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Influence of diamond on heat dissipation capability of slow-wave structure of helix TWT 金刚石对螺旋行波管慢波结构散热性能的影响
Pub Date : 2013-12-05 DOI: 10.7498/APS.62.234402
Li Yanwen, W. Xiaoxia, Zhu Hong, Han Yong, Gu Bing, Lu Yu-xin, Fang Rong
The heat dissipation capability of the slow-wave structure (SWS) of the traveling-wave tube (TWT) is an important influencing factor that restricts the increase of the output power, the stability, and the reliability. Due to several unique and fascinating characteristics, the diamond material has been employed in the SWS manufacture to enhance the thermal conduction to a certain extent. The influences of the supporting rods deposited with diamond film, the helix deposited with diamond film, and the diamond supporting rods on the heat dissipation capability have been studied using theoretical, simulation, and experimental methods. This method is closely associated with the computer simulation in experimental test and increases the simulation accuracy. Valuable conclusions have been obtained.
行波管慢波结构的散热能力是制约行波管输出功率提高、稳定性和可靠性的重要影响因素。由于金刚石材料具有一些独特而迷人的特性,金刚石材料已被用于SWS制造,以在一定程度上提高热传导。采用理论、模拟和实验的方法研究了金刚石膜支撑杆、金刚石膜螺旋和金刚石支撑杆对散热性能的影响。该方法与实验测试中的计算机仿真紧密结合,提高了仿真精度。得到了有价值的结论。
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引用次数: 1
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Vacuum Electronics
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