Nanofluids are better conductors than the sum of their parts.
纳米流体是比其组成元素各部分总和更佳的良导体。
We found that the viscosity of nanofluids increases with an increase in the mass faction of Cu particles.
研究发现纳米流体的粘度随着颗粒质量分数的增加而增加。
In this article, the effect of SDBS dispersant concentrations on the stability of nanofluids has been investigated.
研究了分散剂(SDBS)的用量对纳米流体稳定性的影响。
Our quasi 1D PEG-MCNTs nanofluids behaved an unpredicted rheology behavior greatly different from the reported 0D nanostructures.
该类流体表现出不同于以往文献报道的各种0维纳米粒子类流体的特殊流变行为。
The main subject of this paper is the study of the anomalous thermal conductivity enhancement and the mechanism of thermal transport behavior in nanofluids.
本文重点研究了纳米流体热导率的异常增强和热传输机理。
In this study, the Al2O3-water nanofluids produced from direct synthesis method was used as the experimental samples into three types of the mass fractions 0.
本研究使用以直接混合法制备之三氧化二铝奈米流体为实验样本,目的为探讨三氧化二铝奈米流体在不同浓度0%,0。
Intensive involvement in industrial and biomedical applications of solid state NMR techniques, with emphasis in the study of porous media and iron based nanofluids.
固态核磁共振技术在工业和生物医学领域的广泛应用,研究重点为多孔介质和铁基纳米流体。
Nanofluids have successfully been developed in laboratories, and the upcoming challenge is to develop techniques for cost-efficient industrial-scale production of nanofluids.
实验室已成功研发出纳米流体,当前面临的技术难题是如何开发出低成本、工业化生产的纳米流体。
The research is further extended to the ordered liquid film confined between two solid plates with the distance of nanometers, and liquid layer cumulated on spherical nano-particle in nanofluids.
把拟有序层研究拓展到双平板作用形成的拟有序层(双固壁拟有序层)和纳米流体中的纳米颗粒添加剂表面形成的拟有序层(球面拟有序层)。
In this paper, combined with the idea of Laser Speckle Velocimetry (LSV), experiments are carried out to measure the velocities of nano-particles in directional nanofluids with Zero-Crossing Method.
本文结合激光散斑测速技术(LSV),应用激光散斑过零法对定向流动的纳米流体中纳米粒子的运动状态进行了理论分析及实验研究。
The heat transfer coefficient of nanofluids increases with increasing the thermal conductivity of nanoparticles and base fluid, and increases with an increase in the volume fraction of nanoparticles.
纳米流体的对流传热系数随着颗粒和基液热导率的增加、颗粒体积分数的增加以及颗粒粒径的减小而增大。
The heat transfer coefficient of nanofluids increases with increasing the thermal conductivity of nanoparticles and base fluid, and increases with an increase in the volume fraction of nanoparticles.
纳米流体的对流传热系数随着颗粒和基液热导率的增加、颗粒体积分数的增加以及颗粒粒径的减小而增大。
应用推荐