url=https://digital.library.villanova.edu/Item/vudl:177540
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spelling Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
Gandikota, Venugopal.
Jones, Gerard F.
Fleischer, Amy S.
This study analyzes the use of a carbon fiber epoxy heat sink for evaporator surface enhancement in a FC- 72 thermosyphon. The pin-fin heat sink features 945 small-cross-section (1.27 mm by 0.965 mm) fins fabricated with an integral base plate. These fins have a high thermal conductivity (500 W/m K) along the length of the fin. The influence of heat load, thermosyphon fill volume, and condenser operating temperature on the overall thermal performance is examined. The results of this experiment provide significant insight into the possible implementation and potential benefits of carbon-fiber heat sink technology in two-phase flow leading to significant improvements in thermal management strategies for advanced electronics.
2000-11-15
Villanova Faculty Authorship
vudl:177540
Experimental Thermal and Fluid Science 34, 2010, 554-561.
en
dc.title_txt_mv Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
dc.creator_txt_mv Gandikota, Venugopal.
Jones, Gerard F.
Fleischer, Amy S.
dc.description_txt_mv This study analyzes the use of a carbon fiber epoxy heat sink for evaporator surface enhancement in a FC- 72 thermosyphon. The pin-fin heat sink features 945 small-cross-section (1.27 mm by 0.965 mm) fins fabricated with an integral base plate. These fins have a high thermal conductivity (500 W/m K) along the length of the fin. The influence of heat load, thermosyphon fill volume, and condenser operating temperature on the overall thermal performance is examined. The results of this experiment provide significant insight into the possible implementation and potential benefits of carbon-fiber heat sink technology in two-phase flow leading to significant improvements in thermal management strategies for advanced electronics.
dc.date_txt_mv 2000-11-15
dc.format_txt_mv Villanova Faculty Authorship
dc.identifier_txt_mv vudl:177540
dc.source_txt_mv Experimental Thermal and Fluid Science 34, 2010, 554-561.
dc.language_txt_mv en
author Gandikota, Venugopal.
Jones, Gerard F.
Fleischer, Amy S.
spellingShingle Gandikota, Venugopal.
Jones, Gerard F.
Fleischer, Amy S.
Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
author_facet Gandikota, Venugopal.
Jones, Gerard F.
Fleischer, Amy S.
dc_source_str_mv Experimental Thermal and Fluid Science 34, 2010, 554-561.
format Villanova Faculty Authorship
author_sort Gandikota, Venugopal.
dc_date_str 2000-11-15
dc_title_str Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
description This study analyzes the use of a carbon fiber epoxy heat sink for evaporator surface enhancement in a FC- 72 thermosyphon. The pin-fin heat sink features 945 small-cross-section (1.27 mm by 0.965 mm) fins fabricated with an integral base plate. These fins have a high thermal conductivity (500 W/m K) along the length of the fin. The influence of heat load, thermosyphon fill volume, and condenser operating temperature on the overall thermal performance is examined. The results of this experiment provide significant insight into the possible implementation and potential benefits of carbon-fiber heat sink technology in two-phase flow leading to significant improvements in thermal management strategies for advanced electronics.
title Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
title_full Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
title_fullStr Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
title_full_unstemmed Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
title_short Thermal performance of a carbon fiber composite material heat sink in an FC-72 thermosyphon.
title_sort thermal performance of a carbon fiber composite material heat sink in an fc-72 thermosyphon.
publishDate 2000
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language English
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