53rd AIAA Aerospace Sciences Meeting 2015
DOI: 10.2514/6.2015-0712
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Experimental Assessment of Vapour Chamber Heater Spreader Implementation in Avionic Cooling

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Cited by 6 publications
(3 citation statements)
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“…The vapor chamber was found to be much more efficient than an equivalent metallic heat sink that occupied the same volume. For a component surface temperature ranging from 80 to 100 • C, the maximum dissipated power varied between 95 and 145 W. Similarly, Jones et al [128] embedded the vapor chamber within the avionics module chassis to reduce the thermal resistance between the avionics components and the module heat exchanger. The isothermalization of the avionics baseplate was significantly improved.…”
Section: Flat Heat Pipementioning
confidence: 99%
“…The vapor chamber was found to be much more efficient than an equivalent metallic heat sink that occupied the same volume. For a component surface temperature ranging from 80 to 100 • C, the maximum dissipated power varied between 95 and 145 W. Similarly, Jones et al [128] embedded the vapor chamber within the avionics module chassis to reduce the thermal resistance between the avionics components and the module heat exchanger. The isothermalization of the avionics baseplate was significantly improved.…”
Section: Flat Heat Pipementioning
confidence: 99%
“…Research of Filippo Pagnoni et al, 2021 found out that when exposed to a cold environment, the sintered titanium wick showed excellent mechanical resistance to repeated cycles of water freeze/thaw. For thermal management of electronics, various types of heat pipes have been developed such as flat heat pipes (Wang et al, 2023), pulsating heat pipes (Cai et al, 2015;Alhuyi Nazari et al, 2018) and vapor chamber (Jones and Chen, 2015). For heat dissipation applications, water is one of the most commonly used working fluid due to its high heat transfer coefficient, chemical stability and low cost.…”
Section: Introductionmentioning
confidence: 99%
“…In military aircraft, the failures due to thermal issues are difficult to diagnose and are considered under the no-fault found category, contributing to more than 85% of all the identified operational failures in the avionic industry. 19,20 Hence, to tackle the heat dissipation problems in high heat flux devices particularly in the microelectronic and defence sector, a high heat dissipation cooling system like two-phase cooling systems is required instead of conventional metal heat spreaders. [21][22][23] Also, conventional air cooling techniques such as fans and blowers can handle heat fluxes up to 4 W/cm 2 , which is not adequate to cope with the increasing demands for the effective removal of heat from the electronic device.…”
Section: Introductionmentioning
confidence: 99%