高频振荡磁场条件下粘度对散热的影响

IF 2.6 4区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR
M. Molčan, A. Skumiel, Jana Tóthová, K. Paulovičová, P. Kopčanský, M. Timko
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引用次数: 0

摘要

微处理器、晶体管、天线、压控振荡器等高频元件会产生大量热量。如果冷却效果不理想,这些元件可能会损坏甚至毁坏。因此,必须找到冷却这些元件的有效方法。一种可行的解决方案是使用油基磁性流体。磁性流体包含分散在油中的磁性颗粒,其特性(包括粘度)会影响冷却能力。可以通过添加各种添加剂或调整磁性颗粒的浓度来改变粘度。使用油基磁性流体进行冷却的优点是可以精确计量和控制施加到部件上的流体量,从而减少热损失并提高冷却效率。此外,油基磁性流体还能起到电介质的作用,降低电气噪音,提高与元件的电磁兼容性。通过分析由矿物油组成的磁性流体在频率为 500 kHz 的交变磁场中的加热速率,我们证明了通过调节载液粘度来控制热损耗的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Influence of Viscosity on Heat Dissipation under Conditions of the High-Frequency Oscillating Magnetic Field
High-frequency components such as microprocessors, transistors, antennas, voltage-controlled oscillators, and many others generate a large amount of heat. In the absence of satisfactory cooling, these components may suffer damage or even destruction. Therefore, it is important to find effective ways to cool these components. A possible solution is to use oil-based magnetic fluids. Magnetic fluids contain magnetic particles dispersed in oil, and their properties, including viscosity, affect their cooling capabilities. Viscosity can be changed by adding various additives or by adjusting the concentration of magnetic particles. The advantage of using oil-based magnetic fluids for cooling is that they allow for precise dosing and control of the amount of fluid applied to the component, reducing thermal losses and increasing cooling efficiency. In addition, oil-based magnetic fluids can also act as a dielectric, reducing electrical noise and increasing electromagnetic compatibility with the components. Analyzing the heating rate of magnetic fluids consisting of mineral oils in an alternating magnetic field with a frequency of 500 kHz, we have shown the capability of controlling thermal losses by adjusting the viscosity of the carrier liquid.
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来源期刊
Magnetochemistry
Magnetochemistry Chemistry-Chemistry (miscellaneous)
CiteScore
3.90
自引率
11.10%
发文量
145
审稿时长
11 weeks
期刊介绍: Magnetochemistry (ISSN 2312-7481) is a unique international, scientific open access journal on molecular magnetism, the relationship between chemical structure and magnetism and magnetic materials. Magnetochemistry publishes research articles, short communications and reviews. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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