Recent developments of lightweight, high performance heat pipes
10.1016/j.applthermaleng.2011.09.006
Crossref journal-article
Elsevier BV
Applied Thermal Engineering (78)
Bibliography

Yang, X., Yan, Y. Y., & Mullen, D. (2012). Recent developments of lightweight, high performance heat pipes. Applied Thermal Engineering, 33–34, 1–14.

Authors 3
  1. X. Yang (first)
  2. Y.Y. Yan (additional)
  3. D. Mullen (additional)
References 80 Referenced 141
  1. {'key': '10.1016/j.applthermaleng.2011.09.006_bib1', 'series-title': 'Final Report of Ultra-lightweight Magnesium Heat Pipes for Spacecraft Thermal Management', 'author': 'Rosenfeld', 'year': '2001'} / Final Report of Ultra-lightweight Magnesium Heat Pipes for Spacecraft Thermal Management by Rosenfeld (2001)
  2. 10.1016/S1359-4311(03)00039-5 / Applied Thermal Engineering / Roadmap for developing heat pipes for ALCATEL SPACE's satellites by Hoa (2003)
  3. {'key': '10.1016/j.applthermaleng.2011.09.006_bib3', 'series-title': 'Spacecraft Thermal Control Handbook', 'volume': 'vol. 1', 'year': '2002'} / Spacecraft Thermal Control Handbook (2002)
  4. {'key': '10.1016/j.applthermaleng.2011.09.006_bib4', 'series-title': 'Handbook of Heat Transfer', 'author': 'Rohsenow', 'year': '1998'} / Handbook of Heat Transfer by Rohsenow (1998)
  5. Robert DeHoff, Kevin Grubb. Heat Pipe Application Guidelines. Internal document of Thermacore Inc.
  6. {'key': '10.1016/j.applthermaleng.2011.09.006_bib6', 'series-title': 'Heat Transfer Handbook', 'article-title': 'Heat pipes', 'author': 'Ochterbeck', 'year': '2003'} / Heat Transfer Handbook / Heat pipes by Ochterbeck (2003)
  7. R. Rafferty. TCE Presentation on 9 December 2009. Internal document of Thermacore Europe Ltd.
  8. Wilfried Fischer, Gregor Gammel. Heat pipe with a sintered capillary structure. United States patent, No. 3840069, Oct. 8th, 1974. (Foreign Application Priority Data: Apr. 27th, 1971 Germany, No. 2120475.)
  9. Sebastian William Kessler, James Lee Hess. Flexible heat pipe. United States patent, No. 3604504, Sep. 14th 1971.
  10. 10.1016/j.applthermaleng.2003.08.003 / Applied Thermal Engineering / Experimental study on silicon micro-heat pipe arrays by Launay (2004)
  11. Ryosuke Hata. Composite pipe, process for producing the same, and heat pipe using the same. United States patent, No. 4846264, Jul 11th, 1989. (Foreign Application Priority Data: Dec. 21st, 1984 Japan, No.59–271593.)
  12. Friedrich Baehrle, Helmut Wulf, et al. Heat pipe of aluminium, steel or Gray cast iron. United States patent, No. 4773476, Sep 27th, 1988. (Foreign Application Priority Data: Sep. 15th, 1984 Germany No. 3433984.)
  13. James C. Fletcher, Robert J. Eby, et al. Thermal control system for a spacecraft modular housing. United States patent, No. 3749156, Jul. 31st, 1973.
  14. David W. Almgren, Bartoszek John T, et al. Thermal Control System. United States patent, No. 4388964, Jun 21st, 1983.
  15. Ronald W. Carlsten, Kim Sung J. Integrated heat pipe and circuit board structure. United States patent, No. 5283715, Feb. 1st, 1994.
  16. Raymond George McCready, Philip Eugene Eggers. Heat pipe cooling system for electronic devices. United States patent, No. 4019098, Apr. 19th, 1977.
  17. Thomas A. Austin, Stephen Greer, et al. Integral heat pipe enclosure. United States patent, No. 5884693, Mar. 23rd, 1999.
  18. 10.1016/j.ijheatmasstransfer.2006.06.034 / International Journal of Heat and Mass Transfer / Spatial thermal regulation of aluminium foam heat sink using a sintered porous conductive pipe by Tzeng (2007)
  19. {'issue': '21–22', 'key': '10.1016/j.applthermaleng.2011.09.006_bib19', 'first-page': '4286', 'article-title': 'Measurements of contact angle between R143a and both aluminium and copper surface', 'volume': '50', 'author': 'Vadgama', 'year': '2007', 'journal-title': 'International Journal of Heat and Mass Transfer'} / International Journal of Heat and Mass Transfer / Measurements of contact angle between R143a and both aluminium and copper surface by Vadgama (2007)
  20. {'key': '10.1016/j.applthermaleng.2011.09.006_bib20', 'series-title': 'The Formation of Diacetone Alcohol During Life Tests on Acetone Heat Pipes Constructed Using Aluminium and Stainless Steel', 'author': 'Reay', 'year': '1976'} / The Formation of Diacetone Alcohol During Life Tests on Acetone Heat Pipes Constructed Using Aluminium and Stainless Steel by Reay (1976)
  21. Chris R. Wiacek, Hiroo H. Mahtani. Soldering of saddles to low expansion alloy heat pipes. United States patent, No. 6810944 B2, Nov. 2nd, 2004.
  22. David Antoniuk, Jeffrey L. Baker, et al. Embedded heat pipe structure. United States patent, No. 6065529, May 23rd, 2000.
  23. David A. Ferrera. Shape memory polymer intravascular delivery system with heat transfer medium. United States patent, No. 6224610 B1, May 1st, 2000.
  24. Christopher Lee Houghton. Method and system for controlling radio frequency radiation in microelectronic packages using heat dissipation structures. United States patent, No. 6282095 B1, Aug 28th, 2001.
  25. A. Todd Leak, Mark Michael Mleziva, et al. Laminate materials. United States patent, No. 5763041, Jun. 9th, 1998.
  26. Lynn E. Long. Article having a high-temperature thermal control coating. United States patent, No. 5876856, Mar. 2nd, 1999.
  27. 10.1016/j.ijheatmasstransfer.2006.09.019 / International Journal of Heat and Mass Transfer / Modulated wick heat pipe by Hwang (2007)
  28. W.F. Anderson, D.B. Sarraf, S.D. Garner, et al. High temperature water-titanium heat pipe radiator. In: Proceeding of the 2006 IECEC, AIAA, ISBN 1563478005, San Diego, CA, June 26–29, 2006. (10.2514/6.2006-4146)
  29. {'key': '10.1016/j.applthermaleng.2011.09.006_bib29', 'first-page': '100', 'article-title': 'High temperature water heat pipe life tests', 'volume': 'vol. 813', 'author': 'Anderson', 'year': '2006'} / High temperature water heat pipe life tests by Anderson (2006)
  30. 10.1016/j.applthermaleng.2004.07.010 / Applied Thermal Engineering / Loop heat pipes by Maydanik (2005)
  31. Overview of Materials for Alpha/beta Titanium Alloy. Available from: http://www.matweb.com/search/DataSheet.aspx?MatGUID=4dac23c848db4780a067fd556906cae6 [accessed 31.08.11]
  32. Overview of Materials for Aluminium Alloy. Available from: http://www.matweb.com/search/DataSheet.aspx?MatGUID=ab8aeb2d293041c4a844e397b5cfbd4e [accessed 31.08.11]
  33. Overview of Materials for Magnesium Alloy. Available from: http://www.matweb.com/search/DataSheet.aspx?MatGUID=4e6a4852b14c4b12998acf2f8316c07c [accessed 31.08.11]
  34. Titanium Price on 01/09/2011. Available from: http://www.metal-pages.com/metalprices/titanium/ [accessed 01.09.11]
  35. Aluminium Price on 01/09/2011. Available from: http://www.lme.com/aluminium.asp [accessed 01.09.11]
  36. Magnesium (99.9% Minimum) Price on 01/09/2011. Available from: http://www.metal-pages.com/metalprices/mangnesium/ [accessed 01.09.11]
  37. Magnesium Elektron Online Source, Magnesium Casting Alloy, Datasheet 440. Available from: http://www.magnesium-elektron.com/ [accessed 30.03.08]
  38. Xiao Yang, Yuying Yan, David Mullen, Jo Darkwa. Experiments and molecular dynamics simulation of droplets behaviour and phase change in magnesium heat pipe. In: US-EU-CHINA Thermophysics Conference, May 28–30, 2009, Beijing, UECTC-RE T5-S6-0335.
  39. 10.1016/j.applthermaleng.2010.08.019 / Applied Thermal Engineering / Molecular dynamics simulation for microscope insight of water evaporation on a heated magnesium surface by Yang (2011)
  40. Xiao Yang, Yuying Yan, Pool nucleate boiling of acetone and Acetone/Ethanol Mixture on magnesium alloy surface. In: 14th International Heat Transfer Conference, Washington D.C, USA. 8–13th August, 2010, IHTC14-22840. (10.1115/IHTC14-22840)
  41. John H. Rosenfeld, G. Yale Eastman. Chemically compatible, lightweight heat pipe. United States patent, No. 7069978 B2, Jul 4th, 2006.
  42. {'key': '10.1016/j.applthermaleng.2011.09.006_bib42', 'series-title': 'Note of Magnesium Alloys', 'author': 'Lin', 'year': '2006'} / Note of Magnesium Alloys by Lin (2006)
  43. Feldman Jr. et al. United States patent 3604503. Appl. 2 Aug, 1968.
  44. 10.1002/(SICI)1527-2648(199909)1:1<11::AID-ADEM11>3.0.CO;2-N / Advanced Engineering Materials / Corrosion mechanisms of magnesium alloys by Song (1999)
  45. {'issue': '3', 'key': '10.1016/j.applthermaleng.2011.09.006_bib45', 'article-title': 'Corrosion of magnesium', 'volume': '38', 'author': 'Markar', 'year': '1998', 'journal-title': 'International Materials Reviews'} / International Materials Reviews / Corrosion of magnesium by Markar (1998)
  46. {'key': '10.1016/j.applthermaleng.2011.09.006_bib46', 'series-title': 'Corrosion Resistance of Magnesium Alloys', 'author': 'Shaw', 'year': '2003'} / Corrosion Resistance of Magnesium Alloys by Shaw (2003)
  47. {'key': '10.1016/j.applthermaleng.2011.09.006_bib47', 'volume': 'vol. 6', 'author': 'Song', 'year': '2003'} by Song (2003)
  48. {'key': '10.1016/j.applthermaleng.2011.09.006_bib48', 'series-title': 'Proceedings of the 22nd Riso International Symposium on Materials Science', 'article-title': 'Stability and electrochemical properties of Mg65Y10Cu25 metallic glass', 'author': 'Wolff', 'year': '2001'} / Proceedings of the 22nd Riso International Symposium on Materials Science / Stability and electrochemical properties of Mg65Y10Cu25 metallic glass by Wolff (2001)
  49. 10.1016/S0035-3159(98)80089-5 / Revue Générale de Thermique / Thermal control of electronic equipment by heat pipes by Groll (1998)
  50. {'key': '10.1016/j.applthermaleng.2011.09.006_bib50', 'series-title': 'Heat Pipe Design Handbook', 'author': 'Brennan', 'year': '1979'} / Heat Pipe Design Handbook by Brennan (1979)
  51. {'key': '10.1016/j.applthermaleng.2011.09.006_bib51', 'series-title': 'Heat Pipes: Theory, Design and Applications', 'author': 'Reay', 'year': '2006'} / Heat Pipes: Theory, Design and Applications by Reay (2006)
  52. Heat Pipe Technology: Passive Heat Transfer for Greater Efficiency, Thermacore Online Document (1). Available from: http://www.thermacore.com/thermal-basics/heat-pipe-technology.aspx [accessed 15.12.08]
  53. Wilfrido R. Iriarte. Heat pipe with capillary groove and floating artery. United States patent, No. 4058159, Nov. 15th, 1977.
  54. Hul Chun Hsu. Heat pipe having fiber wick structure. United States patent, No. 6983791B2, Jan. 10th, 2006.
  55. Hul Chun Hsu. Wick structure of heat pipe. United States patent, No. 7086454B1, Aug. 8th, 2006.
  56. 10.1016/S0017-9310(02)00038-8 / International Journal of Heat and Mass Transfer / High performance miniature heat pipe by Lin (2002)
  57. “Spreader Design Standard” Internal documents of Thermacore Europe Ltd.
  58. “Brief introduction of heat base” Internal documents of Thermacore Europe Ltd.
  59. 10.1016/0017-9310(95)00270-7 / International Journal of Heat and Mass Transfer / Estimation of the maximum heat flux in the inverted meniscus type evaporator of a flat miniature heat pipe by Khrustalev (1996)
  60. 10.1016/S0017-9310(00)00016-8 / International Journal of Heat and Mass Transfer / A study of multiple heat sources on a flat plate heat pipe using a point source approach by Tan (2000)
  61. 10.1016/j.applthermaleng.2005.01.001 / Applied Thermal Engineering / Analytical effective length study of a flat plate heat pipe using point source approach by Tan (2005)
  62. 10.1016/S1359-4311(03)00111-X / Applied Thermal Engineering / Experimental analysis of a flat heat pipe working against gravity by Esarte (2003)
  63. 10.1016/S1359-4311(96)00044-0 / Applied Thermal Engineering / Liquid flow in the anisotropic wick structure of a flat plate heat pipe under block-heating condition by Qin (1997)
  64. 10.1016/S0026-2692(02)00187-8 / Microelectronics Journal / Innovative wick design for multi-source, flat plate heat pipe by Rightley (2003)
  65. 10.1016/j.ijthermalsci.2008.11.011 / International Journal of Thermal Sciences / Nucleate boiling in a flat grooved heat pipe by Lips (2009)
  66. {'key': '10.1016/j.applthermaleng.2011.09.006_bib66', 'series-title': 'Testing of Vapour Chamber Used in Electronics Cooling. Advanced Computational Methods in Heat Transfer', 'author': 'Haddad', 'year': '2006'} / Testing of Vapour Chamber Used in Electronics Cooling. Advanced Computational Methods in Heat Transfer by Haddad (2006)
  67. 10.1016/j.applthermaleng.2006.04.002 / Applied Thermal Engineering / Experimental investigation of a flat plate heat pipe performance using IR thermal imaging camera by Boukhanouf (2006)
  68. 10.1016/j.applthermaleng.2006.09.003 / Applied Thermal Engineering / Low-noise cooling system for PC on the base of loop heat pipes by Pastukhov (2007)
  69. 10.1016/j.ijheatmasstransfer.2007.06.024 / International Journal of Heat and Mass Transfer / Investigation of pulsations of the operating temperature in a miniature loop heat pipe by Vershinin (2007)
  70. 10.1016/j.ijthermalsci.2006.02.003 / International Journal of Thermal Science / Steady-state and transient performance of a miniature loop heat pipe by Chen (2006)
  71. Janak G. Patel. Integrated heatsink and heatpipe. United States patent, No. 6163073, Dec. 19th, 2000.
  72. Shun-lung Chao. Heatsink with embedded heat pipe for thermal management of CPU, No. 6424528B1, Jul. 23rd, 2002.
  73. Ueda etal. Heat pipe type cooler. United States patent, No. 7156158B2, Jan 2nd, 2007.
  74. 10.1016/S1359-4311(00)00066-1 / Applied Thermal Engineering / Miniature heat-pipe thermal performance prediction tool – software development by Maziuk (2001)
  75. Heat Pipe Assemblies: a Wide Range of Efficient Cooling Solutions, Thermacore Online Document (2). Available from: http://www.thermacore-europe.com/products/heat-pipe-assemblies.aspx [accessed 30.03.10]
  76. 10.1016/j.applthermaleng.2006.02.023 / Applied Thermal Engineering / Micro and miniature heat pipes – electronic component coolers by Vasiliev (2008)
  77. P. Ektummakij, V. Kumthonkittikun, H. Kuriyama, et al. New composite wick heat pipe for cooling personal computers. In: Preprints of the 13th International Heat Pipe Conference, Shanghai, China, 21–25 September 2004. p. 263–8.
  78. Vapour Chamber Technology, Thermacore Online Document (3). Available from: http://www.thermacore.com/products/vapor-chamber-technology.aspx [accessed 10.11.09]
  79. {'key': '10.1016/j.applthermaleng.2011.09.006_bib79', 'series-title': 'Heat Pipe Science and Technology', 'author': 'Faghri', 'year': '1995'} / Heat Pipe Science and Technology by Faghri (1995)
  80. 10.1016/S1359-4311(03)00040-1 / Applied Thermal Engineering / Elaboration of thermal control systems on heat pipes for microsatellites Magion 4, 5 and BIRD by Baturkin (2003)
Dates
Type When
Created 13 years, 11 months ago (Sept. 29, 2011, 5:21 p.m.)
Deposited 6 years, 2 months ago (June 16, 2019, 11:22 a.m.)
Indexed 1 day, 12 hours ago (Aug. 29, 2025, 6:01 a.m.)
Issued 13 years, 6 months ago (Feb. 1, 2012)
Published 13 years, 6 months ago (Feb. 1, 2012)
Published Print 13 years, 6 months ago (Feb. 1, 2012)
Funders 0

None

@article{Yang_2012, title={Recent developments of lightweight, high performance heat pipes}, volume={33–34}, ISSN={1359-4311}, url={http://dx.doi.org/10.1016/j.applthermaleng.2011.09.006}, DOI={10.1016/j.applthermaleng.2011.09.006}, journal={Applied Thermal Engineering}, publisher={Elsevier BV}, author={Yang, X. and Yan, Y.Y. and Mullen, D.}, year={2012}, month=feb, pages={1–14} }