Metallic micro heat pipe heat spreader fabrication

Shung-Wen Kang; Sheng-Hong Tsai; Ming-Han Ko

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Metallic micro heat pipe heat spreader fabrication

机译：金属微热管散热器的制造

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Micro heat pipe heat spreaders (MHPHS) with three copper foil layers were designed to allow liquid and vapor flow separation to reduce viscous shear force. Two wick designs, one using 200 μm wide etched radial grooves and the other with 100-mesh copper screens were investigated. The foils were vacuum diffusion bonded to form 31 mm * 31 mm * 2.7 mm heat spreader. Thermal performance of the MHPHS was evaluated experimentally in a fan-heat sink CPU test apparatus with a heating area of 13.97 mm * 13.97 mm. The clamping pressure between the spreader and the heat sink was maintained at 13 kgf during the test. After evaluation, the MHPHS with 82% methanol fill rate, radial groove wicking structure showed the best performance compared to the other samples. The superior MHPHS had lower evaporator temperature with a 17 ℃ value, corresponding to a 30% decrease in thermal resistance at an actual input power of 35 W, compared to the system without MHPHS.

机译：设计了具有三层铜箔层的微型热管散热器（MHPHS），以实现液体和蒸汽的分离，以降低粘性剪切力。研究了两种灯芯设计，一种采用200微米宽的蚀刻径向凹槽，另一种采用100目铜丝网。将箔真空扩散粘合以形成31mm×31mm×2.7mm的散热器。在散热面积为13.97 mm * 13.97 mm的风扇散热器CPU测试设备中，通过实验评估了MHPHS的热性能。在测试过程中，散热器和散热器之间的夹紧压力保持在13 kgf。经过评估，与其他样品相比，具有82％甲醇填充率，径向凹槽芯吸结构的MHPHS显示出最佳性能。与没有MHPHS的系统相比，优越的MHPHS的蒸发器温度更低，为17℃，对应的实际输入功率为35 W时，热阻降低了30％。

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《Applied thermal engineering: Design, processes, equipment, economics》 |2004年第3期|共11页
作者
Shung-Wen Kang; Sheng-Hong Tsai; Ming-Han Ko;
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原文格式 PDF
正文语种 eng
中图分类热力工程理论;
关键词
micro heat pipe heat spreader; heat sink; thermal resistance;

机译：微型热管散热器;散热器;热阻;

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专利

1. Metallic micro heat pipe heat spreader fabrication [J] . Shung-Wen Kang, Sheng-Hong Tsai, Ming-Han Ko Applied thermal engineering: Design, processes, equipment, economics . 2004,第2a3期

机译：金属微热管散热器的制造
2. Design and Fabrication of a Metallic Micro-Heat Pipe Based on High-Aspect-Ratio Microchannels [J] . K. H. OH, M. K. LEE, S. H. JEONG Heat Transfer Engineering . 2007,第8a9期

机译：基于高纵横比微通道的金属微热管的设计与制作
3. Micro and nano thermal flow characteristics of a flat plate heat pipe heat spreader [J] . In Seon Yu, Seok Ho Rhi, Kyoung Il Cha International Journal of Physical Sciences . 2012,第11期

机译：平板式热管散热器的微米和纳米热流特性
4. DESIGN AND FABRICATION OF A METALLIC MICRO HEAT PIPE BASED ON HIGH-ASPECT-RATIO MICROCHANNELS [C] . K. H. Oh, M. K. Lee, S. H. Jeong 4th International Conference on Nanochannels, Microchannels and Minichannels 2006(ICNMM2006) pt.B . 2006

机译：基于高比微通道的金属微热管的设计与制造
5. Optimal micro heat pipe configuration on high performance heat spreaders. [D] . Singh, Seema Sandhaya. 2009

机译：高性能散热器上的最佳微型热管配置。
6. Fabrication of Metastable Crystalline Nanocomposites by Flash Annealing of Cu47.5Zr47.5Al5 Metallic Glass Using Joule Heating [O] . Ilya Okulov, Ivan Soldatov, Ivan Kaban, 2020

机译：焦耳加热快速退火Cu47.5Zr47.5Al5金属玻璃制备亚稳晶体纳米复合材料
7. Design and Fabrication of a Metallic Micro-Heat Pipe Based on High-Aspect-Ratio Microchannels [O] . K. H. Oh, M. K. Lee, S. H. Jeong 2007

机译：基于高纵横比微通道的金属微热管的设计与制造
8. Design and Testing of Metal and Silicon Heat Spreaders with Embedded Micromachined Heat Pipes [R] . Benson, D. A. , Robino, C. V. 1999

机译：嵌入式微机械热管金属和硅散热器的设计和测试

Metallic micro heat pipe heat spreader fabrication

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