Nanostructured c-post wicks for advanced heat pipes

机译：用于高级热管的纳米结构C柱灯芯

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Micro-heat pipes incorporating advanced wicks are promising for the thermal management of high power density semiconductor and MEMS devices. We report experimental characterization of the heat transfer performance of wicks consisting of dense arrays of superhydrophilic Cu micropost wicks fabricated using electrochemical deposition and controlled chemical oxidation. A very high heat removal capability (as high as 800 W/cm² with less than 35°C wick superheat) is demonstrated using 2×2 mm² thin-film heaters as heat sources. Superhydrophilic CuO nanostructures integrated onto the micropost surfaces are shown to enhance the critical heat flux by as much as 70%.

机译：带有先进灯芯的微热管有望用于高功率密度半导体和MEMS器件的热管理。我们报告灯芯的传热性能的实验表征，灯芯由使用电化学沉积和受控化学氧化制造的超亲水性铜微柱灯芯的密集阵列组成。使用2×2 mm ^{2 薄膜加热器证明了非常高的散热能力（高达800 W / cm ^{2 ，芯吸过热低于35°C）作为热源。集成在微柱表面上的超亲水性CuO纳米结构显示可将临界热通量提高多达70％。}}

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《2011 IEEE 24th International Conference on Micro Electro Mechanical Systems》|2011年|p.1313-1316|共4页
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Nam Y.S.; Sharratt S.; Ju Y.S.;
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Nanostructured c-post wicks for advanced heat pipes

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