Experimental investigation of copper-grooved micro heat pipes (MHPs)

Xiao-Dong Wang; Liang-Liang Zou; Ji-Guang Liu; Yi Luo; Gang Liu; Bei-Ke Yu

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Experimental investigation of copper-grooved micro heat pipes (MHPs)

机译：铜槽微热管（MHP）的实验研究

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Abstract With the excellent thermal conductivity and the compatibility to micro electromechanical systems technology, silicon is widely used in micro heat pipes (MHPs). Copper shows higher heat transfer capability and capillary traction than silicon. Copper microgrooves were fabricated on the silicon wafer using electroforming technique in this paper. Water contact angle measurements and thermal behavior tests demonstrated that copper-grooved MHPs showed better performance than silicon ones. Under the input power of 5.99?W, the equivalent thermal conductivities of copper-grooved and silicon-grooved MHPs were 228.98?W/K?·?m and 196.26?W/K?·?m. This work showed the feasibility of copper grooved silicon based MHPs in heat transfer for high-power light emitting diode (HP LED).

机译：摘要硅具有出色的导热性，并且与微机电系统技术兼容，因此被广泛应用于微热管（MHP）中。铜显示出比硅更高的传热能力和毛细管牵引力。本文采用电铸技术在硅片上制作了铜微槽。水接触角测量和热行为测试表明，铜槽MHP比硅具有更好的性能。在5.99？W的输入功率下，铜槽和硅槽MHP的等效热导率分别为228.98？W / K？·？m和196.26？W / K？·？m。这项工作表明了铜凹槽硅基MHP在大功率发光二极管（HP LED）的热传递中的可行性。

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《Journal of Solid State Lighting》 |2014年第1期|共8页
作者
Xiao-Dong Wang; Liang-Liang Zou; Ji-Guang Liu; Yi Luo; Gang Liu; Bei-Ke Yu;
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中图分类电气化、电能应用;
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机译：铜槽微热管（MHP）的实验研究

Experimental investigation of copper-grooved micro heat pipes (MHPs)

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